JP3389508B2 - Wireless packet transmission equipment - Google Patents

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a wireless packet transmission device for transmitting a wireless packet by connecting to a connectionless network using a TCP / IP protocol group or the like.

The wireless packet transmission device in this specification includes both a wireless packet transmission terminal device and a wireless packet transmission base station device.

[0003]

2. Description of the Related Art FIG. 7 shows a configuration example of a network using a wireless packet transmission device. In the figure, a wireless packet transmission terminal device 71 is connected to a wired interface (LAN such as Ethernet or OCN) 72 or an information terminal (workstation (WS), personal computer (PC), personal digital assistant (PDA)) 73, It functions as a part of a network that uses the TCP / IP protocol group or the like. The wireless packet transmission base station device 74 is connected to the wired network 75 and functions as a network device that uses the TCP / IP protocol group or the like, and wireless packet transmission is performed between the wireless packet transmission base station device 74 and a plurality of wireless packet transmission terminal devices 71 existing in each cell. Send and receive.

When the wireless packet transmission terminal device 71 moves from one cell to an adjacent cell, a handover is performed to switch the belonging wireless packet transmission base station device 74.
At this time, if packet transmission is performed between the wireless packet transmission terminal device 71 and the wireless packet transmission base station device 74, the packet being transmitted is discarded and the packet transmission is restarted after the handover processing is completed. .

FIG. 8 shows a configuration example of a conventional wireless packet transmission device. In the figure, the wired interface 81 and the wireless interface 82 are directly connected. The wired interface 81 transmits / receives a packet to / from the LAN 72 or the information terminal 73. The packet received by the wired interface 81 is sent to the wireless interface 82 with the same packet size. The wireless interface 82 transmits / receives a wireless packet to / from another wireless packet transmission device via a wireless line. The packet received by the wireless interface 82 is converted from the wired interface 81 into a wired packet having the same packet size and transmitted.

[0006]

In the conventional wireless packet transmission device, the packet size input to the wired interface 81 is transmitted as it is from the wireless interface 82. Therefore, when the packet size is large, there are many cases where a handover is encountered during packet transmission and the packet being transmitted is discarded and retransmitted. Furthermore, since the size of the packet to be retransmitted is large, the time required for retransmitting becomes long. As a result, the file transfer time becomes long, and if handovers occur frequently, throughput will be significantly reduced.

It is an object of the present invention to provide a radio packet transmission apparatus capable of improving the throughput of the entire system by minimizing the frequency of packet retransmission and the time required for packet retransmission due to handover.

[0008]

A wireless packet transmission device of the present invention determines an optimum packet size of a wireless packet according to the moving speed of a wireless packet transmission terminal device, and changes the packet size by packet division or the like. Also,
The handover time interval may be estimated from the moving speed of the wireless packet transmission terminal device, or the moving speed and moving direction, and the packet size may be determined accordingly. This allows
It is possible to optimize the packet size of wireless packets, reduce packet discard during transmission due to handover,
The frequency of packet retransmission can be reduced. Further, even if the packet is retransmitted due to the discarding of the packet by the handover, the time required for the retransmission can be shortened.

[0009]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS (First Embodiment) FIG. 1 shows a first embodiment of a wireless packet transmission device of the present invention. The configuration of the present embodiment is applied to both the wireless packet transmission terminal device and the wireless packet transmission base station device. Further, the present embodiment is the invention according to claims 1 and 2.
And the characteristic part of each claim is the second part.
This will be described in the embodiment and the third embodiment.

In the figure, the wired interface 11 is
T with connected wired network or information terminal
Send and receive CP / IP packets. The packet received by the wired interface 11 is transferred to the packet size conversion device 1
3 to the wireless interface 12. The wireless interface 12 transmits and receives wireless packets to and from the opposing wireless packet transmission device via a wireless line. The packet received by the wireless interface 12 is sent to the wired interface 11 as it is.

The moving speed detecting device 14 detects the current moving speed of the wireless packet transmission terminal device directly or from the information obtained from the wireless interface 12 or the wired interface 11. Here, the wireless interface 1
2 shows an example of being connected to. For example, the maximum Doppler frequency is estimated from the error rate or the reception level fluctuation obtained from the wireless interface 12, and the moving speed is detected from the estimated maximum Doppler frequency and carrier frequency. The packet size determination device 15 stores the optimum packet size for the moving speed in advance, determines the packet size corresponding to the detected moving speed based on that, and notifies the packet size conversion device 13 of the packet size.

