KR20080070121A - Method for controlling of mass call in mobile communication system - Google Patents

Abstract

A method for controlling the call congestion in a mobile communication system is provided to enhance the transmission success rate by retrying the transmission to another adjacent base station when the transmission has failed. An MS(Mobile Station) attempts the transmission(S201). Concretely, the MS creates a first PN code from a first channel, and compares a pilot channel received from a base station(BTS1) thereto, and obtains the pilot channel having the largest energy. And the MS obtains a synchronization channel to be synchronized to the base station. If a user requests the transmission, the MS connects to the base station by obtaining an access channel. When the MS is connected to the base station, the base station requires resource assignment to a BSC(Base Station Controller)(S203). At this time, if the connection capacity is saturated, the BSC releases the call by informing the base station about the fact that there is no resource to be assigned any more(S205). The BTS transmits a call release requirement message to the MS to report the failure of the transmission, and simultaneously requires retrying of the transmission through the other base station(S207). The MS resets the connection to different adjacent base station(S209), and retries the transmission to the reconnected base station(S211).

Description

Call congestion control method in mobile communication system {Method for Controlling of Mass Call in Mobile Communication System}

1 is a view for explaining a problem due to a call congestion when attempting a general call;

2 is a flowchart illustrating a call congestion control method according to the present invention;

3 is a flowchart illustrating a process for resetting a connection of the mobile communication terminal illustrated in FIG. 2.

<Description of the symbols for the main parts of the drawings>

MS: mobile communication terminal BTS: base station

BSC: Base Station Controller

The present invention relates to a call congestion control method, and more particularly to a call congestion control method in a mobile communication system.

In a mobile communication system, when a mobile communication terminal attempts to make a call, the base station allocates a channel to the mobile communication terminal through a base station controller, and then the called party number transmitted when the mobile communication terminal attempts to transmit is transmitted to the calling exchange. do. The calling exchange acquires routing information to the called exchange through the home location register, and call establishment is made between the calling exchange and the called exchange through the obtained routing information. Thereafter, the called exchange exchanges the paging signal to the called terminal, and when the called party responds, a voice call is made between the calling party and the called party.

However, when excessive users are connected to a specific base station in such a transmission process, a shortage of channel channel elements or codes (Wash code or scrambling code) may occur, and when such resource shortage occurs, the transmission process may be successfully performed. The call is released.

1 is a diagram illustrating a problem caused by call congestion during a general call attempt.

As shown, as the mobile communication terminal (MS) attempts to make a call (S101), the base station (BTS) requests a resource allocation to the base station controller (BSC) (S103).

However, when the channel element or the code to be allocated is insufficient due to the call congestion of the base station, the base station controller (BSC) does not give the channel allocation information to the base station (BTS), and transmits a call release request signal (Slease) (S105). Accordingly, the base station (BTS) reports that the transmission failed with the call release request signal (Release) to the mobile communication terminal (MS) (S107).

In this case, the mobile communication terminal (MS) user retrying the transmission because the transmission failed, but until the resource shortage problem is resolved, the above-mentioned transmission failure process (S109-S115) is vicious, and accordingly There is a problem that the service satisfaction is lowered.

The present invention has been made to solve the above-mentioned problems, when the mobile communication terminal attempts to make a call to a base station that lacks resources, and when the call fails, the transmission success rate can be improved by retrying the call to another base station. There is a technical problem to provide a method of controlling the congestion.

Call congestion control method according to an embodiment of the present invention for achieving the above-described technical problem, the first step according to the mobile communication terminal originating attempt, the first base station to request the resource allocation to the base station controller; A second step of checking whether there is a resource to be allocated in the base station controller and performing transmission processing when there is a resource to be allocated; A third step of checking whether there is a resource to be allocated by the base station controller and requesting a call release to the first base station when the resource to be allocated is insufficient; A fourth step of transmitting, by the first base station, a call release request message and an origination failure message to the mobile communication terminal, and transmitting a switch and retry request message to an adjacent base station; And a fifth step of the selected neighboring base station performing outgoing processing as the mobile communication terminal selects any one of the neighboring base stations to switch access and attempt to make a call.

In addition, the call congestion control method according to another embodiment of the present invention, the first step in accordance with the mobile communication terminal originating attempt, the first base station to request the resource allocation to the base station controller; A second step of checking whether there is a resource to be allocated in the base station controller and performing transmission processing when there is a resource to be allocated; A third step of checking whether there is a resource to be allocated by the base station controller and requesting a call release to the first base station when the resource to be allocated is insufficient; A fourth step of transmitting, by the first base station, a call release request message and an origination failure message to the mobile communication terminal, and including the ID of the neighboring base station in the switch to the neighboring base station and the retrying call request message; And a fifth step of performing, by the neighboring base station, the originating process as the mobile communication terminal attempts to make a call with reference to the neighbor base station ID.

