JP2007214811A - Radio communication system, radio communication method, access point device, and communication method of access point device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a radio communication system for respectively changing codec systems used by a transmitting side radio terminal and a receiving side radio terminal in accordance with amount of bandwidth used by an access point device in particular about the radio communication system having the access point device capable of performing radio communication with the allowable number of radio terminals determined in accordance with the amount of bandwidth. <P>SOLUTION: When transmitting side band data showing band traffic required for communication including the transmitting side radio terminal exceeds first transmitting side threshold data showing amount of bandwidth to be reference for determining whether to change a codec system of a radio terminal, the access point device receiving transmission request information changes encoding system data attached to the transmission request information to encoding system data with a smaller number of use bands. When receiving side band data exceeds first receiving side threshold data, the access point device receiving receiving request information changes encoding system data attached to the receiving request information to encoding system data with a smaller number of use bands. Then, the codec system shown by the changed encoding system data is set in respective codec parts of the transmitting side and receiving side radio terminals. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to a wireless communication system having an access point device capable of wireless communication with an allowable number of wireless terminals determined according to a bandwidth, and in particular, depending on the bandwidth used by the access point device, The present invention relates to a wireless communication system that changes codec methods used by a wireless terminal and a receiving wireless terminal.

A wireless communication system having an access point device capable of wireless communication with an allowable number of wireless terminals determined according to the bandwidth is known. For example, in Patent Document 1 below, when an access point device that performs wireless communication with an allowable number of wireless terminals determined according to the bandwidth amount further receives a call request from another wireless terminal, the other wireless terminal There has been disclosed a wireless communication system that detects a shortage of bandwidth necessary for wireless communication with a terminal and performs a communication failure notification to another wireless terminal that has issued a transmission request.
JP 2005-229591 A

  However, the wireless communication system described above has the following problems to be solved. That is, when a request is made for transmission from another wireless terminal, if the requested access point apparatus has already performed wireless communication with an allowable number of wireless terminals determined according to the bandwidth, any of the wireless terminals that are performing wireless communication Until wireless communication with the KAWA access point device is terminated, other wireless terminals that have made a call origination cannot perform wireless communication via the access point device, and there was a problem in convenience.

The present invention adopts the following configuration in order to solve the above points.
<Configuration 1>
A call that controls the wireless communication with a plurality of wireless terminals that are performing wireless communication with each other via the access point device on the transmission side and the reception side using the codec method indicated by the encoding method data set in the codec unit Using the same codec method as the control device, a caller-side radio terminal that newly issues a call request to the caller-side access point device to perform radio communication with the callee-side radio terminal serving as the callee In the wireless communication system provided, the transmitting-side wireless terminal includes a transmitting-side communication unit that transmits transmission request information to which encoding method data indicating a designated codec method is added to the access-side device on the transmitting side, The access point device on the side indicates a bandwidth amount that serves as a reference for determining whether or not the codec scheme assigned to the call request information needs to be changed. A storage unit that holds first transmission-side threshold data; a codec method indicated by the encoding method data assigned to the transmission request information when the transmission request information is received; and a codec method used by the plurality of wireless terminals Based on the transmission side band terminal, the transmission side band acquisition unit for acquiring the transmission side band data indicating the total bandwidth required for the wireless communication of the transmission side wireless terminal and the wireless terminal in communication, the transmission side band data is the first When larger than one transmission side threshold data, a transmission side communication availability determination unit that determines communication is possible by changing the encoding method data given to the transmission request information, and the transmission side communication availability determination unit include in the transmission request information When it is determined that communication is possible due to the change of the assigned encoding method data, change instruction data for instructing the change of the encoding method data assigned to the transmission request information is further added. A call-side relay communication unit that transmits the call request information to the call control device, and the call control device determines that the codec method needs to be changed if change instruction data is attached to the call request information. An encoding method that indicates a codec method that uses less bandwidth than a codec method indicated by the encoding method data assigned to the transmission request information when the change necessity determination unit and the change necessity determination unit determine that a change is necessary A change control unit for generating incoming call request information to which data has been added; and a communication control unit for transmitting the generated incoming call request information to the access point device on the called side. A storage unit for holding first incoming side threshold value data indicating a bandwidth amount serving as a reference for determining whether or not the encoding method data given to the incoming call request information needs to be changed; When receiving the incoming call request information, based on the codec method indicated by the encoding method data attached to the incoming call request information and the codec method used by the plurality of wireless terminals, the originating wireless terminal and the plurality of wireless terminal An incoming-side bandwidth acquisition unit that acquires incoming-side bandwidth data indicating the total bandwidth required for wireless communication of the wireless terminal, and determines that communication is possible if the incoming-side bandwidth data is smaller than the first incoming-side threshold data A receiving-side communication enable / disable determining unit; and an incoming-side relay communication unit that transmits the incoming request information to the receiving-side wireless terminal when the receiving-side communication enable / disable determining unit determines that communication is possible. Upon receipt of the incoming call request information, the incoming side method setting unit that sets the codec method indicated by the assigned encoding method data in its own codec unit, and the incoming side method setting unit When the deck method is set, the receiving side communication unit transmits the incoming call response information to which the encoding method data indicating the set codec method is added to the calling side wireless terminal. When the response information is received, a transmission side system setting unit that sets the codec system indicated by the assigned code system data in its own codec unit is provided.
<Configuration 2>
In the wireless communication system according to Configuration 1, when the incoming side bandwidth data is larger than the first incoming side threshold data, the incoming side communication enable / disable determining unit communicates by changing the encoding method data added to the incoming request information. When the callee side communication communicability determining unit determines that communication is possible, the callee side relay communication unit transmits change instruction information for instructing a change of the encoding method data attached to the callee request information. Transmitting to the control device and receiving the incoming request information with the changed coding scheme data from the call control device, the incoming request information is transmitted to the incoming wireless terminal.
<Configuration 3>
The same codec method is used with a plurality of wireless terminals that are performing wireless communication with each other via the access point device on the transmission side and the reception side using the codec method indicated by the encoding method data set in the codec section. Then, in a wireless communication system comprising a caller-side radio terminal that issues a call request to the caller-side access point device to perform radio communication with the callee-side radio terminal, the caller-side radio terminal includes a designated codec. A transmission side communication unit that transmits transmission request information to which encoding method data indicating a method is added to the access point device on the transmission side, and the access point device on the transmission side includes a codec method assigned to the transmission request information A storage unit for holding first transmission side threshold data indicating a bandwidth amount serving as a reference for determining whether or not a change of the transmission is necessary, and the transmission request When the information is received, based on the codec method indicated by the encoding method data attached to the call request information and the codec method used by the plurality of wireless terminals, the calling side wireless terminal and the plurality of wireless terminals A transmission-side band acquisition unit that acquires transmission-side band data indicating the total amount of bandwidth required for wireless communication, and when the transmission-side band data is larger than the first transmission-side threshold data, the transmission request information is given When determining that communication is possible by changing the encoding method data, the transmission side communication availability determination unit determining that communication is possible by changing the encoding method data, and the transmission side communication availability determination unit determining that communication is possible by changing the encoding method data provided to the transmission request information, A transmission side relay communication unit that further adds change instruction data for instructing a change in encoding method data to the transmission request information, and the change instruction data is added to the transmission request information. If it is determined that the codec method needs to be changed and the transmission side change necessity determination unit determines that the change is necessary, the encoding method data added to the transmission request information indicates A change control unit that generates incoming request information to which encoding method data indicating a codec method that uses less bandwidth than a codec method is attached, and transmission that transmits the generated incoming request information to the access point device on the called side A first communication side control unit, wherein the receiving-side access point device indicates a bandwidth amount serving as a reference for determining whether or not the encoding method data added to the incoming request information needs to be changed. A storage unit that holds incoming-side threshold data; and a codec method indicated by the encoding method data attached to the incoming request information when the incoming request information is received, and the plurality of radios Based on the codec scheme used by the terminal, the receiving side band acquisition unit that acquires the receiving side band data indicating the total amount of bandwidth required for wireless communication of the transmitting side wireless terminal and the plurality of wireless terminals, and When the incoming-side bandwidth data is smaller than the first incoming-side threshold data, the incoming-side communication enable / disable determining unit that determines that communication is possible, and the incoming-side communication enable / disable determining unit determines that communication is possible, A receiving side communication control unit for transmitting to the side wireless terminal, and the receiving side wireless terminal, when receiving the incoming call request information, sets the codec method indicated by the assigned encoding method data in its own codec unit When the side method setting unit and the called side method setting unit set the codec method, the incoming side response information provided with the coding method data indicating the set codec method is transmitted to the outgoing side radio. A caller side communication unit configured to transmit to the end, and the caller side radio terminal sets the codec mode indicated by the assigned code mode data in its own codec unit when receiving the incoming call response information. It comprises a part.
<Configuration 4>
In the wireless communication system according to Configuration 3, when the incoming-side bandwidth data is larger than the first incoming-side threshold data, the incoming-side communication availability determination unit communicates by changing the encoding method data added to the incoming request information. When the incoming communication control unit determines that communication is possible by changing the encoding method data added to the incoming request information, the incoming communication control unit adds the incoming call request information to the incoming request information. A change-side change necessity determination unit that further adds change instruction data for instructing a change in encoding method data to the incoming request information, and determines that a change is required when the change instruction data is added to the incoming request information. When the incoming side change necessity determination unit determines that the change is required, the codec method uses less bandwidth than the codec method indicated by the encoding method data attached to the incoming request information. The generates the incoming request information imparting coding type data indicating, characterized in that it comprises a receiver side change control unit that transfers the call request information to the called-side communication control section.
<Configuration 5>
A first signal as a call connection request in an access point device that relays communication of a wireless terminal that uses the set codec method and performs processing related to a new call connection request between the originating wireless terminal and the terminating wireless terminal And a first determination unit that determines whether or not the first traffic of the access point device exceeds the first threshold, and the first traffic exceeds the first threshold A first transmitter that transmits a second signal related to a change in codec scheme between the calling wireless terminal and the called wireless terminal to the called wireless terminal, and the called wireless terminal A first relay unit that relays a third signal in which a codec scheme between the originating wireless terminal and the terminating wireless terminal is changed based on the second signal to the originating wireless terminal It is characterized by having .
<Configuration 6>
In the access point device according to Configuration 5, the second signal is a signal instructing setting of the codec system after the change.
<Configuration 7>
In the access point device according to Configuration 5, the access point device is a transmission side access point device connected to the transmission side wireless terminal via a wireless line, and the first signal is a signal indicating a call instruction. It is characterized by that.
<Configuration 8>
6. The access point device according to claim 5, wherein the access point device is a called side access point device connected to the called side wireless terminal via a wireless line, and the first signal is a signal indicating an incoming call instruction. It is characterized by being.
<Configuration 9>
In a wireless communication system including the access point device of Configuration 5, the access point device is a transmission side access point device connected to the transmission side wireless terminal via a wireless line, and further includes a reception side access point device, The called-side access point device is connected to the called-side wireless terminal via a wireless line and relays the first signal and the second signal to the called-side wireless terminal; And a third relay unit that relays the third signal from the side wireless terminal to the transmitting side wireless terminal.
<Configuration 10>
The wireless communication system including the access point device of Configuration 5 further includes a transmission side access point device, the transmission side access point device is connected to the transmission side wireless terminal via a wireless line, and the first signal is transmitted. A second relay unit that relays, and a third relay unit that relays the third signal from the incoming wireless terminal to the outgoing wireless terminal, and the access point device includes the incoming side A receiving-side access point device connected to a wireless terminal via a wireless line, wherein the first transmitting unit transmits the second signal to the receiving-side wireless terminal.
<Configuration 11>
In the wireless communication system including the access point device of Configuration 5, the access point device is a calling side access point device connected to the calling side wireless terminal via a wireless line, and further includes a call control device and a called side access. The call control device includes a first control unit that controls the first signal, and a fourth signal that instructs setting of the codec system after the change based on the second signal. A second transmission unit for transmitting, and the called-side access point device is connected to the called-side wireless terminal via a wireless line, and sends the first signal and the fourth signal to the called-side wireless terminal. A second relay unit for relaying and a third relay unit for relaying the third signal from the incoming-side wireless terminal to the transmitting-side wireless terminal are provided.
<Configuration 12>
The wireless communication system including the access point device of Configuration 5 further includes a transmission side access point device, the transmission side access point device is connected to the transmission side wireless terminal via a wireless line, and the first signal is transmitted. A second relay unit for relaying; and a third relay unit for relaying the third signal from the terminating wireless terminal to the transmitting wireless terminal; And a second transmitter for transmitting a fourth signal for instructing the setting of the changed codec system based on the second signal received from the access point device. The access point device is a terminating access point device connected to the terminating wireless terminal via a wireless line, and sends the first signal and the fourth signal to the terminating wireless terminal. Characterized in that it comprises a third relay unit for relaying.
<Configuration 13>
In a communication method of an access point device that relays communication of a wireless terminal that uses a set codec method and performs processing related to a new call connection request between a transmitting wireless terminal and a receiving wireless terminal, A first determination step of receiving one signal and determining whether or not the first traffic of the access point device exceeds a first threshold; and the first traffic is the first threshold A first transmission step of transmitting a second signal related to a change in codec scheme between the caller-side radio terminal and the callee-side radio terminal to the callee-side radio terminal; A first signal relaying a third signal in which a codec scheme between the transmitting wireless terminal and the called wireless terminal is changed based on the second signal from the transmitting wireless terminal to the transmitting wireless terminal; Relay station Characterized in that it comprises a flop.
<Configuration 14>
In the communication method of the access point apparatus of configuration 13, the second signal is a signal that instructs setting of the codec system after the change.
<Configuration 15>
A communication method of an access point device according to Configuration 13, wherein the access point device is a calling side access point device connected to the calling side wireless terminal via a wireless line, and further, the receiving side wireless terminal and the wireless line In the communication method of the wireless communication system including the receiving side access point device connected at the second point, the receiving side access point device relays the first signal and the second signal to the receiving side wireless terminal. And a third relay step of relaying the third signal from the receiving wireless terminal to the transmitting wireless terminal.
<Configuration 16>
A communication method for an access point device according to Configuration 13, further comprising a calling access point device connected to the calling wireless terminal via a wireless line, wherein the access point device is connected to the receiving wireless terminal and a wireless link. In the communication method of the wireless communication system, which is the incoming side access point device connected at the mobile station, the outgoing side access point device has a second relay step of relaying the first signal, and the incoming side wireless terminal A third relay step of relaying the third signal to the originating wireless terminal, wherein the first transmitting step transmits the second signal to the terminating wireless terminal. It is characterized by transmitting to.

