KR20000033356A - Method for performing transmitting signal of mobile communication terminal using access channel selection range allocation by subscriber priority - Google Patents

Abstract

1. TECHNICAL FIELD OF THE INVENTION

The present invention relates to a mobile terminal call signal processing method using an access channel selection range allocation according to subscriber priority.

2. The technical problem to be solved by the invention

An object of the present invention is to provide a method for processing a mobile terminal call signal by differentially allocating a used access channel range to process mobile terminal call signals.

3. Summary of the Solution of the Invention

The present invention provides a mobile terminal comprising: a first step of a mobile terminal storing a usage access channel range value according to a subscriber priority at the time of subscription application, and a home location register registering the mobile terminal to store the usage access channel range value; A second step of the mobile terminal turning on the power to register the location of the mobile terminal in the mobile communication network, and retrieving an access channel range value in the mobile terminal; And a third step in which the mobile terminal transmits an outgoing signal to the base station according to the found use access channel range value, receives a traffic channel assignment message from the base station, sends a confirmation message to obtain a traffic channel, and performs a call.

4. Important uses of the invention

The present invention is used in a mobile communication system.

Description

Mobile terminal call signal processing using allocation of access channel selection range according to subscriber priority

The present invention relates to a mobile terminal call signal processing method using an access channel selection range allocation according to subscriber priority, and a computer readable recording medium recording a program for realizing the same.

1 is a flowchart of a conventional mobile terminal call signal processing method.

As shown in the figure, set variable n to '1', set variable m to '1', set access probe variable P to '15' and set access probe sequence variable Q to '15' A usage access channel range is set (101), an nth access probe sequence (Q) is set (102), and the mobile terminal output (Pt) is set as an initial output (Pt_int) (103).

Thereafter, the mobile terminal selects any use access channel within the set use access channel range (104), transmits an outgoing signal to the base station using the m-th access probe P on the selected use access channel (105), If the mobile terminal receives the traffic channel assignment message from the base station and transmits an acknowledgment message (106) and transmits the acknowledgment message, the mobile terminal acquires a traffic channel and performs a call (107).

On the other hand, if the mobile terminal receives the traffic channel assignment message from the base station and transmits an acknowledgment message (106) and fails to transmit the acknowledgment message, the mobile terminal outputs the mobile terminal output Pt to the initial output Pt_int by a predetermined output step. Increase by (PWR_STEP), increase m by '1' (108), determine if the value of m is less than the access probe variable P + '1' (109) and move if the value of m is less than the access probe variable P + '1' The terminal repeats the process of selecting an arbitrary use access channel within the set use access channel range, and if n is not less than the access probe variable P + '1', n is increased by '1' (110), where n is the access probe If n is smaller than the access probe sequence variable Q + '1', the process of setting the access probe sequence n is repeated.

As described above, in the conventional mobile communication system, the use access channel range value is a unique parameter and a fixed value is transmitted to all mobile terminals in common through the paging channel, and all terminals of the mobile communication system are in the same use access channel range. Transmits an outgoing signal using an arbitrary access channel.

Therefore, conventionally, even if the transmission output of a mobile terminal transmitting an outgoing signal in the mobile communication system is sufficiently large, since the outgoing signal transmitted from a specific mobile terminal uses the same time slot on the same access channel that another mobile terminal tries, There was a problem in that the collision was reduced to reduce the probability of success.

Accordingly, the present invention devised to solve the above-described problem, the allocation of the access channel range by differential allocation according to the priority of the subscriber in order to prevent the collision between outgoing calls in the mobile communication system to increase the probability of successful calls To provide a mobile terminal call signal processing method using an access channel selection range allocation according to the priority of a subscriber to process the mobile terminal call signal within the used access channel range and a computer-readable recording medium recording a program for realizing the same. The purpose is.

1 is a flowchart of a conventional mobile terminal call signal processing method.

2 is an exemplary configuration diagram of a mobile communication system to which the present invention is applied.

3 is an explanatory diagram of an access probe sequence used in the present invention.