The packet size conversion device 13 converts the packet size of the packet input from the wired interface 11 based on the determined packet size. The packet whose packet size has been converted is input to the wireless interface 12, converted into a wireless packet, and transmitted to the opposing wireless packet transmission device.

Here, a simulation for obtaining the optimum packet size for the moving speed of the wireless packet transmission terminal device will be described. Simulation conditions are file size 2M bytes Transfer rate 32kbit / s (4kbyte / s) Cell shape Square cell size 200m × 200m Moving speed 10, 20, 40, 80, 160 m / s Packet size 1500, 1000, 750, 500 , 250, 100 bytes. Further, the wireless packet transmission base station device is arranged in the center of the cell, and the wireless packet transmission terminal device moves at a constant speed from any point in the cell. When moving from the cell to the adjacent cell, handover is performed. If packets are being transmitted when a handover occurs, the packet is retransmitted after moving to an adjacent cell.

FIG. 5 shows the relationship between the moving speed of the wireless packet transmission terminal device and the file transfer time. The file transfer time is standardized by the file transfer time when the moving speed is 0 and the packet size is 1500 bytes. The horizontal axis represents the moving speed (m / s), and the vertical axis represents the standardized file transfer time. The numbers in the figure indicate the packet size.

For example, when the moving speed is 160 m / s, 15
It can be seen that if a 00-byte packet is divided into 500 bytes and transmitted, the transfer time can be shortened by about 20% and the throughput is improved. However, when divided into 250 bytes for transmission, it can be seen that the file transfer time is uniformly worse than in the case of divided into 500 bytes due to the increase in overhead due to the addition of the header, as shown in FIG. 4 described later. .

FIG. 6 shows the relationship between the moving speed of the wireless packet transmission terminal device and the optimum packet size. The horizontal axis represents the moving speed (m / s), and the vertical axis represents the packet size (byte). As shown here, it can be seen that there is an optimum packet size for the moving speed. From this result, if the moving speed of the wireless packet transmission terminal device is known, the packet size can be uniquely determined.

(Second Embodiment) FIG. 2 shows a second embodiment of the radio packet transmission apparatus of the present invention. The configuration of the present embodiment is applied to both the wireless packet transmission terminal device and the wireless packet transmission base station device.

The feature of the present embodiment is that in the configuration of the first embodiment, a handover predicting device 16 for predicting the time interval of handover from the moving speed of the wireless packet transmission terminal device detected by the moving speed detecting device 14 is provided. The packet size determination device 17 is in the process of determining the packet size corresponding to the handover time interval. Other configurations are the same as those in the first embodiment.

That is, the handover predicting device 16 is
The detected moving speed is input and the handover time interval of the wireless packet transmission terminal device is predicted. The packet size determination device 17 stores the optimum packet size for the handover time interval in advance, determines the packet size corresponding to the predicted handover time interval based on that, and notifies the packet size conversion device 13.
Note that the relationship between the handover time interval and the optimum packet size can also be obtained by the same simulation as in the first embodiment.

(Third Embodiment) FIG. 3 shows a third embodiment of the radio packet transmission apparatus of the present invention. The configuration of this embodiment is applied to a wireless packet transmission base station device.

The feature of this embodiment is that in the second embodiment, a handover direction predicting device 1 is provided with a moving direction detecting device 18 for detecting the moving direction of the wireless packet transmission terminal device.
9 is for predicting the handover time interval based on the moving speed and moving direction of the wireless packet transmission terminal device. Other configurations are similar to those of the second embodiment.

That is, the moving direction detecting device 18 detects the current moving direction of the wireless packet transmission terminal device from the information obtained from the wireless interface 12. For example,
The moving direction of the wireless packet transmission terminal device can be detected by the direction estimation technology using the array antenna.
The handover predicting device 19 inputs the detected moving speed and moving direction, predicts a handover time interval of the wireless packet transmission terminal device, and determines the packet size determining device 1
Notify 7.

FIG. 4 shows an example of a packet structure and a packet size conversion method. The packet includes a header 21 that describes the packet type, route information, etc., and a payload 22 that describes the data. The packet size conversion is performed by dividing the payload 22 and attaching the header of the original packet to each payload. In the example of FIG.
Payload 22 is divided into two, and payloads 22-1 and 22
-2 with the same header 21 added respectively.
For a detailed description of packet size conversion in IP, see, for example, the literature (“Detailed TCP / IP”, WRSTevens).
Written by Shoji Inoue, Softbank).