  In the wireless communication system of the present invention, the transmission side wireless terminal transmits the transmission request information to which the encoding scheme data is added to the access point device, and the access point device that has received the transmission request information includes the communication including the transmission side wireless terminal. If the transmission side bandwidth data indicating the amount of bandwidth necessary for the transmission exceeds the first transmission side threshold data indicating the bandwidth amount used as a reference for determining whether or not to change the codec system of each wireless terminal, the transmission request information Is changed to coding method data having a smaller bandwidth than the coding method data, and communication including the originating wireless terminal is performed in the access point device that has received the incoming call request information. The bandwidth amount that is used as a reference for determining whether or not the codec method of each wireless terminal should be changed based on the transmission side bandwidth data indicating the bandwidth required for If the first incoming-side threshold data shown is exceeded, the encoding method data assigned to the incoming request information is changed to encoding method data that uses less bandwidth than the encoding method data, and the changed encoding Since the codec scheme indicated by the scheme data is set in each codec section of the originating wireless terminal and the terminating wireless terminal, the originating wireless terminal and the terminating wireless terminal use the set codec scheme, Even when the requesting access point device is in wireless communication with an allowable number of wireless terminals determined according to the amount of bandwidth at the time of the outgoing call request, wireless communication is performed via the access point device on the outgoing side and the incoming side. A highly convenient wireless communication system capable of performing communication can be provided.

  Hereinafter, an embodiment of the present invention will be described in detail with reference to the drawings.

<Configuration of Example 1>
FIG. 1 is a block diagram showing a radio communication system of the present invention.

  As shown in FIG. 1, the wireless communication system of the present embodiment includes a call control device 10, access point devices 20 and 30, a transmission-side wireless terminal 40, a reception-side wireless terminal 50, a plurality of wireless terminals 60, and a network 80. Has been.

  The network 80 is a communication line that connects between the call control device 10 and the access point devices 20 and 30.

  The transmission side wireless terminal 40 is a transmission side wireless telephone, and includes a control unit 41, a storage unit 42, a codec unit 43, a transmission side communication unit 44, and a transmission side method setting unit 45.

  The storage unit 42 is a memory such as an HDD, and stores terminal identification data. The terminal identification data is data for identifying itself such as a telephone number.

  As in the past, the calling-side wireless terminal 40, as will be described later, in order to allow the call control device 10 to manage its own location, the access-side wireless terminal 40 Terminal identification data is sent periodically.

  The incoming-side wireless terminal 50 is an incoming-side wireless telephone, and includes a control unit 51, a storage unit 52, a codec unit 53, an incoming-side communication unit 54, and an incoming-side system setting unit 55.

  The storage unit 52 is a memory such as an HDD, and stores terminal identification data. The terminal identification data is data for identifying itself such as a telephone number.

  As will be described later, the receiving-side wireless terminal 50, as will be described later, in order to allow the call control device 10 to manage its own position, the receiving-side wireless terminal 50 stores data in the storage unit 52 with respect to the access point device to be relayed during wireless communication. Terminal identification data is sent periodically.

  The access point device 20 is a device that relays between each wireless terminal and the call control device 10, and includes a control unit 21, a storage unit 22, a transmission side band acquisition unit 23, a transmission side communication availability determination unit 24, and a transmission side relay communication unit. 25. A transmission side update availability determination unit 26 and a transmission side data update unit 27 are provided.

  The storage unit 22 is a memory such as an HDD and stores device identification data, first transmission side threshold data, second transmission side threshold data, method change status data, use band data, and a method band amount correspondence table. .

  The device identification data is data for identifying itself such as an IP address, for example.

  The method change status data is data indicating that the access point apparatus 20 indicates the codec method change status as “not changed” or “being changed”, and indicates “not changed” in the initial setting.

  The first transmission-side threshold data is data indicating a bandwidth amount serving as a reference for determining whether or not to change the codec system of each wireless terminal.

  The second transmission-side threshold data is data indicating a bandwidth amount serving as a reference for determining whether or not a transmission request from each wireless terminal should be limited.

  The used bandwidth data is data indicating the total amount of bandwidth used by each wireless terminal that is currently performing wireless communication via the access point device 20, and is described below by the transmission side data update unit 27. Updated.

  The system bandwidth correspondence table is a table in which the bandwidth data indicating the bandwidth to be used is associated with the encoding data indicating the codec method, for example, the encoding method indicating the codec method (G.711). Bandwidth data indicating the bandwidth (64k) is associated with the data, and bandwidth data indicating the bandwidth (8k) is associated with the encoding scheme data indicating the codec scheme (G.729).

  When the access point device 20 receives terminal identification data indicating the telephone number of the wireless terminal from each wireless terminal managed by the wireless communication device, the access point device 20 receives the received terminal identification data and the device identification of the storage unit 22. Data is transmitted to the call control device 10. As a result, the call control device 10 can specify that the wireless terminal indicated by the terminal identification data can be wirelessly communicated via the access point device 20, as will be described later.

  The access point device 30 is a device that relays between each wireless terminal and the call control device 10, and includes a control unit 31, a storage unit 32, a reception side band acquisition unit 33, a reception side communication availability determination unit 34, and a reception side relay communication unit. 35, a receiving side update availability determination unit 36 and a receiving side data update unit 37 are provided.

  The storage unit 32 is a memory such as an HDD and stores device identification data, first incoming side threshold data, second incoming side threshold data, method change status data, used bandwidth data, and a method bandwidth correspondence table. .

  The device identification data is data for identifying itself such as an IP address, for example.

  The method change status data is data indicating that the access point apparatus 20 indicates the codec method change status as “not changed” or “being changed”, and indicates “not changed” in the initial setting.

  The first incoming side threshold data is data indicating a bandwidth amount serving as a reference for determining whether or not to change the codec method of each wireless terminal based on the bandwidth amount used by the access point device.

  The second incoming-side threshold data is data indicating a bandwidth amount that serves as a reference for determining whether or not a transmission request from each wireless terminal should be limited based on the bandwidth amount used by the access point device.

  The used bandwidth data is data indicating the total amount of bandwidth used by each wireless terminal that is currently performing wireless communication via the access point device 30, and will be described later by the incoming-side data update unit 37. Updated.

  The system bandwidth correspondence table is a table in which bandwidth data indicating a large amount to be used is associated with each encoding method data indicating a codec method, for example, a coding method indicating a codec method (G.711). Bandwidth data indicating the bandwidth (64k) is associated with the data, and bandwidth data indicating the bandwidth (8k) is associated with the encoding scheme data indicating the codec scheme (G.729).

  When the access point device 30 receives terminal identification data indicating the telephone number of the wireless terminal from each wireless terminal managed by the wireless communication device, the access point device 30 and the device identification of the storage unit 32 are received. Data is transmitted to the call control device 10. As a result, the call control device 10 can specify that the wireless terminal indicated by the terminal identification data can be wirelessly communicated via the access point device 30, as will be described later.

  The call control device 10 is a device that establishes wireless communication between wireless terminals, and includes a control unit 11, a storage unit 12, a change necessity determination unit 13, a device specifying unit 14, a change control unit 15, and a communication control unit 16. Have.

  The storage unit 12 is a memory such as an HDD, and stores a method change correspondence table and a terminal device correspondence list data.

  The system change correspondence table is a table in which, for each encoding method data, encoding method data having a smaller bandwidth than that of the encoding method data is associated as a change target. For example, a codec having a sound quality equivalent to that of a fixed telephone A codec having a sound quality equivalent to that of a mobile phone having a smaller bandwidth than that of the coding method data (G.711 (= 64k)) is to be changed with respect to the coding method data indicating the method (G.711 (= 64k)). Encoding method data indicating a method (G.729 (= 8k)) is associated.

  The inter-terminal device correspondence list data is data for the call control device 10 to specify an access point device to be relayed for wireless communication with each wireless terminal. As described above, each access point device is the same as described above. Each time the terminal identification data and device identification data of each wireless terminal is received from 20, 30, it is updated based on the received terminal identification data and device identification data of each wireless terminal.

  In the present embodiment, the storage unit 12 is associated with terminal identification data indicating the originating wireless terminal 40 and terminal identification data indicating the transmitting wireless terminal 60 and device identifying data indicating the access point apparatus 20. The terminal device correspondence list data in which the device identification data indicating the access point device 30 is associated with the terminal identification data indicating the receiving wireless device 50 and the terminal identification data indicating the receiving wireless device 60 is stored. Suppose that

  The plurality of wireless terminals 60 are wireless telephones that are performing wireless communication via the access point devices 20 and 30.

  Hereinafter, the interrelation between the call control device 10, the access point devices 20 and 30, the originating wireless terminal 40, the terminating wireless terminal 50, and the plurality of wireless terminals 60 in the present embodiment will be described.

  First, in order for the originating wireless terminal 40 to wirelessly communicate with the terminating wireless terminal 50, the access point apparatus 20 is encoded with the coding method data indicating the codec method used and the terminal identification data indicating the terminating wireless terminal 50. A case will be described where transmission request information to which is added is transmitted.

  The control unit 41 of the transmission-side wireless terminal 40 is a unit that controls the transmission-side wireless terminal 40 as a so-called CPU, and a terminal identification that indicates the telephone number of the reception-side wireless terminal 50 via an input unit (not shown). Data and, for example, G.I. When encoding method data indicating a codec method such as 711 (64k) or the like is input and a transmission request is instructed, terminal identification data and encoding method data are transferred to the transmission side communication unit 44.

  The transmission side communication unit 44 is a unit that performs data communication with an access point device capable of wireless communication. Upon receiving terminal identification data and encoding method data, the transmission request information to which the terminal identification data and encoding method data are assigned Is transmitted to the access point device 20.

  The control unit 21 of the access point device 20 is a unit that controls the access point device 20 as a so-called CPU. Upon receiving call request information, the call request information is temporarily stored in a memory (not shown) and a new call request is made. The call request information is transferred to the caller-side band acquisition unit 23 in order to acquire caller-side band data indicating the total bandwidth required for communication including the performed wireless terminal.

  The transmission side band acquisition unit 23 is a unit that acquires transmission side band data, and holds the following transmission side band amount calculation formula in a memory (not shown).

  Transmission side bandwidth calculation formula = NT + ST (1)

  However, NT: Bandwidth data required for communication by a new wireless terminal, ST: Bandwidth data used.

  Upon receiving the transmission request information, the transmission side band acquisition unit 23 first refers to the method band amount correspondence table in the storage unit 22 based on the encoding method data given to the transmission request information, and the corresponding band amount data. And the use band data is acquired from the storage unit 22. And the transmission side zone | band acquisition part 23 applies the specified band amount data and the acquired use band data to said Formula (1), and acquires transmission side zone | band data.

  The transmission side communication availability determination unit 24 is a unit that determines communication availability according to the amount of bandwidth to be used. When the transmission side bandwidth acquisition unit 23 acquires the transmission side bandwidth data, first, the method change status data in the storage unit 22 is obtained. , Threshold data (= first transmission side threshold data or second transmission side threshold data) to be compared with the transmission side band data is determined. That is, when the method change status data indicates “not changed”, the comparison target of the transmission side band data is determined as the first transmission side threshold data, and when “change in progress” is indicated, the comparison target is determined as the second comparison target. It is determined as transmission side threshold data.

