KR100277056B1 - Efficient paging channel control method with distribution of overhead message and change of overhead message transmission period - Google Patents

Abstract

According to the present invention, when a mobile station operating in a slot mode transmits an overhead message transmitted from a base station to a mobile station monitoring a slot, when a mobile station monitoring a specific slot receives an incoming service, an incoming call phenomenon may occur. The present invention relates to a method for resolving an unreachable phenomenon by distributing overhead messages and changing an overhead message transmission period so that all mobile stations can receive an incoming service well. According to an exemplary embodiment of the present invention, a method for controlling an effective paging channel by distributing overhead messages and changing transmission periods is impossible for a mobile station to operate in synchronization with a specific slot generated due to an overhead message being sent to a front slot. In order to eliminate the phenomenon, the method includes transmitting the overhead message in a predetermined slot interval (2 slots). According to another preferred embodiment of the present invention, if the transmission period is equal to 16 slots (16 * 80ms = 1.28 seconds), which is a period for monitoring mobile stations by the mobile station operating in the slot mode, the same overhead message is always present in the same slot. Paging channel monitored by mobile stations operating in slot mode by adjusting the overhead message transmission period to 1.2 seconds to avoid the problem of messages being sent and sent to mobile stations operating in the slot. 16 slots and 1 slot are alternately transmitted in a 15 slot period.

Description

Efficient PAGING CHANNEL CONTROL METHOD WITH DISTRIBUTION OF OVERHEAD MESSAGE AND CHANGE OF OVERHEAD MESSAGE TRANSMISSION PERIOD}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an efficient paging channel control method based on overhead message distribution and transmission change, and particularly, operates in a code division multiple access (CDMA) personal communication service (PCS) system. By changing the overhead message transmission and overhead message transmission periods transmitted through the paging channel from 1.28 seconds to 1.2 seconds, it is possible to prevent the inability of the mobile stations operating in the slot mode and to more efficiently paging. The present invention relates to a method for controlling channel load. In addition, the algorithm was devised to provide even coverage for all mobile stations served by CDMA (PCS) system.

The basic channels in the CDMA (PCS) system consist of four channels: pilot channel, sync channel, paging channel, and traffic channel.

Herein, the operation of the paging channel is described. The paging channel is a continuous channel, and its transmission rate is 4800bps, 9600bps of the two modes of the mobile station to operate at a rate specified by the base station.

The messages used in the paging channel are broadly classified into overhead messages and messages transmitted to individual mobile stations.

The overhead message types include a system parameters message, an access parameters message, a code division multiple access channel list message, and an extended neighbor list message. There are six messages: Extended System Parameter Message, Global Service Redirection Message, which must be sent from the base station to the mobile station at least once within 1.28 seconds. In order to transmit these six overhead messages to the mobile station in 1.28 seconds, it is conventionally started from paging channel slot # 0 and driven to the front slot as shown in Fig. 2. The overhead message transmission period is also 1.28 seconds. Slot mod with cycle The mobile station was operated with the use of the same period and the cycle is 16 slots (16 * 80ms = 1.28 seconds) period for monitoring the base station is operating in.

In general, the problems of the prior art as described above are as follows.

If the message is sent from slot # 0, then overhead messages will be sent from slot # 0 consecutively from slot # 0, as shown in Figure 2, to the front slot, such as slot # 0, slot # 1, slot # 2 ... There is a possibility that the base station may not properly transmit general user messages to the mobile stations that are tuned to the front slot and to the mobile stations under service. Thus, this problem may lead to a phenomenon incapable of receiving a call from a mobile station tuning a specific slot.

In addition, when the overhead message transmission period is set to 1.28 seconds, as shown in FIG. 2, the overhead message is driven to the front slot, and when the overhead message transmission period is 1.28 seconds, the basic repetition of the mobile stations operating in the slot mode monitoring the paging channel is shown. The same period as the 16 slots (16 * 80ms = 1.28 seconds). In this case, as shown in FIG. 3, mobile stations operating in slots # 0, slots # 1, slots # 2, and slots # 3 are always transmitted to the respective mobile stations due to the overhead messages transmitted in their slots. There is a problem that does not send correctly.

A solution to the problem with the prior art described above is as follows. When the overhead message is distributed and transmitted at regular slot intervals, as shown in FIG. 4, the overhead message is distributed and transmitted at regular intervals (2 slots), so that the overhead message is synchronized to a specific slot that was generated due to the cluster being sent to the front slot. This eliminates the inability of the mobile stations to operate. As shown in FIG. 4, a slotted page message is always transmitted at the beginning of a slot, thereby minimizing a problem that an overhead message cannot be sent to a mobile station tuned to the slot.

Also, if the overhead message transmission period is changed from 1.28 seconds to 1.2 seconds, even if the overhead messages are distributed and transmitted at slot intervals, the transmission period is 16 slots (16 slots) in which the mobile stations operating in the slot mode monitor the paging channel. * 80ms = 1.28 seconds), since the same overhead message is always transmitted in the same slot as shown in FIG. 3, messages to be sent to mobile stations operating in the slot are affected. In order to prevent such a problem, in the present invention, the overhead message transmission period is changed to 1.2 seconds (15 slots) so that the mobile stations operating in the slot mode monitor the paging channel in 16 slots and as shown in FIG. 5. Continued to stagger. By doing so, the load on the same slot was continuously reduced, and the load was evenly distributed to all slots.

Accordingly, the present invention provides an overhead message that enables mobile stations operating in the slot mode to receive the incoming service without any problem regardless of the slot in which the mobile stations operate in the slot mode through the above-described solution. An object of the present invention is to provide an efficient paging channel control method by distribution and transmission period change.