In addition, the call congestion control method according to another embodiment of the present invention comprises a first step of the mobile communication terminal attempts to make a call; A second step of receiving, by the mobile communication terminal, a call release request message and an origination failure message from a first base station that has received an originating attempt of the mobile communication terminal, and receiving a switch and call retry request message from an adjacent base station; A third step of the mobile communication terminal searching for a neighbor base station list and selecting a second base station having the best signal level among the neighbor base stations; And a fourth step of attempting to transmit to the second base station.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

2 is a flowchart illustrating a call congestion control method according to an embodiment of the present invention.

First, a mobile communication terminal (MS) user attempts to make a call (S201). More specifically, the mobile communication terminal (MS) generates its own primary PN code in the primary channel (primary channel) before attempting to make a continuous comparison with the pilot channel received from the base station (BTS1), the received value And energy is calculated to obtain the channel with the largest energy as a pilot channel. When the pilot channel is obtained, the mobile communication terminal MS acquires a synchronization channel to synchronize with the base station BTS1. When the user requests the call, the mobile communication terminal MS acquires an access channel and accesses the base station BTS1.

In this way, when the mobile communication terminal MS is connected to the base station BTS1, the base station BTS1 requests resource allocation to the base station controller BSC (S203). At this time, if the mobile communication terminal access capacity is saturated to the base station BTS1, that is, in a call congestion state, the base station controller BSC no longer has resources (channel element or code) to be allocated to the base station BTS1. Notify to release the call (S205).

Accordingly, the base station BTS1 reports a call release request by sending a call release request message (Release) to the mobile communication terminal (MS), and requests to switch to another adjacent base station to retry the call ( S207). Here, the switch request message to the other base station may be included in the call release request message transmitted by the base station BTS1 to the mobile communication terminal MS and transmitted.

Then, the mobile communication terminal MS resets the connection to another neighboring base station BTS2 (S209) and retries transmission to the reconnected base station BTS2 (S211).

In order to reestablish connection with another base station BTS2, the mobile communication terminal MS obtains a secondary PN code, synchronizes with another base station BTS2, and then accesses it through an access channel. 3 is shown.

FIG. 3 is a flowchart for explaining a connection resetting process illustrated in FIG. 2.

In order to prepare for handoff, the mobile communication terminal stores neighbor base station information, that is, PN code of a neighbor base station, which is updated at a specified period. Therefore, when the base station BTS1 includes the switch request message to the other base station in the call release request message, the mobile communication terminal searches the neighbor base station list (S301), and selects the base station having the best signal level among the neighbor base stations. (S303).

Subsequently, the mobile communication terminal MS acquires a synchronization channel to synchronize with the base station BTS2, and acquires system information including a PN code offset, access channel information, transmission power, etc. from the base station BTS2 (S307). Based on this, the access point is connected to the base station BTS2.

By this process, after the mobile communication terminal MS reestablishes a connection to the base station BTS2, the mobile communication terminal MS acquires an access channel and attempts to transmit to the base station BTS2.

Now, the base station BTS2 receiving the origination request message of the mobile communication terminal MS requests a resource allocation to the base station controller BSC, and if the base station controller BSC has resources to allocate, normal transmission processing is performed. do.

On the other hand, when there is not enough resources to be allocated from the base station controller BSC to the base station BTS2, the processes of steps S205 to S211 are performed.

Recently, as the demand for base stations increases, the area of 2 to 3 PNs is increasing instead of a single PN. Therefore, when resources for a specific base station are insufficient, a mobile communication terminal can access enough neighboring base stations.

In the above description, the mobile communication terminal MS selects one of the neighbor base stations and retries the call according to the request of the base station BTS1. However, the present invention is not limited thereto, and the base station BTS1 performs the mobile communication. It is also possible to transmit a neighbor base station ID to be reconnected when transmitting a switch and call retry request message from a neighbor base station to the terminal.

In this case, the mobile communication terminal retries transmission to the corresponding base station with reference to the neighbor base station ID received from the base station BTS1. That is, the mobile communication terminal synchronizes by acquiring a synchronization channel from the neighboring base station, and acquires system information including a PN code offset, access channel information, transmission power, etc. from the neighboring base station, and then obtains the system information from the neighboring base station. You will be connected.