  When determining that the comparison target is the second transmission-side threshold data, the transmission-side communication availability determination unit 24 starts the comparison between the transmission-side band data and the second transmission-side threshold data, and the bandwidth amount indicated by the transmission-side band data is the first. When the bandwidth amount indicated by the second transmission side threshold data is smaller than the bandwidth amount indicated by the second transmission side threshold data, it is determined that communication is possible.

  The transmission-side data update unit 27 is a unit that updates each data in the storage unit 22. When the transmission-side communication availability determination unit 24 determines that communication is possible, the transmission-side data update unit 27 adds the encoding method data added to the transmission request information in the memory. Based on the method bandwidth amount correspondence table of the storage unit 22, the corresponding bandwidth amount data is specified, and the bandwidth amount indicated by the identified bandwidth amount data is added to the used bandwidth data to update the used bandwidth data. .

  The transmission side relay communication unit 25 is a unit that relays between each wireless terminal and the call control device 10. When the transmission side data update unit 27 updates the use band data, the transmission request information in the memory is sent to the call control device 10. Send.

  On the other hand, if it is determined that communication is not possible, communication impossible data indicating that communication is not possible due to insufficient bandwidth is transmitted to the originating wireless terminal 40 as in the conventional case.

  When receiving the communication disabled data, the control unit 41 of the transmitting-side wireless terminal 40 performs, for example, voice output based on the communication disabled data via an output unit such as a speaker (not shown). Thereby, the user of the transmission side radio | wireless terminal 40 can grasp | ascertain that communication is impossible because of insufficient bandwidth.

  On the other hand, when the transmission side communication feasibility determination unit 24 determines the comparison target to be the first transmission side threshold data, comparison between the transmission side band data and the determined first transmission side threshold data is started, and the band indicated by the transmission side band data When the amount is smaller than the bandwidth indicated by the first transmission side threshold data, it is determined that communication is possible, and when the bandwidth amount indicated by the transmission side bandwidth data is larger than that indicated by the first transmission side threshold data, 729, it is determined that communication is possible.

  When the transmission side communication availability determination unit 24 determines that communication is possible, the transmission side data update unit 27 updates the use band data in the same manner as described above, and the transmission side communication availability determination unit 24 determines that communication is possible by changing the codec method. Then, the above-described use band data is updated, and the method change status data in the storage unit 22 is updated from “not changed” (G.711) to “being changed” (G.729).

  When the transmission side data update unit 27 updates the use band data, the transmission side relay communication unit 25 transmits the transmission request information in the memory to the call control device 10 as described above, and the transmission side data update unit 27 changes the method. When the status data is updated, transmission request information to which change instruction data for instructing the change of the codec method is given is transmitted to the call control device 10 in order to instruct the call control device 10 to change the codec method.

  The control unit 11 of the call control device 10 is a unit that controls the call control device 10 as a so-called CPU. When the call request information is received, the call request information is transferred to the change necessity determination unit 13.

  The change necessity determination unit 13 is a unit that determines whether or not it is necessary to change the codec method set in each wireless terminal. If the change instruction data is added to the received call request information, the codec method is determined. If it is not given, it is determined that no change is necessary.

  The control unit 11 transfers the transmission request information to the device specifying unit 14 when the change necessity determination unit 13 determines that the change of the codec method is unnecessary, and transfers the transmission request information to the change control unit 15 when it is determined that the change is necessary. .

  The change control unit 15 is a unit that changes the encoding method data. Upon receiving the transmission request information, the change control unit 15 stores the method change correspondence table in the storage unit 12 based on the encoding method data given to the transmission request information. Reference is made to specify encoded data with a small usable band to be changed, and the specified encoding method data is added to the transmission request information.

  That is, for example, G. If the encoding method data indicating 711 (= 64k) is given, the change control unit 15 creates the method change correspondence table of the storage unit 12 based on the encoding method data (G.711 (= 64k)). Refer to G., which uses less bandwidth. 720 (= 8k) is specified, and the specified G. 720 (= 8k) encoding method data is assigned.

  When the change control unit 15 completes the change of the encoding method data, the control unit 11 transfers the transmission request information provided with the encoding method data to the device specifying unit 14.

  The device specifying unit 14 is a unit that specifies an access point device that manages a wireless terminal that is a call request destination so as to be communicable. Upon receiving the call request information, the device specifying unit 14 is based on the terminal identification data given to the call request information. Referring to the inter-terminal device correspondence list data in the storage unit 12, the corresponding device identification data is specified.

  In the present embodiment, since the transmission request information to which the terminal identification data indicating the called wireless terminal 50 is added is received, the device identification data indicating the access point device 30 is specified.

  When the device identification unit 14 identifies the device identification data, the control unit 11 transfers the identified device identification data and the encoding method data attached to the transmission request information to the communication control unit 16.

  The communication control unit 16 is a unit that controls communication between the wireless terminals. When receiving the device identification data and the encoding method data, the communication control unit 16 applies G.D. to the access point device based on the device identification data. 711 or G.I. The incoming call request information with the encoding method data indicating 729 is transmitted.

  In the present embodiment, the communication control unit 16 transmits the incoming request information to which the encoding method data is added to the access point device 30.

  The control unit 31 of the access point device 30 is a unit that controls the access point device 30 as a so-called CPU. Upon receipt of incoming request information, the incoming request information is temporarily stored in a memory (not shown) and a new outgoing request is made. The incoming request information is transferred to the incoming side bandwidth acquisition unit 33 in order to acquire incoming side bandwidth data indicating the total bandwidth required for communication including the wireless terminal that performed the call.

  The incoming-side band acquisition unit 33 is a unit that acquires incoming-side band data, and holds the following incoming-side band amount calculation formula in a memory (not shown).

  Calling side bandwidth calculation formula = NT + ST (2)

  However, NT: Bandwidth data required for communication by a new wireless terminal, ST: Bandwidth data used.

  Upon receiving the incoming request information, the incoming side bandwidth acquisition unit 33 first refers to the system bandwidth correspondence table in the storage unit 32 based on the encoding method data given to the incoming request information, and the corresponding bandwidth data And the use band data is acquired from the storage unit 32. Then, the incoming side bandwidth acquisition unit 33 applies the specified bandwidth amount data and the acquired used bandwidth data to the above equation (2) to acquire the incoming side bandwidth data.

  The incoming side communication availability determination unit 34 is a unit that determines whether or not communication is possible according to the amount of bandwidth to be used. When the incoming side bandwidth acquisition unit 33 acquires the incoming side bandwidth data, first, the method change status data in the storage unit 32 is obtained. , Threshold data (= first incoming side threshold data or second incoming side threshold data) to be compared with the incoming side band data is determined. That is, when the method change status data indicates “not changed”, the comparison target of the incoming side band data is determined as the first incoming side threshold data, and when “in change” is indicated, the comparison target is determined as the second target. Determined as incoming side threshold data.

  Upon determining the comparison target to be the second incoming side threshold data, the incoming side communication enable / disable determining unit 34 starts comparison between the incoming side bandwidth data and the second incoming side threshold data, and the amount of bandwidth indicated by the incoming side bandwidth data is the first. When the bandwidth amount indicated by the second incoming side threshold data is smaller than the bandwidth amount indicated by the second incoming side threshold data, it is determined that communication is possible.

  The incoming-side data update unit 37 is a unit that updates each data in the storage unit 32. When the incoming-side communication availability determination unit 34 determines that communication is possible, the incoming-side data update unit 37 adds the encoding method data added to the incoming request information in the memory. Based on the method bandwidth amount correspondence table of the storage unit 32, the corresponding bandwidth amount data is specified, and the bandwidth amount indicated by the identified bandwidth amount data is added to the used bandwidth data to update the used bandwidth data. .

  The incoming side relay communication unit 35 is a unit that relays between each wireless terminal and the call control device 10. When the incoming side data update unit 37 updates the use band data, the incoming side wireless terminal 50 receives the incoming request information in the memory. Send to.

  On the other hand, if it is determined that communication is not possible, communication impossible data indicating communication failure due to insufficient bandwidth is transmitted to the call control device 10 as in the conventional case.

  When the control unit 11 of the call control device 10 receives the communication disabled data, it transfers the received communication disabled data to the communication control unit 16, and the communication control unit 16 transmits the received communication disabled data to the access point device 20. .

  When the control unit 21 of the access point device 20 receives the communication disabled data, the control unit 21 transfers the received communication disabled data to the calling side relay communication unit 25, and the calling side relay communication unit 25 transmits the received communication disabled data to the calling side wireless communication. Transmit to the terminal 40.

  When receiving the communication disabled data, the control unit 41 of the transmitting-side wireless terminal 40 performs, for example, voice output based on the communication disabled data via an output unit such as a speaker (not shown). Thereby, the user of the transmission side radio | wireless terminal 40 can grasp | ascertain that communication is impossible because of insufficient bandwidth.

  On the other hand, when the receiving side communication enable / disable determining unit 34 determines the comparison target to be the first receiving side threshold data, the comparison starts between the receiving side band data and the determined first receiving side threshold data, and the band indicated by the receiving side band data If the amount is smaller than the bandwidth amount indicated by the first incoming side threshold data, it is determined that communication is possible, and if the bandwidth amount indicated by the incoming side bandwidth data is larger than the bandwidth amount indicated by the first incoming side threshold data, 729, it is determined that communication is possible.

  When the incoming-side communication availability determination unit 34 determines that communication is possible, the incoming-side data update unit 37 updates the use band data in the same manner as described above, and the incoming-side communication availability determination unit 34 determines that communication is possible by changing the codec method. Then, similarly to the above, the use band data is updated, and the method change status data in the storage unit 32 is updated from “not changed” to “being changed”.

  When the incoming side data updating unit 37 updates only the used bandwidth data, the incoming side relay communication unit 35 transmits the incoming request information in the memory to the incoming side wireless terminal 50, and the incoming side data update unit 37 sends the method change status data. When updating to “being changed”, change instruction information including the coding method data given to the incoming call request information in the memory is transmitted to the call control device 10 in order to instruct the call control device 10 to change the codec method.

  When receiving the change instruction information, the control unit 11 of the call control device 10 transfers the change instruction information to the change control unit 15.

  When the change control unit 15 receives the change instruction information, the change control unit 15 refers to the method change correspondence table in the storage unit 12 based on the encoding method data included in the change instruction information, and uses a code with a small use band to be changed. Specified communication data (G.729) and transfer the incoming request information to which the specified encoding method data is added to the communication control unit 16, and the communication control unit 16 transmits the received incoming request information to the access point device 30. Send to.

  When receiving the incoming request information, the control unit 31 of the access point device 30 transmits the received incoming request information to the incoming wireless terminal 50.

  The control unit 51 of the incoming side wireless terminal 50 is a unit that controls the incoming side wireless terminal 50 as a so-called CPU. When receiving incoming request information, the encoding method data added to the incoming request information is received. Transfer to the setting unit 55.

  The receiving-side method setting unit 55 is a unit that sets the codec method to be used in the codec unit 53. When receiving the encoding method data, the called-side method setting unit 55 temporarily stores the encoding method data in a memory (not shown) and also encodes the encoding method data. Is set in the codec section 53.

  When the incoming-side method setting unit 55 sets the codec method in the codec unit 53, the control unit 51 transfers the encoding method data in the memory to the incoming-side communication unit 54.

  Receiving side communication unit 54 is a unit that performs data communication with an access point device capable of wireless communication. Upon receiving the encoding method data, incoming side communication unit 54 transmits the incoming call response information to which the encoding method data is added to access point device 30. .

  When receiving the incoming response information, the control unit 31 of the access point device 30 transfers the incoming response information to the incoming relay communication unit 35, and the incoming relay communication unit 35 sends the received incoming response information to the call control device 10. Send.

  When receiving the incoming response information, the control unit 11 of the call control device 10 transfers the incoming response information to the communication control unit 16, and the communication control unit 16 transmits the received incoming response information to the access point device 20.

  When receiving the incoming response information, the control unit 21 of the access point device 20 transmits the received incoming response information to the originating wireless terminal 40.

  When receiving the incoming response information, the control unit 41 of the outgoing side wireless terminal 40 transfers the encoding method data added to the incoming response information to the outgoing side method setting unit 45.

  The transmission side method setting unit 45 is a unit that sets the codec method to be used in the codec unit 43. When receiving the encoding method data, the transmission side method setting unit 45 sets the codec method based on the encoding method data in the codec unit 43. Thereafter, the originating wireless terminal 40 can perform wireless communication with the terminating wireless terminal 50 via the access point device 20 according to the codec method set in the codec unit 43.