[0024]

As described above, the wireless packet transmission device (wireless packet transmission terminal device and wireless packet transmission base station device) of the present invention has a packet size of a wireless packet according to the moving speed of the wireless packet transmission terminal device. By optimizing, the packet discard during the transmission due to the handover can be reduced and the packet retransmission frequency can be reduced. Further, even if the packet is retransmitted due to the discarding of the packet by the handover, the time required for the retransmission can be shortened. As a result, the file transfer time is shortened and high throughput can be realized.

Further, the accuracy of the optimum packet size can be improved by estimating the handover time interval from the moving speed of the wireless packet transmission terminal device and determining the packet size accordingly.

Further, particularly in the radio packet transmission base station apparatus, the handover time interval is estimated from the moving speed and the moving direction of the radio packet transmission terminal apparatus, and the packet size is determined accordingly, so that the optimum packet size accuracy is obtained. Can be further increased.

[Brief description of drawings]

FIG. 1 is a block diagram showing a first embodiment of a wireless packet transmission device of the present invention.

FIG. 2 is a block diagram showing a second embodiment of a wireless packet transmission device of the present invention.

FIG. 3 is a block diagram showing a third embodiment of a wireless packet transmission device of the present invention.

FIG. 4 is a diagram showing an example of a packet configuration and a packet size conversion method.

FIG. 5 is a diagram showing a relationship between a moving speed of a wireless packet transmission terminal device and a file transfer time.

FIG. 6 is a diagram showing a relationship between a moving speed of a wireless packet transmission terminal device and an optimum packet size.

FIG. 7 is a diagram showing a configuration example of a network using a wireless packet transmission device.

FIG. 8 is a block diagram showing a configuration example of a conventional wireless packet transmission device.

[Explanation of symbols]

11,81 Wired interface 12,82 Wired interface 13 Packet size converter 14 Moving speed detector 15,17 Packet size determination device 16, 19 Handover prediction device 18 Moving direction detector 21 header 22 Payload 71 Wireless packet transmission terminal device 72 Wired network (LAN) 73 Information terminals (WS, PC, PDA) 74 Wireless packet transmission base station device 75 Wired network

─────────────────────────────────────────────────── --- Continuation of the front page (56) References JP 10-79701 (JP, A) JP 8-251090 (JP, A) JP 8-256149 (JP, A) JP 8- 204629 (JP, A) JP 9-162929 (JP, A) JP 10-51836 (JP, A) JP 7-322336 (JP, A) JP 63-92140 (JP, A) Tokushuhei 11-502989 (JP, A) International publication 96/31020 (WO, A1) (58) Fields investigated (Int.Cl. ⁷ , DB name) H04L 12/28 310 H04Q 7/22

Claims (3)

(57) [Claims] 1. A wireless packet transmission device having a wired interface and a wireless interface for transmitting TCP / IP packets and the like between a wireless packet transmission base station device and a wireless packet transmission terminal device under its control, At least one of the wireless packet transmission base station device and the wireless packet transmission terminal device, a moving speed detection device that detects a moving speed of the wireless packet transmission terminal device, and a handover that predicts a handover time interval from the detected moving speed. A predicting device, a packet size determining device that determines a packet size according to a predicted handover time interval, and a packet size of a packet passed from the wired interface to the wireless interface based on the determined packet size. Packet size conversion device Wireless packet transmission apparatus characterized by comprising and. 2. A wireless packet transmission device having a wired interface and a wireless interface, which transmits TCP / IP packets and the like between a wireless packet transmission base station device and a wireless packet transmission terminal device under its control, In the wireless packet transmission base station device, a moving speed detecting device for detecting a moving speed of the wireless packet transmitting terminal device, a moving direction detecting device for detecting a moving direction of the wireless packet transmitting terminal device, and a detected moving speed and A handover predicting device that predicts a handover time interval from the moving direction, a packet size determining device that determines a packet size according to the predicted handover time interval, and a wireless interface from the wired interface based on the determined packet size. Packet size of packets passed to the interface And a packet size conversion device for converting the packet size. 3. The wireless packet transmission device according to claim 1 or 2 , wherein the packet size determination device transfers a file having a predetermined file size with respect to a moving speed or a handover time interval of the wireless packet transmission terminal device. A wireless packet transmission device having a configuration in which an optimum packet size that minimizes time is provided as data, and the packet size is determined based on the data.