4 is an explanatory diagram for allocating an access channel selection range according to subscriber priority used in the present invention.

5 is a flowchart illustrating an embodiment of a method for processing mobile terminal call signaling using allocation of an access channel selection range according to subscriber priority according to the present invention.

6 is a flowchart illustrating a mobile terminal call signal processing method using access channel selection range allocation according to subscriber priority according to the present invention.

* Explanation of symbols for the main parts of the drawings

201: home location register 202: mobile communication switch

203: Visitor location register 204: Base station controller

205: base station 206: mobile terminal

The method of the present invention for achieving the above object, in the mobile terminal outgoing signal processing method applied to the mobile communication system, the mobile terminal at the time of subscription application stores the access access channel range value according to the priority of the subscriber, the home location registration Registering, by the device, the mobile terminal to store a used access channel range value; A second step of the mobile terminal turning on the power to register the location of the mobile terminal in the mobile communication network and retrieving a usage access channel range value in the mobile terminal; And a third step of the mobile terminal transmitting an outgoing signal to a base station according to the retrieved access channel range value, receiving a traffic channel assignment message from the base station, transmitting a confirmation message to obtain a traffic channel, and performing a call. do.

In addition, the method of the present invention is a mobile terminal outgoing signal processing method applied to a mobile communication system, wherein the home location register registers the mobile terminal at the time of subscription application, and stores the use access channel range value according to subscriber priority. Stage 1; A second step of the mobile terminal turning on power to register the location of the mobile terminal in a mobile communication network and receiving a usage access channel range value from the home location register through a paging channel; And a third step in which the mobile terminal transmits an outgoing signal to a base station according to the received access channel range value, receives a traffic channel assignment message from the base station, sends a confirmation message to obtain a traffic channel, and performs a call. Include.

The present invention also provides a mobile communication system having a high-capacity processor, wherein a mobile terminal stores a usage access channel range value according to subscriber priority at the time of subscription application, and a home location register registers the mobile terminal to use the mobile access channel range. A first function of storing a value; A second function of powering on the mobile terminal to register the location of the mobile terminal with a mobile communication network and to retrieve a value of an access channel range used in the mobile terminal; And a third function in which the mobile terminal transmits an outgoing signal to a base station according to the found use access channel range value, receives a traffic channel assignment message from the base station, sends a confirmation message to obtain a traffic channel, and performs a call. A computer readable recording medium having a program recorded thereon is provided.

In addition, the present invention provides a mobile communication system having a large capacity processor, comprising: a first function of registering a mobile terminal with a home location register at the time of subscribing and storing a usage access channel range value based on subscriber priority; A second function of powering on the mobile terminal to register the location of the mobile terminal with a mobile communication network and to receive a usage access channel range value from the home location register via a paging channel; And a third function in which the mobile terminal transmits an outgoing signal to a base station according to the received use access channel range value, receives a traffic channel assignment message from the base station, sends a confirmation message to obtain a traffic channel, and performs a call. A computer readable recording medium having recorded thereon a program for realization is provided.

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

2 is an exemplary configuration diagram of a mobile communication system to which the present invention is applied, and includes a home location register (HLR) 201, a mobile switching center (MSC) 202, and a visitor location register (Visited). A location register (VLR) 203, a base station controller (BSC) 204, a base station (BS) 205, and a mobile station (MS) 206.

As shown in the figure, the home location register 201 has subscriber specific information as a home register of the subscriber area, and the mobile communication exchange 202 is connected to the home location register 201 of the subscriber area.

The visitor location register 203 stores subscriber information and temporary information in the area visited by the mobile terminal 206, and the mobile communication exchange 202 is connected with the visitor location register 203.

The base station controller 204 is connected with the mobile communication exchange 202, and the base station controller 204 controls the base station 205 between the mobile communication exchange 203 and the base station 205.

2 is an explanatory diagram of an access probe sequence used in the present invention.

As shown in the figure, reference numeral "301" denotes a first access probe sequence, reference numeral "302" denotes a second access probe sequence, and reference numeral "303" denotes an nth access probe sequence. And reference numeral "304" denotes an output step PWR_STEP of the mobile terminal output, reference numeral "305" denotes an access probe, reference numeral "306" denotes a random time, and reference numeral "307". "Indicates an access channel slot.