  As described above, in the access point device 20, when the transmission side band data exceeds the first transmission side threshold data, the encoding method data given to the transmission request information is used less than the encoding method data. In the access point device 30, when the incoming side bandwidth data exceeds the first incoming side threshold data, the encoding method data given to the incoming request information is changed from the encoding method data. Is changed to the coding method data with a smaller use band, and the codec methods indicated by the changed coding method data are respectively set for the codec units 43 and 53 of the transmitting-side wireless terminal 40 and the receiving-side wireless terminal 50. Therefore, by using the codec method in which the transmitting side wireless terminal 40 and the receiving side wireless terminal 50 are set, It can perform wireless communication through the access point devices 20 and 30.

  Subsequently, in order for the originating wireless terminal 40 to disconnect communication with the terminating wireless terminal 50, the access point device 20 is encoded with the coding method data indicating the codec system used and the terminal indicating the terminating wireless terminal 50. A case where the cutting request information with the identification data is transmitted will be described.

  When the control unit 21 of the access point device 20 receives the disconnection request information to which the encoding method data indicating the codec method used and the terminal identification data indicating the receiving side wireless terminal 50 are added from the transmission side wireless terminal 40, The disconnection request information is temporarily stored in a memory (not shown), and the disconnection request information is transmitted to the transmission side band so as to obtain the transmission side reduced band data indicating the total band amount excluding the band amount used by the wireless terminal requested to disconnect. Transfer to the acquisition unit 23.

  The transmission side band acquisition unit 23 holds the following transmission side reduction band amount calculation formula in a memory (not shown).

  Transmission side reduction band amount calculation formula = ST-BT (3)

  However, ST: used band data, BT: band amount data used by the wireless terminal to be disconnected.

  When receiving the disconnection request information, the transmission side bandwidth acquisition unit 23 first refers to the system bandwidth amount correspondence table of the storage unit 22 based on the encoding method data given to the disconnection request information, and corresponding bandwidth amount data. And the use band data is acquired from the storage unit 22. And the transmission side band acquisition part 23 applies the specified band amount data and the acquired use band data to said Formula (3), and acquires transmission side reduction band data.

  The transmission side update availability determination unit 26 is a unit that determines whether the method change status data can be updated according to the amount of bandwidth to be used. When the transmission side bandwidth acquisition unit 23 acquires the transmission side reduction bandwidth data, the transmission side reduction bandwidth The data is compared with the second transmission-side threshold data in the storage unit 22, and when the bandwidth amount indicated by the transmission-side reduced bandwidth data is smaller than the bandwidth amount indicated by the second transmission-side threshold data, it is determined that the update is possible, and the transmission side When the bandwidth amount indicated by the reduced bandwidth data is larger than the bandwidth amount indicated by the second transmission side threshold data, it is determined that the update is impossible.

  If the transmission side update availability determination unit 26 determines that the update is not possible, the transmission side data update unit 27 stores the method bandwidth correspondence table in the storage unit 22 based on the encoding method data attached to the memory disconnection request information. The corresponding bandwidth data is specified, and the bandwidth data indicated by the identified bandwidth data is subtracted from the used bandwidth data to update the used bandwidth data. Then, the above-described use band data is updated, and the method change status data in the storage unit 22 is updated from “being changed” to “not changed”.

  When the transmission side data updating unit 27 updates the storage unit 22, the transmission side relay communication unit 25 transmits memory disconnection request information to the call control device 10.

  When receiving the disconnection request information, the control unit 11 of the call control device 10 transfers the disconnection request information to the device specifying unit 14.

  When receiving the disconnection request information, the device specifying unit 14 refers to the inter-terminal device correspondence list data in the storage unit 12 based on the assigned terminal identification data, and specifies the corresponding device identification data. That is, in this embodiment, device identification data indicating the access point device 30 is specified.

  When the device specifying unit 14 specifies device identification data, the control unit 11 transfers the specified device identification data and disconnection request information to the communication control unit 16.

  When receiving the device identification data and the disconnection request information, the communication control unit 16 transmits the disconnection request information to the access point device based on the device identification data. That is, disconnection request information is transmitted to the access point device 30.

  When receiving the disconnection request information, the control unit 31 of the access point device 30 temporarily stores the disconnection request information in a memory (not shown) and indicates the total bandwidth amount excluding the bandwidth amount used by the wireless terminal requested to disconnect. The disconnect request information is output to the incoming side bandwidth acquisition unit 33 in order to acquire incoming side reduction bandwidth data.

  The incoming side bandwidth acquisition unit 33 holds the following incoming side reduction bandwidth amount calculation formula in a memory (not shown).

  Called side reduced bandwidth amount calculation formula = ST-BT (4)

  However, ST: used band data, BT: band amount data used by the wireless terminal to be disconnected.

  Upon receiving the disconnection request information, the receiving side bandwidth acquisition unit 33 first refers to the system bandwidth amount correspondence table of the storage unit 32 based on the encoding method data given to the disconnection request information, and corresponding bandwidth amount data. And the use band data is acquired from the storage unit 32. Then, the transmission-side band acquisition unit 23 applies the specified bandwidth data and the acquired use band data to the above equation (4), and acquires the incoming-side reduction band data.

  The incoming side update availability determination unit 36 is a unit that determines whether the method change status data can be updated according to the amount of bandwidth to be used. When the incoming side bandwidth acquisition unit 33 acquires the incoming side reduced bandwidth data, first, the incoming side The reduced bandwidth data is compared with the second incoming side threshold data in the storage unit 32. If the bandwidth amount indicated by the incoming side reduced bandwidth data is smaller than the bandwidth amount indicated by the second incoming side threshold data, it is determined that the update is possible, If the bandwidth amount indicated by the incoming-side reduced bandwidth data is greater than the bandwidth amount indicated by the second incoming-side threshold data, it is determined that updating is impossible.

  When the incoming side update availability determination unit 36 determines that the update is not possible, the incoming side data update unit 37 determines the system bandwidth correspondence table in the storage unit 32 based on the encoding system data attached to the memory disconnection request information. The corresponding bandwidth amount data is referred to, and the bandwidth amount indicated by the identified bandwidth amount data is subtracted from the bandwidth usage data to update the bandwidth usage data. The incoming side update availability determination unit 36 determines that the bandwidth can be updated. Then, the above-described use band data is updated, and the method change status data in the storage unit 32 is updated from “being changed” to “not changed”.

  The incoming side relay communication unit 35 transmits the memory disconnection request information to the incoming side wireless terminal 50 when the incoming side data update unit 37 updates the storage unit 32.

  When receiving the disconnection request information, the receiving side wireless terminal 50 detects disconnection of the communication, transfers the disconnection response information indicating that the disconnection request information has been received, to the incoming side communication unit 54, and receives the incoming side. The communication unit 54 transmits the received disconnection response information to the access point device 30.

  When receiving the disconnection response information, the control unit 31 of the access point device 30 transfers the disconnection response information to the incoming side relay communication unit 35, and the incoming side relay communication unit 35 sends the received disconnection response information to the call control device 10. Send.

  When receiving the disconnection response information, the control unit 11 of the call control device 10 transfers the disconnection response information to the communication control unit 16, and the communication control unit 16 transmits the received disconnection response information to the originating wireless terminal 40, When the originating wireless terminal 40 receives the disconnection response information, the disconnection of communication between the originating wireless terminal 40 and the terminating wireless terminal 50 is completed.

<Operation of Example 1>
Hereinafter, the operation of the wireless communication system according to the first embodiment will be described.

  First, in order for the originating wireless terminal 40 to wirelessly communicate with the terminating wireless terminal 50, the access point apparatus 20 is encoded with the coding method data indicating the codec method used and the terminal identification data indicating the terminating wireless terminal 50. A description will be given until the codec system for the transmitting side wireless terminal 40 and the receiving side wireless terminal 50 is changed when the transmission request information to which is added is transmitted.

  FIG. 2 is an operation flowchart of changing the codec scheme for the originating wireless terminal 40 and the terminating wireless terminal 50 in the wireless communication system according to the first embodiment.

  The control unit 41 of the caller-side radio terminal 40 receives terminal identification data indicating the telephone number of the callee-side radio terminal 50 and the G. When encoding method data indicating a codec method such as 711 (64k) or the like is input and a transmission request is instructed, terminal identification data and encoding method data are transferred to the transmission side communication unit 44.

  When receiving the terminal identification data and the encoding method data, the transmission side communication unit 44 transmits the transmission request information with the terminal identification data and the encoding method data to the access point device 20 (S1).

  When receiving the call request information, the control unit 21 of the access point device 20 temporarily stores the call request information in a memory (not shown) and determines the total bandwidth required for communication including the wireless terminal that newly made the call request. The transmission request information is transferred to the transmission side band acquisition unit 23 in order to acquire the transmission side band data shown.

  Upon receiving the transmission request information, the transmission side band acquisition unit 23 first refers to the method band amount correspondence table in the storage unit 22 based on the encoding method data given to the transmission request information, and the corresponding band amount data. And the use band data is acquired from the storage unit 22. And the transmission side zone | band acquisition part 23 applies the specified band amount data and the acquired use band data to said Formula (1), and acquires transmission side zone | band data (S2).

  When the transmission side band acquisition unit 23 acquires the transmission side band data, the transmission side communication availability determination unit 24 first refers to the method change status data in the storage unit 22 and threshold data (= First transmission side threshold data or second transmission side threshold data) is determined (S3). That is, when the method change status data indicates “not changed”, the comparison target of the transmission side band data is determined as the first transmission side threshold data, and when “change in progress” is indicated, the comparison target is determined as the second comparison target. It is determined as transmission side threshold data.

  When determining that the comparison target is the second transmission-side threshold data, the transmission-side communication availability determination unit 24 starts the comparison between the transmission-side band data and the second transmission-side threshold data, and the bandwidth amount indicated by the transmission-side band data is the first. When the bandwidth amount indicated by the second transmission side threshold value data is smaller than the bandwidth amount indicated by the second transmission side threshold data, it is determined that communication is possible. S4).

  When the outgoing side communication availability determination unit 24 determines that communication is possible, the outgoing side data update unit 27 stores the system bandwidth correspondence table in the storage unit 22 based on the encoding method data attached to the outgoing request information in the memory. The corresponding bandwidth data is identified, and the bandwidth data indicated by the identified bandwidth data is added to the bandwidth data used to update the bandwidth usage data (S5).

  When the transmission side data updating unit 27 updates the use band data, the transmission side relay communication unit 25 transmits the transmission request information in the memory to the call control device 10 (S9).

  On the other hand, if it is determined that communication is not possible, communication impossible data indicating that communication is not possible due to insufficient bandwidth is transmitted to the originating wireless terminal 40 (S6).

  When receiving the communication disabled data, the control unit 41 of the transmitting-side wireless terminal 40 performs, for example, voice output based on the communication disabled data via an output unit such as a speaker (not shown). Thereby, the user of the transmission side radio | wireless terminal 40 can grasp | ascertain that communication is impossible because of insufficient bandwidth.

  On the other hand, when the transmission side communication feasibility determination unit 24 determines the comparison target to be the first transmission side threshold data, comparison between the transmission side band data and the determined first transmission side threshold data is started, and the band indicated by the transmission side band data When the amount is smaller than the bandwidth indicated by the first transmission side threshold data, it is determined that communication is possible, and when the bandwidth amount indicated by the transmission side bandwidth data is larger than that indicated by the first transmission side threshold data, It is determined that communication is possible by changing the codec method 729 (S7).

  When the transmission side communication availability determination unit 24 determines that communication is possible, the transmission side data update unit 27 updates the use band data in the same manner as described above (S8), and the transmission side communication availability determination unit 24 communicates by changing the codec method. If it is determined to be acceptable, the use band data is updated, and the method change status data in the storage unit 22 is updated from “not changed” (G.711) to “being changed” (G.729) (S10). .

  When the transmission side data update unit 27 updates only the use band data, the transmission side relay communication unit 25 transmits the transmission request information in the memory to the call control device 10 as described above, and the transmission side data update unit 27 performs the method. When the change status data is updated, the transmission request information to which the change instruction data for instructing the change of the codec method is given is transmitted to the call control device 10 in order to instruct the call control device 10 to change the codec method (S11).

  When receiving the call request information, the control unit 11 of the call control device 10 transfers the call request information to the change necessity determination unit 13.

  The change necessity determination unit 13 determines that the codec method needs to be changed if the change instruction data is added to the received transmission request information, and determines that the change is not required if it is not added (S12).

  When the control unit 11 determines that the change necessity determination unit 13 does not need to change the codec method, the control unit 11 transfers the transmission request information to the device specifying unit 14 (S13). (S14).