In this case, the process of selecting a base station to be reconnected in the mobile communication terminal can be omitted, it is possible to shorten the time required until the re-send after the transmission failure.

As such, those skilled in the art will appreciate that the present invention can be implemented in other specific forms without changing the technical spirit or essential features thereof. Therefore, the above-described embodiments are to be understood as illustrative in all respects and not as restrictive. The scope of the present invention is shown by the following claims rather than the detailed description, and all changes or modifications derived from the meaning and scope of the claims and their equivalents should be construed as being included in the scope of the present invention. do.

According to the present invention, the call success rate can be improved by switching to another base station adjacent to the base station during the call congestion, thereby improving service satisfaction.

In addition, when the call of the particular base station is congested, the base station notifies the mobile communication terminal of the neighboring base station ID to be reconnected and retries the call to the neighboring base station, thereby reducing the time required for retrying after the failed transmission.

Claims (9)

A first step of requesting resource allocation to a base station controller by a first base station according to an originating attempt of the mobile communication terminal; A second step of checking whether there is a resource to be allocated in the base station controller and performing transmission processing when there is a resource to be allocated; A third step of checking whether there is a resource to be allocated by the base station controller and requesting a call release to the first base station when the resource to be allocated is insufficient; A fourth step of transmitting, by the first base station, a call release request message and an origination failure message to the mobile communication terminal, and transmitting a switch and retry request message to an adjacent base station; And A fifth step of the selected neighboring base station performing outgoing processing as the mobile communication terminal selects one of the neighboring base stations to switch access and attempts to make a call; Call congestion control method in a mobile communication system comprising a. The method of claim 1, Method for controlling congestion in the mobile communication system, characterized in that for transmitting to the neighboring base station and the transmission retry request message included in the call release request message. The method of claim 1, In the first step, the mobile communication terminal attempts to make a call using the primary PN code, and after the fourth step, the mobile communication terminal retries the call using the secondary PN code. Call congestion control method in a mobile communication system. The method of claim 1, The fifth step may include: a fifth step of the mobile communication terminal searching for a neighbor base station list and selecting a second base station having the best signal level among the neighbor base stations; Step 5-2 of acquiring a synchronization channel from the second base station; A fifth step of acquiring system information from the second base station and accessing the second base station; And A fifth step of performing, by the second base station, an originating process according to the originating request of the mobile communication terminal; Call congestion control method in a mobile communication system comprising a. A first step of requesting resource allocation to a base station controller by a first base station according to an originating attempt of the mobile communication terminal; A second step of checking whether there is a resource to be allocated in the base station controller and performing transmission processing when there is a resource to be allocated; A third step of checking whether there is a resource to be allocated by the base station controller and requesting a call release to the first base station when the resource to be allocated is insufficient; A fourth step of transmitting, by the first base station, a call release request message and an origination failure message to the mobile communication terminal, and including the ID of the neighboring base station in the switch to the neighboring base station and the retrying call request message; And A fifth step of performing, by the neighboring base station, the originating process as the mobile communication terminal attempts to make a call with reference to the neighboring base station ID; Call congestion control method in a mobile communication system comprising a. The method of claim 5, wherein Method for controlling congestion in the mobile communication system, characterized in that the switch to the neighboring base station including the ID of the neighboring base station and the transmission retry request message included in the call release request message. The method of claim 5, wherein The fifth step may include: a fifth step of the mobile communication terminal obtaining a synchronization channel from the neighbor base station; A step 5-2 of acquiring system information from the neighbor base station and accessing the neighbor base station; And A fifth step of performing, by the neighboring base station, the originating process according to the originating request of the mobile communication terminal; Call congestion control method in a mobile communication system comprising a. A first step of the mobile communication terminal attempting to make a call; A second step of receiving, by the mobile communication terminal, a call release request message and an origination failure message from a first base station that has received an originating attempt of the mobile communication terminal, and receiving a switch and call retry request message from an adjacent base station; A third step of the mobile communication terminal searching for a neighbor base station list and selecting a second base station having the best signal level among the neighbor base stations; And A fourth step of attempting to make a call to the second base station; Call congestion control method in a mobile communication system comprising a. The method of claim 8, The fourth step may include a step 4-1 of obtaining a synchronization channel from the second base station; A step 4-2 of acquiring system information from the second base station and accessing the second base station; And A step 4-3 of the second base station performing the call processing according to the call request from the mobile communication terminal; Call congestion control method in a mobile communication system comprising a.

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