4 is an explanatory diagram for allocating an access channel selection range according to subscriber priority used in the present invention.

As shown in the figure, reference numerals “401” and “402” in the overlapping allocation scheme in FIG. 4 indicate that an access channel usage range may be allocated to a high priority subscriber to use a full range of access channels. , Reference numerals "403" and "404" of the split allocation scheme indicate that a usage range may be allocated by dividing a use access channel of a general subscriber (priority 2 subscriber) and an advanced subscriber (priority 1 subscriber).

In addition, the overlapping allocation method selects access channels within a channel range selectable by a general subscriber (priority 2 subscriber) and a channel range selectable only by a priority 1 subscriber, thereby increasing the channel selection range of a high priority subscriber. It is relatively wider, reducing the probability of collision with the originating signal sent from another terminal while transmitting the originating signal to the base station.

On the other hand, the split allocation scheme distinguishes between available priority 2 subscribers and available channels, so that the probability of collision during transmission of messages of priority 1 subscribers with a relatively small number of subscribers is transmitted. To increase the rate of success.

As described above, the overlapping allocation scheme and the split allocation scheme may change and adjust the channel selection range of subscribers in the system in order to guarantee a constant call success rate according to subscriber differential.

5 is a flowchart illustrating a method for processing a mobile terminal call signal using an access channel selection range allocation according to a subscriber priority according to the present invention, and illustrates a method for processing a mobile terminal call signal using an access channel selection range according to a static allocation method. Indicates.

As shown in the figure, upon subscription application, the mobile terminal stores the usage access channel range value according to subscriber priority (501), the home location register registers the mobile terminal, and stores the usage access channel range value (502). ).

Thereafter, the mobile terminal turns on the power (503), the mobile terminal registers the location of the mobile terminal in the mobile communication network (504), and the mobile terminal retrieves the used access channel range value in the mobile terminal (505). .

Thereafter, the mobile terminal attempts to make an outgoing signal, sets n to '1' (506), attempts an nth access probe sequence (507), sets m to '1' (508), and uses an access channel Select any access channel in range (509).

Subsequently, the mobile station transmits an outgoing signal to the base station using the m-th access probe on the selected access channel (510), receives a traffic channel assignment message from the base station, determines whether to transmit an acknowledgment message (511), and confirms the confirmation message. If so, the mobile station acquires a traffic channel and performs a call (512).

On the other hand, by receiving a traffic channel assignment message from the base station to determine whether to send an acknowledgment message (511), if it fails to send an acknowledgment message m is increased to '1' (513), it is determined whether m is less than the specified access probe value If m is less than the specified access probe value, the process is repeated from the step of selecting any access channel within the used access channel range, and if n is not less than the specified access probe value, n is increased to '1' (515), If n is smaller than the designated access probe sequence value (516), the process of attempting the nth access probe sequence is repeated.

In the static allocation scheme for the use access channel range as described above, in the mobile communication system, a user number, international mobile station identity (hereinafter referred to as "IMSI"), encryption key subscriber, etc., when a user applies for subscription, etc. Will assign eigenvalues of. These unique values are stored in a home location register or an authentication center, depending on the nature, and the same values are stored in the subscriber terminal.

In addition, a unique value is inputted to the subscriber station when the subscriber accesses the access access channel range value according to the priority of the subscriber, and the same value is stored in the home location register so that the mobile terminal can enter the used access channel range when the mobile station transmits an outgoing call to the base station. An access probe is attempted by randomly selecting one channel from the access channel.

6 is a flowchart illustrating a method for processing a mobile terminal call signal using an access channel selection range allocation according to a subscriber priority according to the present invention, and illustrates a method for processing a mobile terminal call signal using an access channel selection range according to a dynamic allocation method. Indicates.