  When the change control unit 15 receives the transmission request information, the change control unit 15 refers to the method change correspondence table of the storage unit 12 based on the encoding method data given to the transmission request information, and the code with a small use band to be changed. The encoded data is specified, and the specified encoding method data is added to the transmission request information (S15).

  That is, for example, G. If the encoding method data indicating 711 (= 64k) is given, the change control unit 15 creates the method change correspondence table of the storage unit 12 based on the encoding method data (G.711 (= 64k)). Refer to G., which uses less bandwidth. 720 (= 8k) is specified, and the specified G. 720 (= 8k) encoding method data is assigned.

  When the change control unit 15 completes the change of the encoding method data, the control unit 11 transfers the transmission request information provided with the encoding method data to the device specifying unit 14.

  Upon receiving the call request information, the device specifying unit 14 refers to the inter-terminal device correspondence list data in the storage unit 12 based on the terminal identification data given to the call request information, and specifies the corresponding device identification data ( S16).

  In the present embodiment, since the transmission request information to which the terminal identification data indicating the called wireless terminal 50 is added is received, the device identification data indicating the access point device 30 is specified.

  When the device identification unit 14 identifies the device identification data, the control unit 11 transfers the identified device identification data and the encoding method data attached to the transmission request information to the communication control unit 16.

  Upon receiving the device identification data and the encoding method data, the communication control unit 16 transmits the incoming request information with the encoding method data to the access point device based on the device identification data (S17).

  In the present embodiment, the communication control unit 16 transmits the incoming request information to which the encoding method data is added to the access point device 30.

  When receiving the incoming request information, the control unit 31 of the access point device 30 temporarily stores the incoming request information in a memory (not shown) and determines the total bandwidth required for communication including the wireless terminal that newly made the outgoing request. The incoming request information is transferred to the incoming side bandwidth acquisition unit 33 in order to acquire the incoming side bandwidth data shown.

  Upon receiving the incoming request information, the incoming side bandwidth acquisition unit 33 first refers to the system bandwidth correspondence table in the storage unit 32 based on the encoding method data given to the incoming request information, and the corresponding bandwidth data And the use band data is acquired from the storage unit 32. Then, the incoming side bandwidth acquisition unit 33 applies the specified bandwidth data and the acquired used bandwidth data to the above equation (2) to acquire the incoming side bandwidth data (S18).

  When the incoming side bandwidth acquisition unit 33 acquires the incoming side bandwidth data, the incoming side communication availability determination unit 34 first refers to the method change status data in the storage unit 32 and threshold data (= First incoming side threshold data or second incoming side threshold data) is determined. That is, when the method change status data indicates “not changed”, the comparison target of the incoming side band data is determined as the first incoming side threshold data, and when “in change” is indicated, the comparison target is determined as the second target. The incoming side threshold data is determined (S19).

  Upon determining the comparison target to be the second incoming side threshold data, the incoming side communication enable / disable determining unit 34 starts comparison between the incoming side bandwidth data and the second incoming side threshold data, and the amount of bandwidth indicated by the incoming side bandwidth data is the first. When the bandwidth amount indicated by the second incoming side threshold data is smaller than the bandwidth amount indicated by the second incoming side threshold data, it is determined that communication is possible. S25).

  If the incoming side communication availability determination unit 34 determines that communication is possible, the incoming side data update unit 37 determines the system bandwidth correspondence table in the storage unit 32 based on the encoding system data attached to the incoming request information in the memory. The corresponding bandwidth data is identified, and the bandwidth data indicated by the identified bandwidth data is added to the bandwidth data used to update the bandwidth usage data (S26).

  When the incoming side data updating unit 37 updates the use band data, the incoming side relay communication unit 35 transmits the incoming request information in the memory to the incoming side wireless terminal 50 (S28).

  On the other hand, if it is determined that communication is not possible, communication impossible data indicating communication failure due to insufficient bandwidth is transmitted to the call control device 10 as in the conventional case.

  When the control unit 11 of the call control device 10 receives the communication disabled data, it transfers the received communication disabled data to the communication control unit 16, and the communication control unit 16 transmits the received communication disabled data to the access point device 20. .

  When the control unit 21 of the access point device 20 receives the communication disabled data, the control unit 21 transfers the received communication disabled data to the calling side relay communication unit 25, and the calling side relay communication unit 25 transmits the received communication disabled data to the calling side wireless communication. It transmits to the terminal 40 (S27).

  When receiving the communication disabled data, the control unit 41 of the transmitting-side wireless terminal 40 performs, for example, voice output based on the communication disabled data via an output unit such as a speaker (not shown). Thereby, the user of the transmission side radio | wireless terminal 40 can grasp | ascertain that communication is impossible because of insufficient bandwidth.

  On the other hand, when the receiving side communication enable / disable determining unit 34 determines the comparison target to be the first receiving side threshold value data, the comparison starts between the receiving side band data and the determined first receiving side threshold data, and the band indicated by the receiving side band data If the amount is smaller than the bandwidth amount indicated by the first incoming side threshold data, it is determined that communication is possible, and if the bandwidth amount indicated by the incoming side bandwidth data is larger than the bandwidth amount indicated by the first incoming side threshold data, the codec method is changed. Thus, it is determined that communication is possible (S20).

  When the incoming side communication availability determination unit 34 determines that communication is possible, the incoming side data update unit 37 updates only the use band data (S21), as described above, and the incoming side communication availability determination unit 34 changes the codec method. If it is determined that communication is possible, the use band data is updated as described above, and the method change status data in the storage unit 32 is updated from “not changed” to “being changed” (S22).

  When the incoming side data updating unit 37 updates only the used bandwidth data, the incoming side relay communication unit 35 transmits the incoming request information in the memory to the incoming side wireless terminal 50, and the incoming side data update unit 37 sends the method change status data. When updating to “being changed”, change instruction information including the coding method data added to the incoming request information in the memory is transmitted to the call control device 10 to instruct the call control device 10 to change the codec method (S23). ).

  When receiving the change instruction information, the control unit 11 of the call control device 10 transfers the change instruction information to the change control unit 15.

  When the change control unit 15 receives the change instruction information, the change control unit 15 refers to the method change correspondence table in the storage unit 12 based on the encoding method data included in the change instruction information, and uses a code with a small use band to be changed. In addition to specifying the encoded data, the incoming request information to which the specified encoding method data is assigned is transferred to the communication control unit 16, and the communication control unit 16 transmits the received incoming request information to the access point device 30 (S24). ).

  When receiving the incoming request information, the control unit 31 of the access point device 30 transmits the received incoming request information to the incoming wireless terminal 50 (S28).

  When receiving the incoming request information, the control unit 51 of the incoming-side wireless terminal 50 transfers the encoding method data added to the incoming request information to the incoming-side method setting unit 55.

  Upon receiving the encoding method data, the receiving side method setting unit 55 temporarily stores the encoding method data in a memory (not shown) and sets the codec method based on the encoding method data in the codec unit 53 (S29).

  When the incoming-side method setting unit 55 sets the codec method in the codec unit 53, the control unit 51 transfers the encoding method data in the memory to the incoming-side communication unit 54.

  Upon receiving the encoding method data, the receiving side communication unit 54 transmits the incoming call response information with the encoding method data to the access point device 30 (S30).

  When receiving the incoming response information, the control unit 31 of the access point device 30 transfers the incoming response information to the incoming relay communication unit 35, and the incoming relay communication unit 35 sends the received incoming response information to the call control device 10. Transmit (S31).

  When receiving the incoming response information, the control unit 11 of the call control device 10 transfers the incoming response information to the communication control unit 16, and the communication control unit 16 transmits the received incoming response information to the access point device 20 (S32). ).

  When receiving the incoming response information, the control unit 21 of the access point device 20 transmits the received incoming response information to the originating wireless terminal 40 (S33).

  When receiving the incoming response information, the control unit 41 of the outgoing side wireless terminal 40 transfers the encoding method data added to the incoming response information to the outgoing side method setting unit 45.

  When receiving the encoding method data, the transmission side method setting unit 45 sets the codec method based on the encoding method data in the codec unit 43 (S34). Thereafter, the originating wireless terminal 40 can perform wireless communication with the terminating wireless terminal 50 via the access point device 20 according to the codec method set in the codec unit 43.

  As described above, in the access point device 20, when the transmission side band data exceeds the first transmission side threshold data, the encoding method data given to the transmission request information is used less than the encoding method data. In the access point device 30, when the incoming side bandwidth data exceeds the first incoming side threshold data, the encoding method data given to the incoming request information is changed from the encoding method data. Is changed to the coding method data with a smaller use band, and the codec methods indicated by the changed coding method data are respectively set for the codec units 43 and 53 of the transmitting-side wireless terminal 40 and the receiving-side wireless terminal 50. Therefore, by using the codec method in which the transmitting-side wireless terminal 40 and the receiving-side wireless terminal 50 are set, access is enabled. It can perform wireless communication through a point devices 20 and 30.

  Subsequently, in order for the originating wireless terminal 40 to disconnect communication with the terminating wireless terminal 50, the access point device 20 is encoded with the coding method data indicating the codec system used and the terminal indicating the terminating wireless terminal 50. An operation when the cutting request information with the identification data is transmitted will be described.

  FIG. 3 is a disconnection request operation flowchart of the wireless communication system according to the first embodiment.

  When the control unit 21 of the access point device 20 receives the disconnection request information to which the encoding method data indicating the codec method used and the terminal identification data indicating the receiving side wireless terminal 50 are added from the transmitting side wireless terminal 40 ( S1) The disconnect request information is temporarily stored in a memory (not shown) and the disconnect request information is acquired in order to obtain the transmission side reduction band data indicating the total bandwidth excluding the bandwidth used by the wireless terminal requested to be disconnected. The data is transferred to the transmission side band acquisition unit 23.

  When receiving the disconnection request information, the transmission side bandwidth acquisition unit 23 first refers to the system bandwidth amount correspondence table of the storage unit 22 based on the encoding method data given to the disconnection request information, and corresponding bandwidth amount data. And the use band data is acquired from the storage unit 22. And the transmission side zone | band acquisition part 23 applies the specified band amount data and the acquired use band data to said Formula (3), and acquires transmission side reduction | restoration zone | band data (S2).

  When the transmission side band acquisition unit 23 acquires the transmission side reduction band data, the transmission side update availability determination unit 26 compares the transmission side reduction band data with the second transmission side threshold value data of the storage unit 22 and transmits the transmission side reduction band. If the bandwidth amount indicated by the data is smaller than the bandwidth amount indicated by the second transmission side threshold data, it is determined that the update is possible, and the bandwidth amount indicated by the transmission side reduction bandwidth data is larger than the bandwidth amount indicated by the second transmission side threshold data. Then, it is determined that the update is impossible (S3).

  If the transmission side update availability determination unit 26 determines that the update is not possible, the transmission side data update unit 27 stores the method bandwidth correspondence table in the storage unit 22 based on the encoding method data attached to the memory disconnection request information. The corresponding bandwidth data is specified, and the bandwidth amount indicated by the identified bandwidth data is subtracted from the used bandwidth data to update only the used bandwidth data (S4). If it is determined that the update is possible, the above-described use band data is updated, and the method change status data in the storage unit 22 is updated from “being changed” to “not changed” (S5).

  When the caller-side data update unit 27 updates the storage unit 22, the caller-side relay communication unit 25 transmits memory disconnection request information to the call control device 10 (S6).

  When receiving the disconnection request information, the control unit 11 of the call control device 10 transfers the disconnection request information to the device specifying unit 14.

  When receiving the disconnection request information, the device specifying unit 14 refers to the inter-terminal device correspondence list data in the storage unit 12 based on the assigned terminal identification data, and specifies the corresponding device identification data. That is, in this embodiment, device identification data indicating the access point device 30 is specified (S7).

  When the device specifying unit 14 specifies device identification data, the control unit 11 transfers the specified device identification data and disconnection request information to the communication control unit 16.

  When receiving the device identification data and the disconnection request information, the communication control unit 16 transmits the disconnection request information to the access point device based on the device identification data. That is, disconnection request information is transmitted to the access point device 30 (S8).

  When receiving the disconnection request information (S9), the control unit 31 of the access point device 30 temporarily stores the disconnection request information in a memory (not shown) and removes all bandwidths excluding the bandwidth used by the wireless terminal requested to disconnect. In order to acquire the incoming side reduction band data indicating the amount, the disconnection request information is output to the incoming side band acquisition unit 33.

  Upon receiving the disconnection request information, the receiving side bandwidth acquisition unit 33 first refers to the system bandwidth amount correspondence table of the storage unit 32 based on the encoding method data given to the disconnection request information, and corresponding bandwidth amount data. And the use band data is acquired from the storage unit 32. Then, the transmission side band acquisition unit 23 applies the specified band amount data and the acquired use band data to the above equation (4), and acquires the incoming side reduction band data (S10).