FIG. 1A is a diagram illustrating a mobile station operating state according to a slot cycle index applied to the present invention when the slot cycle index is 0. FIG.

1 (b) is a diagram showing a mobile station operating state according to the slot cycle index applied to the present invention when the slot cycle index is 1;

1 (C) is a diagram showing a mobile station operating state according to the slot cycle index applied to the present invention when the slot cycle index is 2;

Figure 2 (a) is a terminal for monitoring the slot 1 when not distributing the overhead message applied to the present invention,

2 (b) is a terminal for monitoring the second slot when not distributing the overhead message applied to the present invention,

2 (c) shows a terminal for monitoring slot 3 when not distributing an overhead message applied to the present invention.

3 is a diagram illustrating a case where an overhead message transmission period applied to the present invention is 1.28 seconds.

4 is a diagram illustrating a case where an overhead message according to the present invention is distributed.

5 is a diagram illustrating a case where an overhead message transmission period according to the present invention is set to 1.2 seconds.

In order to achieve the above object, a preferred embodiment of an efficient paging channel control method using overhead message distribution and transmission period change according to the present invention, which is caused by the overhead message being sent to the front slot, is generated. In order to eliminate the unreachability of the mobile stations operating in synchronization with the slots, the overhead messages are distributed and transmitted at regular slot intervals (two slots).

In the present invention, it is desirable to always transmit the slotted page message at the beginning of the slot in order to minimize the problem of the overhead message not being sent to the mobile station tuned to the slot.

According to another preferred embodiment of the present invention, if the transmission period is equal to 16 slots (16 * 80ms = 1.28 seconds), which is a period in which mobile stations operating in slot mode monitor the paging channel, the same overhead message is always present in the same slot. Paging channel monitored by mobile stations operating in slot mode by adjusting the overhead message transmission period to 1.2 seconds to avoid the problem of messages being sent and sent to mobile stations operating in the slot. 16 slots, which is a period of 1 slot, includes a step of transmitting a 15 slot period alternately.

The present invention relates to a method for increasing a successful reception rate to mobile stations operating in slot mode by more efficiently transmitting overhead message transmission of a paging channel among channels used in a CDMA (PCS) system.

To this end, in the paging channel, the overhead message distributed transmission function and the overhead message transmission period are transmitted in a 15 slot period alternately by 1 slot from the 16 slots in which the mobile station monitors the paging channel. Over time, the load was evenly distributed to all slots.

By doing so, the mobile stations operating in the slot mode all monitor the paging channel in the same situation, so that the paging channel can be controlled more efficiently.

Hereinafter, the operation principle of the present invention with reference to the accompanying drawings in detail as follows.

As shown in FIG. 1, the MSs have 16 slot periods when slot cycle index = 0, 32 slot periods when slot cycle index = 1, and slot cycle index = 3 according to the slot cycle index value among 2048 slots of all slots of the paging channel. Is operated in 64 slot cycles and the reference cycle is operated in multiples of 16 slots.

As such, the purpose of allowing the mobile stations to operate in the slot mode has caused a problem of limiting the use of the terminal used during the mobile phone due to the short battery holding time of the mobile phone, which has been the most problematic in the analog system up to now. Therefore, in the CDMA (PCS) system, the mobile station and the base station use the same algorithm, and the mobile station and the base station use the same algorithm to wake up the specific time slot from the base station to process the message and sleep until the next cycle. By adding, we solved the battery problem which was a big problem in the existing analog system.

In the present invention, a method of distributing overhead messages at regular slot intervals as shown in FIG. 4 in order to prevent a mobile station from being able to tune to a specific slot generated by putting a large load on a specific slot in order to perform this function properly. Was used.

In addition, when only overhead distribution is used, since the slot in which the overhead message is transmitted moves in the same manner as the period for monitoring the paging channel according to the slot cycle index of the mobile stations, the same slot is continuously loaded as shown in FIG. 3. In order to prevent this, as shown in FIG. 5, the overhead message transmission period is adjusted to 1.2 seconds so that the operation of the overhead message transmission period and the slot period of the paging channel monitored by the mobile station operating in the slot mode are alternately performed by one slot.

The present invention operating as described above, by first distributing the six overhead messages in a certain interval (2 slots) to reduce the phenomenon of being crowded in a particular slot by distributing an excessive load on a particular slot to multiple slots Slotted messages can be sent for the first message sent in a slot so that messages sent to each mobile station can be better sent.

Secondly, by changing the overhead message transmission period to 1.2 seconds, the mobile station differs from the period for monitoring the paging channel so that overhead messages transmitted in a distributed manner are repeatedly transmitted in the same slot. This one-slot stagger caused an even load on the entire paging channel's slots.

Therefore, all mobile stations tuned to each slot monitor the system under the same conditions, thereby making it possible for mobile stations operating in slot mode to prevent inability to receive calls in a particular slot.

Claims (1)

A method for distributing overhead messages and changing transmission periods transmitted from a base station to mobile stations operating in slot mode, Distributing an overhead message transmitted from the base station at predetermined slot intervals (2 slots) and transmitting the same; Always transmitting a slotted page message at the beginning of the predetermined slot; Adjusting the transmitted overhead message transmission period to 1.2 seconds so that the overhead message transmission period is transmitted in a period of 16 slots and 1 slot alternately between 16 slots, which is a period of a paging channel monitored by mobile stations operating in a slot mode. Efficient paging channel control method by overhead message distribution and transmission period change.

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