  When the incoming side bandwidth acquisition unit 33 acquires the incoming side reduced bandwidth data, the incoming side update availability determination unit 36 first compares the incoming side reduced bandwidth data with the second incoming side threshold value data in the storage unit 32 to obtain the incoming side. If the bandwidth amount indicated by the reduced bandwidth data is smaller than the bandwidth amount indicated by the second incoming side threshold data, it is determined that the update is possible, and the bandwidth amount indicated by the incoming side reduced bandwidth data is greater than the bandwidth amount indicated by the second incoming side threshold data. Is larger, it is determined that the update is impossible (S11).

  When the incoming side update availability determination unit 36 determines that the update is not possible, the incoming side data update unit 37 determines the system bandwidth correspondence table in the storage unit 32 based on the encoding system data attached to the memory disconnection request information. The corresponding bandwidth data is specified, and the bandwidth amount indicated by the identified bandwidth data is subtracted from the used bandwidth data to update only the used bandwidth data (S12). If it is determined that the update is possible, the above-described use band data is updated, and the method change status data in the storage unit 32 is updated from “being changed” to “not changed” (S13).

  When the incoming data update unit 37 updates the storage unit 32, the incoming relay communication unit 35 transmits memory disconnection request information to the incoming wireless terminal 50 (S14).

  When receiving the disconnection request information, the receiving side wireless terminal 50 detects disconnection of the communication, transfers the disconnection response information indicating that the disconnection request information has been received, to the incoming side communication unit 54, and receives the incoming side. The communication unit 54 transmits the received disconnection response information to the access point device 30 (S15).

  When receiving the disconnection response information, the control unit 31 of the access point device 30 transfers the disconnection response information to the incoming side relay communication unit 35, and the incoming side relay communication unit 35 sends the received disconnection response information to the call control device 10. Transmit (S16).

  When the control unit 11 of the call control device 10 receives the disconnection response information, the control unit 11 transfers the disconnection response information to the communication control unit 16, and the communication control unit 16 transmits the received disconnection response information to the originating wireless terminal 40 ( S17) When the originating wireless terminal 40 receives the disconnection response information, the disconnection of communication between the originating wireless terminal 40 and the terminating wireless terminal 50 is completed.

<Effect of Example 1>
In the wireless communication system according to the first embodiment, the transmission side wireless terminal 40 transmits the transmission request information to which the encoding method data is added to the access point device 20, and the access point device 20 that has received the transmission request information receives the transmission side wireless terminal. The transmission side band data indicating the bandwidth required for communication including 40 exceeds the first transmission side threshold data indicating the band amount serving as a reference for determining whether or not to change the codec system of each wireless terminal. In this case, the encoding method data assigned to the transmission request information is changed to the encoding method data having a smaller bandwidth than that of the encoding method data, and at the access point device 30 that has received the incoming request information, the transmission side Determine whether or not the incoming side band data indicating the amount of bandwidth required for communication including the wireless terminal 40 should change the codec system of each wireless terminal If the first incoming-side threshold data indicating the bandwidth amount serving as a reference is exceeded, the encoding method data assigned to the incoming request information is changed to encoding method data having a smaller bandwidth than the encoding method data. Since the codec method indicated by the changed encoding method data is set for the codec units 43 and 53 of the transmission-side wireless terminal 40 and the reception-side wireless terminal 50, the transmission-side wireless terminal 40 and the reception-side wireless terminal 40 The side wireless terminal 50 uses the set codec method, so that, when a call is requested, the requested access point devices 20 and 30 communicate with the allowable number of wireless terminals 60 determined according to the bandwidth amount. Even if it exists, the highly convenient radio | wireless communications system which can perform radio | wireless communication via the access point apparatuses 20 and 30 can be provided.

<Configuration of Example 2>
FIG. 4 is a block diagram illustrating a wireless communication system according to the second embodiment.

  The wireless communication system according to this embodiment includes access point devices 90 and 100, a transmission-side wireless terminal 40, a reception-side wireless terminal 50, a plurality of wireless terminals 60, and a network 80.

  The originating wireless terminal 40, the terminating wireless terminal 50, the plurality of wireless terminals 60, and the network 80 are the same as in the first embodiment.

  The access point device 90 is a device that relays between wireless terminals, and includes a control unit 91, a transmission side band acquisition unit 23, a transmission side communication availability determination unit 24, a transmission side update availability determination unit 26, and a transmission side data update unit 27. A storage unit 92, a transmission side change necessity determination unit 93, a device identification unit 94, a transmission side change control unit 95, and a transmission side communication control unit 96.

  The storage unit 92 is a memory composed of an HDD or the like, and includes device identification data, first transmission side threshold data, second transmission side threshold data, method change status data, used bandwidth data, method bandwidth correspondence table, and method change correspondence table. The terminal device correspondence list data is stored respectively.

  The device identification data, the first transmission side threshold data, the second transmission side threshold data, the method change status data, the used bandwidth data, the method bandwidth correspondence table, the method change correspondence table, and the terminal device correspondence list data are the same as those in the first embodiment. Similar data.

  Each time the access point device 90 receives terminal identification data and device identification data of each wireless terminal managed by the access point device 100 from the access point device 100, the access point device 90 receives the terminal identification data and device of each wireless terminal. The inter-terminal device correspondence list data is updated based on the identification data. Thereby, the access point device 90 can specify that the receiving side wireless terminal 50 can perform wireless communication via the access point device 100.

  The access point device 100 is a device that relays between wireless terminals, and includes a control unit 101, a receiving-side band acquisition unit 33, a receiving-side communication availability determination unit 34, a receiving-side update availability determination unit 36, and a receiving-side data update unit 37. , Storage unit 102, incoming side change necessity determination unit 103, and incoming side communication control unit 105.

  The storage unit 102 is a memory composed of an HDD or the like, and includes device identification data, first incoming side threshold data, second incoming side threshold data, method change status data, used bandwidth data, method bandwidth correspondence table, and method change correspondence table. Are stored.

  The device identification data, the first incoming side threshold data, the second incoming side threshold data, the method change status data, the used bandwidth data, the method bandwidth correspondence table, and the method change correspondence table are the same data as in the first embodiment.

  Hereinafter, the correlation between the access point devices 90 and 100, the originating wireless terminal 40, the terminating wireless terminal 50, and the wireless terminal 60 in this embodiment will be described.

  First, in order for the originating wireless terminal 40 to wirelessly communicate with the terminating wireless terminal 50, the access point device 90 is encoded with coding method data indicating the codec method used and terminal identification data indicating the terminating wireless terminal 50. A case will be described where transmission request information to which is added is transmitted.

  The control unit 91 of the access point device 90 is a unit that controls the access point device 90 as a so-called CPU. When the call request information is received from the caller-side wireless terminal 40, the control unit 91 operates in the same manner as in the first embodiment and continues to send calls. The request information is transferred to the transmission side change necessity determination unit 93.

  The transmission side change necessity determination unit 93 is a unit that determines whether or not the codec method set in each wireless terminal needs to be changed. When the change instruction data is added to the received transmission request information, It is determined that the codec system needs to be changed. If it is not assigned, it is determined that the change is not necessary.

  If the transmission side change necessity determination unit 93 determines that the codec system does not need to be changed, the control unit 91 transfers the transmission request information to the device specifying unit 94. If the control unit 91 determines that the change is necessary, the control unit 91 transmits the transmission request information to the transmission side change control unit. Forward to 95.

  The transmission side change control unit 95 is a unit that changes the encoding method data. Upon receiving the transmission request information, the transmission side change control unit 95 responds to the method change of the storage unit 92 based on the encoding method data given to the transmission request information. With reference to the table, the encoded data with a small use band to be changed is specified, and the specified encoding method data is added to the transmission request information.

  That is, for example, G. When the encoding method data indicating 711 (= 64k) is given, the transmission side change control unit 95 responds to the method change of the storage unit 92 based on the encoding method data (G.711 (= 64k)). Referring to the table, the G. 720 (= 8k) is specified, and the specified G. 720 (= 8k) encoding method data is assigned.

  When the transmission side change control unit 95 completes the change of the encoding method data, the control unit 91 transfers the transmission request information provided with the encoding method data to the device specifying unit 94.

  The device specifying unit 94 is a unit that specifies an access point device that manages a wireless terminal that is a call request destination so as to be communicable. Upon receiving the call request information, the device specifying unit 94 is based on the terminal identification data given to the call request information. Referring to the inter-terminal device correspondence list data in the storage unit 92, the corresponding device identification data is specified.

  In the present embodiment, since the transmission request information to which the terminal identification data indicating the called radio terminal 50 is added is received, the device identification data indicating the access point apparatus 100 is specified.

  When the device identification unit 94 identifies the device identification data, the control unit 91 transfers the identified device identification data and the encoding method data attached to the transmission request information to the transmission side communication control unit 96.

  The transmission side communication control unit 96 is a unit that controls communication between each wireless terminal. Upon receiving the device identification data and the coding method data, the transmission side communication control unit 96 sends the coding method data to the access point device based on the device identification data. The given incoming call request information is transmitted. In this embodiment, the incoming call request information to which the encoding method data is added by the transmission side communication control unit 96 is transmitted to the access point device 100.

  The control unit 101 of the access point device 100 is a unit that performs overall control of the access point device 100 as a so-called CPU. When receiving incoming request information, the control unit 101 operates in the same manner as in the first embodiment, and continues to receive incoming request information. The change is transferred to the necessity determination unit 103.

  The incoming side change necessity determination unit 103 is a unit that determines whether or not it is necessary to change the codec method set in each wireless terminal, and when change instruction data is given to the received incoming request information, It is determined that the codec system needs to be changed. If it is not assigned, it is determined that the change is not necessary.

  The control unit 101 transfers the incoming request information to the incoming side communication control unit 105 when the incoming side change necessity determination unit 103 determines that the codec system does not need to be changed. The change instruction information including the encoding method data is transferred to the incoming side change control unit 104.

  The incoming side change control unit 104 is a unit that changes the encoding method data. Upon receiving the change instruction information, the incoming side change control unit 104 responds to the method change of the storage unit 102 based on the encoding method data given to the change instruction information. With reference to the table, the encoded data with a small use band to be changed is specified, and the incoming request information with the specified encoding method data is transferred to the incoming communication control unit 105.

  Upon receiving the incoming request information, the incoming communication control unit 105 transmits the incoming request information to the incoming wireless terminal 50.

  When receiving the incoming request information, the incoming wireless terminal 50 operates in the same manner as in the first embodiment, and subsequently transmits incoming response information to which the set encoding method data is added to the access point device 100.

  When receiving the incoming response information, the control unit 101 of the access point device 100 transfers the incoming response information to the incoming communication control unit 105, and the incoming communication control unit 105 sends the received incoming response information to the access point device 90. Send.

  When receiving the incoming response information, the control unit 91 of the access point device 90 transmits the received incoming response information to the originating wireless terminal 40.

  When receiving the incoming response information, the control unit 41 of the originating wireless terminal 40 operates in the same manner as in the first embodiment, and sets the codec method in the codec unit 43 based on the encoding method data attached to the incoming response information. To do. Thereafter, the originating wireless terminal 40 can perform wireless communication with the terminating wireless terminal 50 via the access point device 90 according to the codec scheme set in the codec unit 43.

  As described above, in the access point device 90, when the band data exceeds the first threshold data, the encoding method data assigned to the transmission request information is changed to the encoding method data having a smaller use band than the encoding method data. In the access point device 100, when the bandwidth data exceeds the first threshold data, the coding method data assigned to the incoming request information is changed to a coding method that uses less bandwidth than the coding method data. Since the codec method indicated by the changed encoding method data is set to the codec units 43 and 53 of the transmission-side wireless terminal 40 and the reception-side wireless terminal 50, the transmission-side wireless terminal 40 and the receiving-side wireless terminal 50 use the set codec method, thereby making the access point devices 90, 10 It can perform wireless communication through.

  Subsequently, in order for the originating wireless terminal 40 to disconnect the communication with the terminating wireless terminal 50, the access point device 90 is encoded with the encoding method data indicating the codec method used and the terminal indicating the terminating wireless terminal 50. A case where the cutting request information with the identification data is transmitted will be described.

  When the control unit 91 of the access point device 90 receives the disconnection request information to which the encoding method data indicating the codec method used and the terminal identification data indicating the destination wireless terminal 50 are added from the transmission-side wireless terminal 40, The operation is the same as in the first embodiment, and subsequently the memory disconnection request information is transferred to the device specifying unit 94.

  Upon receiving the disconnection request information, the device specifying unit 94 specifies the corresponding device identification data by referring to the inter-terminal device correspondence list data in the storage unit 92 based on the terminal identification data given to the disconnection request information.

  In the present embodiment, since the disconnection request information to which the terminal identification data indicating the called radio terminal 50 is added is received, the device identification data indicating the access point device 100 is specified.

  When the device specifying unit 94 specifies the device identification data, the control unit 91 transfers the specified device identification data and the disconnection request information to the transmission side communication control unit 96.

  When receiving the device identification data and the disconnection request information, the transmission side communication control unit 96 transmits the disconnection request information to the access point device based on the device identification data. In the present embodiment, the disconnection request information is transmitted to the access point device 100 by the transmission side communication control unit 96.

  When receiving the disconnection request information, the control unit 101 of the access point device 100 operates in the same manner as in the first embodiment, and continuously transmits the disconnection request information to the receiving-side wireless terminal 50.

  When the receiving side wireless terminal 50 receives the disconnection request information, the control unit 51 operates in the same manner as in the first embodiment, and transmits the disconnection response information to the access point device 100.

  When receiving the disconnection response information, the control unit 101 of the access point device 100 transfers the disconnection response information to the incoming communication control unit 105, and the incoming communication control unit 105 sends the received disconnection response information to the access point device 90. Send.

  When receiving the disconnection response information, the control unit 91 of the access point device 90 transfers the disconnection response information to the transmission side communication control unit 96, and the transmission side communication control unit 96 transmits the received disconnection response information to the transmission side wireless terminal 40. When the calling wireless terminal 40 receives the disconnection response information, the communication disconnection between the calling wireless terminal 40 and the receiving wireless terminal 50 is completed.

<Operation of Example 2>
Hereinafter, the operation of the wireless communication system according to the second embodiment will be described.

  First, in order for the originating wireless terminal 40 to wirelessly communicate with the terminating wireless terminal 50, the access point device 90 is encoded with coding method data indicating the codec method used and terminal identification data indicating the terminating wireless terminal 50. A description will be given until the codec system for the transmitting side wireless terminal 40 and the receiving side wireless terminal 50 is changed when the transmission request information to which is added is transmitted.

  FIG. 5 is an operation flowchart of changing the codec scheme for the originating wireless terminal 40 and the terminating wireless terminal 50 in the wireless communication system according to the second embodiment.

  When receiving the transmission request information from the transmission-side wireless terminal 40, the control unit 91 of the access point device 90 operates in the same manner as in the first embodiment, and subsequently transfers the transmission request information to the transmission-side change necessity determination unit 93.

  If the change instruction data is added to the received call request information, the caller side change necessity determination unit 93 determines that the codec system needs to be changed, and if not, determines that the change is not necessary (S12).

  When the transmission side change necessity determination unit 93 determines that the codec system does not need to be changed, the control unit 91 transfers the transmission request information to the device specifying unit 94 (S13). It transfers to the change control part 95 (S14).

  Upon receiving the transmission request information, the transmission side change control unit 95 refers to the method change correspondence table in the storage unit 92 based on the encoding method data assigned to the transmission request information, and determines the usage band to be changed. A small amount of encoded data is specified, and the specified encoding method data is added to the transmission request information (S15).

  That is, for example, G. When the encoding method data indicating 711 (= 64k) is given, the transmission side change control unit 95 responds to the method change of the storage unit 92 based on the encoding method data (G.711 (= 64k)). Referring to the table, the G. 720 (= 8k) is specified, and the specified G. 720 (= 8k) encoding method data is assigned.

  When the transmission side change control unit 95 completes the change of the encoding method data, the control unit 91 transfers the transmission request information provided with the encoding method data to the device specifying unit 94.

  Upon receiving the transmission request information, the device specifying unit 94 refers to the inter-terminal device correspondence list data in the storage unit 92 based on the terminal identification data given to the transmission request information, and specifies the corresponding device identification data ( S16).

  In the present embodiment, since the transmission request information to which the terminal identification data indicating the called radio terminal 50 is added is received, the device identification data indicating the access point apparatus 100 is specified.

  When the device identification unit 94 identifies the device identification data, the control unit 91 transfers the identified device identification data and the encoding method data attached to the transmission request information to the transmission side communication control unit 96.

  When receiving the device identification data and the encoding method data, the transmission side communication control unit 96 transmits the incoming call request information with the encoding method data to the access point device based on the device identification data (S17). In this embodiment, the incoming call request information to which the encoding method data is added by the transmission side communication control unit 96 is transmitted to the access point device 100.

  When receiving the incoming request information, the control unit 101 of the access point apparatus 100 operates in the same manner as in the first embodiment, and subsequently transfers the incoming request information to the incoming side change necessity determination unit 103.

  The incoming side change necessity determination unit 103 determines that the codec method needs to be changed if the change instruction data is added to the received incoming request information, and determines that the change is not required if it is not added (S28).

  The control unit 101 transfers the incoming request information to the incoming side communication control unit 105 when the incoming side change necessity determination unit 103 determines that the codec system does not need to be changed. The change instruction information including the encoding method data is transferred to the incoming side change control unit 104.

  Upon receiving the change instruction information, the receiving side change control unit 104 refers to the method change correspondence table in the storage unit 102 based on the encoding method data given to the change instruction information, and determines the usage band to be changed. In addition to specifying a small amount of encoded data, the incoming request information to which the specified encoding method data is assigned is transferred to the incoming communication control unit 105 (S29).

  Upon receiving the incoming request information, the incoming communication control unit 105 transmits the incoming request information to the incoming wireless terminal 50 (S30).

  When receiving the incoming request information, the incoming wireless terminal 50 operates in the same manner as in the first embodiment, and subsequently transmits incoming response information to which the set encoding method data is added to the access point device 100 (S32).

  When receiving the incoming response information, the control unit 101 of the access point device 100 transfers the incoming response information to the incoming communication control unit 105, and the incoming communication control unit 105 sends the received incoming response information to the access point device 90. Transmit (S33).

  When receiving the incoming response information, the control unit 91 of the access point device 90 transmits the received incoming response information to the originating wireless terminal 40 (S34).

  When receiving the incoming response information, the control unit 41 of the originating wireless terminal 40 operates in the same manner as in the first embodiment, and sets the codec method in the codec unit 43 based on the encoding method data attached to the incoming response information. (S35). Thereafter, the originating wireless terminal 40 can perform wireless communication with the terminating wireless terminal 50 via the access point device 90 according to the codec scheme set in the codec unit 43.

  As described above, in the access point device 90, when the transmission side band data exceeds the first transmission side threshold data, the encoding method data given to the transmission request information is used less than the encoding method data. In the access point device 100, when the incoming-side bandwidth data exceeds the first incoming-side threshold data, the encoding method data given to the incoming request information is changed from the encoding method data. Is changed to the coding method data with a smaller use band, and the codec methods indicated by the changed coding method data are respectively set for the codec units 43 and 53 of the transmitting-side wireless terminal 40 and the receiving-side wireless terminal 50. Therefore, by using the codec method in which the transmitting side wireless terminal 40 and the receiving side wireless terminal 50 are set, It can perform wireless communication through the scan point device 90, 100.

  Subsequently, in order for the originating wireless terminal 40 to disconnect the communication with the terminating wireless terminal 50, the access point device 90 is encoded with the encoding method data indicating the codec method used and the terminal indicating the terminating wireless terminal 50. A case where the cutting request information with the identification data is transmitted will be described.

  FIG. 6 is a flowchart of a disconnection request operation of the wireless communication system according to the second embodiment.

  When the control unit 91 of the access point device 90 receives the disconnection request information to which the encoding method data indicating the codec method used and the terminal identification data indicating the destination wireless terminal 50 are added from the transmission-side wireless terminal 40 ( S1), which operates in the same manner as in the first embodiment, and subsequently transfers the memory disconnection request information to the device specifying unit 94.

  When receiving the disconnection request information, the device specifying unit 94 refers to the inter-terminal device correspondence list data in the storage unit 92 based on the terminal identification data given to the disconnection request information, and specifies the corresponding device identification data ( S6).

  In the present embodiment, since the disconnection request information to which the terminal identification data indicating the called radio terminal 50 is added is received, the device identification data indicating the access point device 100 is specified.

  When the device specifying unit 94 specifies the device identification data, the control unit 91 transfers the specified device identification data and the disconnection request information to the transmission side communication control unit 96.

  When receiving the device identification data and the disconnection request information, the transmission side communication control unit 96 transmits the disconnection request information to the access point device based on the device identification data (S7). In the present embodiment, the disconnection request information is transmitted to the access point device 100 by the transmission side communication control unit 96.

  When receiving the disconnection request information, the control unit 101 of the access point device 100 operates in the same manner as in the first embodiment, and continuously transmits the disconnection request information to the receiving-side wireless terminal 50 (S13).

  When receiving the disconnection request information, the receiving side wireless terminal 50 operates in the same manner as in the first embodiment and transmits disconnection response information to the access point device 100 (S14).

  When receiving the disconnection response information, the control unit 101 of the access point device 100 transfers the disconnection response information to the incoming communication control unit 105, and the incoming communication control unit 105 sends the received disconnection response information to the access point device 90. Transmit (S15).

  When receiving the disconnection response information, the control unit 91 of the access point device 90 transfers the disconnection response information to the transmission side communication control unit 96, and the transmission side communication control unit 96 transmits the received disconnection response information to the transmission side wireless terminal 40. (S16), and when the originating wireless terminal 40 receives the disconnection response information, the disconnection of communication between the originating wireless terminal 40 and the terminating wireless terminal 50 is completed.

<Effect of Example 2>
In the wireless communication system according to the second embodiment, the transmission side wireless terminal 40 transmits the transmission request information to which the encoding scheme data is added to the access point device 90, and the access point device 90 that has received the transmission request information receives the transmission side wireless terminal. The transmission side band data indicating the bandwidth required for communication including 40 exceeds the first transmission side threshold data indicating the band amount serving as a reference for determining whether or not to change the codec system of each wireless terminal. In this case, the encoding method data assigned to the transmission request information is changed to encoding method data having a smaller bandwidth than the encoding method data, and the access point device 100 that has received the incoming request information receives The incoming side bandwidth data indicating the bandwidth required for communication including the wireless terminal 40 determines whether or not the codec system of each wireless terminal should be changed. When the first incoming side threshold data indicating the bandwidth amount serving as a reference to exceed the coding method data assigned to the incoming request information is changed to coding method data having a smaller bandwidth than the coding method data. Since the codec schemes indicated by the changed encoding scheme data are respectively set for the codec units 43 and 53 of the originating wireless terminal 40 and the terminating wireless terminal 50, the originating wireless terminal 40 and By using the set codec method, the receiving-side wireless terminal 50 wirelessly communicates with the allowable number of wireless terminals 60 determined according to the bandwidth amount when the requesting access point devices 90 and 100 are requested. To provide a highly convenient wireless communication system that can perform wireless communication via the access point devices 90 and 100 even if It can be.

  Further, the access point device 90 is provided with a calling side change necessity determining unit 93, a device specifying unit 94, a calling side change control unit 95, and a calling side communication control unit 96, and the access point device 100 has a receiving side change necessity determining unit. 103, the incoming side change control unit 104, and the incoming side communication control unit 105 are provided, so that the call control device 10 becomes unnecessary.

  In the above-described embodiment, G. 711 (= 64k) to G. The change to 729 (= 8k) has been described. However, the present invention is not limited to this, and any configuration that changes to a codec method that uses less communication bandwidth than the codec method indicated by the input coding method data may be used. For example, G. 723.1 (= 6.3k), G.M. 726 (= 24k), G.E. It may be changed to any codec system such as 726 (= 14k).

The block block diagram which shows the radio | wireless communications system of this invention Flowchart of change operation of codec scheme for originating wireless terminal 40 and terminating wireless terminal 50 in the wireless communication system of the first embodiment Disconnection request operation flowchart of the wireless communication system of the first embodiment Block configuration diagram illustrating a wireless communication system according to a second embodiment. Flowchart of change operation of codec scheme for originating wireless terminal 40 and terminating wireless terminal 50 in the wireless communication system according to the second embodiment. Disconnection request operation flowchart of the wireless communication system of the second embodiment

Explanation of symbols

DESCRIPTION OF SYMBOLS 10 Call control apparatus 11 Control part 12 Storage part 13 Change necessity determination part 14 Device specification part 15 Change control part 16 Communication control part 20 Access point apparatus 21 Control part 22 Storage part 23 Origination side band acquisition part 24 Origination side communication availability judgment Unit 25 Originating-side relay communication unit 26 Originating-side update availability determination unit 27 Originating-side data update unit 30 Access point device 31 Control unit 32 Storage unit 33 Incoming-side band acquisition unit 34 Incoming-side signal acceptability judgment unit 35 Incoming-side relay communication unit 36 Receiving side update availability determination unit 37 Receiving side data updating unit 40 Outgoing side wireless terminal 41 Control unit 42 Storage unit 43 Codec unit 44 Outgoing side communication unit 45 Outgoing side system setting unit 50 Incoming side wireless terminal 51 Control unit 52 Storage unit 53 Codec 54 Receiving side communication unit 55 Receiving side system setting unit 60 Wireless terminal 80 Network 90 Access Point device 91 Control unit 92 Storage unit 93 Origination side change necessity judgment unit 94 Device identification unit 95 Origination side change control unit 96 Origination side communication control unit 100 Access point device 101 Control unit 102 Storage unit 103 Termination side change necessity judgment Unit 104 called side change control unit 105 called side communication control unit

Claims (16)

A call that controls the wireless communication with a plurality of wireless terminals that are performing wireless communication with each other via the access point device on the transmission side and the reception side using the codec method indicated by the encoding method data set in the codec unit Using the same codec method as the control device, a caller-side radio terminal that newly issues a call request to the caller-side access point device to perform radio communication with the callee-side radio terminal serving as the callee In a wireless communication system comprising:
The originating wireless terminal is
A transmission side communication unit that transmits the transmission request information to which the encoding method data indicating the designated codec method is added to the access point device on the transmission side;
The originating access point device is:
A storage unit that holds first transmission-side threshold data indicating a bandwidth amount serving as a reference for determining whether or not a change in the codec scheme assigned to the transmission request information is necessary;
When the call request information is received, based on the codec method indicated by the encoding method data added to the call request information and the codec method used by the plurality of radio terminals, the caller wireless terminal and the communication in progress A transmission-side band acquisition unit that acquires transmission-side band data indicating the total bandwidth required for wireless communication of the wireless terminal;
When the transmission side band data is larger than the first transmission side threshold data, a transmission side communication feasibility determination unit that determines communication is possible by changing the encoding method data given to the transmission request information;
When the caller side communication feasibility determination unit determines that communication is possible by changing the encoding method data given to the call request information, change instruction data for instructing change of the coding method data given to the call request information A caller relay communication unit for transmitting the call request information provided to the call control device;
The call control device includes:
When change instruction data is given to the call request information, a change necessity determination unit that determines that a codec method needs to be changed,
When the change necessity determination unit determines that a change is necessary, the incoming request information is provided with encoding method data indicating a codec method that uses less bandwidth than the codec method indicated by the encoding method data attached to the transmission request information. A change control unit for generating
A communication control unit for transmitting the generated incoming request information to the access point device on the incoming side,
The called-side access point device is:
A storage unit for holding first incoming side threshold data indicating a bandwidth amount serving as a reference for determining whether or not it is necessary to change the encoding method data attached to the incoming request information;
When receiving the incoming request information, based on the codec method indicated by the encoding method data attached to the incoming request information and the codec method used by the plurality of wireless terminals, the originating wireless terminal and the plurality of wireless terminal An incoming-side bandwidth acquisition unit that acquires incoming-side bandwidth data indicating the total bandwidth required for wireless communication of the wireless terminal;
When the incoming-side bandwidth data is smaller than the first incoming-side threshold data, an incoming-side communication availability determination unit that determines that communication is possible;
When the incoming side communication availability determination unit determines that communication is possible, the incoming side communication communication unit includes an incoming side relay communication unit that transmits the incoming request information to the incoming side wireless terminal,
The called wireless terminal is
When receiving the incoming call request information, an incoming-side method setting unit that sets the codec method indicated by the assigned encoding method data in its own codec unit;
When the called-side method setting unit sets the codec method, the called-side communication unit transmits the incoming call response information to which the coding method data indicating the set codec method is added to the calling-side wireless terminal,
The wireless communication system further includes a transmission-side method setting unit that sets the codec method indicated by the assigned code method data in its own codec unit when receiving the incoming call response information. When the incoming side bandwidth data is larger than the first incoming side threshold data, the incoming side communication enable / disable determining unit determines that communication is possible by changing the encoding method data added to the incoming request information,
The incoming-side relay communication unit, when the incoming-side communication availability determination unit determines that communication is possible, transmits change instruction information for instructing a change in the encoding method data attached to the incoming request information to the call control device. 2. The wireless communication system according to claim 1, wherein upon receipt of incoming call request information in which the encoding scheme data has been changed from the call control device, the incoming call request information is transmitted to the called wireless terminal. The same codec method is used with a plurality of wireless terminals that are performing wireless communication with each other via the access point device on the transmission side and the reception side using the codec method indicated by the encoding method data set in the codec section. In order to perform wireless communication with the receiving wireless terminal, a wireless communication system including a transmitting wireless terminal that makes a transmission request to the transmitting access point device,
The originating wireless terminal is
A transmission side communication unit that transmits the transmission request information to which the encoding method data indicating the designated codec method is added to the access point device on the transmission side;
The originating access point device is:
A storage unit that holds first transmission-side threshold data indicating a bandwidth amount serving as a reference for determining whether or not a change in the codec scheme assigned to the transmission request information is necessary;
Upon receiving the call request information, based on the codec method indicated by the encoding method data attached to the call request information and the codec method used by the plurality of wireless terminals, A transmission-side band acquisition unit that acquires transmission-side band data indicating the total bandwidth required for wireless communication of the wireless terminal;
When the transmission side band data is larger than the first transmission side threshold data, a transmission side communication feasibility determination unit that determines communication is possible by changing the encoding method data given to the transmission request information;
When the calling side communication feasibility determining unit determines that communication is possible by changing the coding method data given to the call request information, change instruction data for instructing the change of the coding method data is further given to the call request information. A calling side relay communication unit,
When change instruction data is given to the transmission request information, a transmission side change necessity determination unit that determines that a codec method needs to be changed,
When the calling side change necessity determination unit determines that a change is required, the incoming call is provided with encoding method data indicating a codec method that uses less bandwidth than the codec method indicated by the encoding method data assigned to the transmission request information. A change control unit for generating request information;
A caller side communication control unit for transmitting the generated call request information to the callee access point device,
The called-side access point device is:
A storage unit for holding first incoming side threshold data indicating a bandwidth amount serving as a reference for determining whether or not it is necessary to change the encoding method data attached to the incoming request information;
When receiving the incoming request information, based on the codec method indicated by the encoding method data attached to the incoming request information and the codec method used by the plurality of wireless terminals, the originating wireless terminal and the plurality of wireless terminal An incoming-side bandwidth acquisition unit that acquires incoming-side bandwidth data indicating the total bandwidth required for wireless communication of the wireless terminal;
When the incoming-side bandwidth data is smaller than the first incoming-side threshold data, an incoming-side communication availability determination unit that determines that communication is possible;
A call-side communication control unit that transmits the call-request information to the call-side wireless terminal when the call-side communication availability determination unit determines that communication is possible;
The called wireless terminal is
When receiving the incoming call request information, an incoming-side method setting unit that sets the codec method indicated by the assigned encoding method data in its own codec unit;
When the called-side method setting unit sets the codec method, the called-side communication unit transmits the incoming call response information to which the coding method data indicating the set codec method is added to the calling-side wireless terminal,
The wireless communication system further includes a transmission-side method setting unit that sets the codec method indicated by the assigned code method data in its own codec unit when receiving the incoming call response information. When the incoming side bandwidth data is larger than the first incoming side threshold data, the incoming side communication enable / disable determining unit determines that communication is possible by changing the encoding method data added to the incoming request information,
When the incoming communication control unit determines that the communication is possible by changing the encoding method data added to the incoming request information, the incoming communication control unit determines whether the encoding method data attached to the incoming request information Further, change instruction data for instructing change is given to the incoming call request information,
When change instruction data is given to the incoming call request information, an incoming side change necessity determination unit that determines that a change is required;
When the receiving side change necessity determination unit determines that a change is necessary, the incoming call is provided with encoding method data indicating a codec method that uses less bandwidth than the codec method indicated by the encoding method data assigned to the incoming request information. The wireless communication system according to claim 3, further comprising: an incoming call side change control unit that generates request information and forwards the incoming call request information to the incoming call side communication control unit. In an access point device that relays communication of a wireless terminal that uses a set codec method and performs processing related to a new call connection request between a transmitting wireless terminal and a receiving wireless terminal,
A first determination unit that receives a first signal as a call connection request and determines whether or not the first traffic of the access point device exceeds a first threshold;
When the first traffic exceeds the first threshold, a second signal related to a change in codec scheme between the calling wireless terminal and the called wireless terminal for the called wireless terminal A first transmitter for transmitting
Relaying a third signal in which a codec scheme between the calling wireless terminal and the called wireless terminal is changed based on the second signal from the called wireless terminal to the calling wireless terminal; An access point device comprising: a relay unit.   6. The access point apparatus according to claim 5, wherein the second signal is a signal instructing setting of the codec system after the change. The access point device is a calling side access point device connected to the calling side wireless terminal via a wireless line,
6. The access point apparatus according to claim 5, wherein the first signal is a signal indicating a call instruction. The access point device is a called side access point device connected to the called side wireless terminal via a wireless line,
6. The access point apparatus according to claim 5, wherein the first signal is a signal indicating an incoming call instruction. A wireless communication system comprising the access point device according to claim 5.
The access point device is a calling side access point device connected to the calling side wireless terminal via a wireless line,
Furthermore, it has a receiving side access point device,
The called-side access point device is
Connected to the incoming wireless terminal via a wireless line;
A second relay unit that relays the first signal and the second signal to the terminating wireless terminal;
A wireless communication system, comprising: a third relay unit that relays the third signal from the incoming wireless terminal to the outgoing wireless terminal. A wireless communication system comprising the access point device according to claim 5.
Furthermore, it has a calling side access point device,
The calling side access point device is:
Connected to the originating wireless terminal via a wireless line;
A second relay unit that relays the first signal;
A third relay unit that relays the third signal from the incoming wireless terminal to the outgoing wireless terminal;
The access point device is
A wireless communication system, characterized in that the wireless communication system is an incoming-side access point device connected to the incoming-side wireless terminal via a wireless line, wherein the first transmitter transmits the second signal to the incoming-side wireless terminal. . A wireless communication system comprising the access point device according to claim 5.
The access point device is
A calling side access point device connected to the calling side wireless terminal via a wireless line,
Furthermore, a call control device and a receiving side access point device are provided,
The call control device includes:
A first control unit for controlling the first signal;
A second transmission unit that transmits a fourth signal instructing setting of the codec system after the change based on the second signal;
The called-side access point device is
Connected to the incoming wireless terminal via a wireless line;
A second relay unit that relays the first signal and the fourth signal to the terminating wireless terminal;
A wireless communication system, comprising: a third relay unit that relays the third signal from the incoming wireless terminal to the outgoing wireless terminal. A wireless communication system comprising the access point device according to claim 5.
Furthermore, it has a calling side access point device,
The calling side access point device is connected to the calling side wireless terminal by a wireless line,
A second relay unit that relays the first signal;
A third relay unit that relays the third signal from the incoming wireless terminal to the outgoing wireless terminal;
The call control device includes:
A first control unit for controlling the first signal;
Based on the second signal received from the access point device, a second transmission unit that transmits a fourth signal that instructs setting of the codec system after the change,
The access point device is
A receiving-side access point device connected to the receiving-side wireless terminal via a wireless line;
A wireless communication system, comprising: a third relay unit that relays the first signal and the fourth signal to the terminating wireless terminal. In a communication method of an access point device that relays communication of a wireless terminal using a set codec method and performs processing related to a new call connection request between a calling wireless terminal and a receiving wireless terminal,
A first determination step of receiving a first signal as a call connection request and determining whether the first traffic of the access point device exceeds a first threshold;
When the first traffic exceeds the first threshold, a second signal related to a change in codec scheme between the calling wireless terminal and the called wireless terminal for the called wireless terminal A first sending step for sending
Relaying a third signal in which a codec scheme between the calling wireless terminal and the called wireless terminal is changed based on the second signal from the called wireless terminal to the calling wireless terminal; A communication method of an access point device, comprising: a relay step. In the communication method of the access point device according to claim 13,
The communication method of the access point device, wherein the second signal is a signal for instructing setting of the codec system after the change. 14. The communication method for an access point device according to claim 13, wherein the access point device is a calling side access point device connected to the calling side wireless terminal via a wireless line, and further, the called side wireless terminal. In a communication method of a wireless communication system comprising an incoming-side access point device connected by a wireless line,
The called-side access point device is
A second relay step of relaying the first signal and the second signal to the terminating wireless terminal;
A communication method of a wireless communication system, comprising: a third relay step of relaying the third signal from the receiving wireless terminal to the transmitting wireless terminal. 14. The access point device communication method according to claim 13, further comprising a calling side access point device connected to the calling side wireless terminal via a wireless line, wherein the access point device is the receiving side wireless terminal. In a communication method of a wireless communication system, which is an incoming-side access point device connected by a wireless line,
The calling side access point device is:
A second relay step for relaying the first signal;
A third relay step of relaying the third signal from the incoming wireless terminal to the outgoing wireless terminal;
In the access point device,
The communication method of a wireless communication system, wherein the first transmission step transmits the second signal to the receiving wireless terminal.

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