As shown in the figure, upon registration, the home location register registers the mobile terminal to store the usage access channel range value according to subscriber priority (601), the mobile terminal turns on (602), The mobile terminal registers the location of the mobile terminal with the mobile communication network (603), and the mobile terminal receives a usage access channel range value from the home location register via the paging channel (604).

Subsequently, the mobile terminal attempts to make an outgoing signal, sets n to '1' (605), attempts an nth access probe sequence (606), sets m to '1' (607), and uses an access channel. Select any access channel in range (608).

Subsequently, the mobile station transmits an outgoing signal to the base station using the m-th access probe on the selected access channel (609), receives a traffic channel assignment message from the base station, determines whether to transmit an acknowledgment message (610), and confirms the confirmation message. If so, the mobile station acquires a traffic channel and performs a call (611).

On the other hand, it receives a traffic channel assignment message from the base station to determine whether to send an acknowledgment message (610), if it fails to send an acknowledgment message, increases m '1' (612), and determines whether m is less than the specified access probe value If m is less than the specified access probe value, the process is repeated from the step of selecting any access channel within the used access channel range, and if n is not less than the specified access probe value, n is increased to '1' (614), The process of attempting the nth access probe sequence is repeatedly performed by checking whether n is smaller than the designated access probe sequence value (615).

As described above, the dynamic allocation scheme for the usage access channel range stores the usage access channel range value as a subscriber-specific value in the home location register at the same time as the terminal registration at the time of subscription, and the home location register is a unique parameter such as IMSI, home location register ID, and the like. Used together to store access channel range values.

In addition, the usage access channel range value according to the service usage priority of the subscriber is registered and managed in the home location register to designate an access probe sequence that the mobile terminal attempts to acquire the access channel through the visitor location register in the region. give.

In addition, when the registered mobile terminal enters the mobile communication service area, the mobile communication system performs a terminal registration procedure. At this time, the base station transmits a message to the specific terminal together with the overhead message and the mobile communication system parameter message received from the mobile communication system. The unique values are transmitted, and unique values for a specific terminal include IMSI, Temporary Mobile Station Identity (hereinafter referred to as "TMSI"), and the like.

The transmission of the use access channel range value through the paging channel attempts a sequence by the use access channel range value together with the TMSI value when performing the mobile terminal registration procedure.

The present invention described above is capable of various substitutions, modifications, and changes without departing from the spirit of the present invention for those skilled in the art to which the present invention pertains, and the above-described embodiments and accompanying It is not limited to the drawing.

As described above, according to the present invention, when the mobile terminal attempts to make a call from a mobile terminal, the traffic access area may be severely allocated in the mobile communication service area, or an athletic competition, When the mobile communication subscribers transmit the calling signal through the subscriber mobile terminal in a temporarily concentrated area due to an event event, etc., it is possible to increase the calling signal processing probability of the subscriber having a high priority.

Claims (6)

A mobile terminal call signal processing method applied to a mobile communication system, A first step of storing, by a mobile terminal, a usage access channel range value according to a subscriber priority, and a home location register registering the mobile terminal to store the usage access channel range value when a subscription request is made; A second step of the mobile terminal turning on the power to register the location of the mobile terminal in the mobile communication network and retrieving a usage access channel range value in the mobile terminal; And A third step in which the mobile terminal transmits an outgoing signal to a base station according to the found use access channel range value, receives a traffic channel assignment message from the base station, sends a confirmation message to acquire a traffic channel, and performs a call; Mobile terminal call signal processing method using the allocation of the access channel selection range according to the priority of the subscriber. The method of claim 1, The third step, A fourth step of attempting an originating signal to set n to a first predetermined value, to attempt an nth access probe sequence, to set m to a second predetermined value, and to select an arbitrary access channel within a range of used access channels ; A fifth step of transmitting an outgoing signal to the base station using an m-th access probe on the access channel selected by the mobile terminal, and determining whether to receive a traffic channel assignment message from the base station and transmit a confirmation message; A sixth step of acquiring a traffic channel by the mobile terminal and performing a call if a confirmation message is transmitted as a result of the determination of the fifth step; A seventh step of increasing m if the confirmation message has not been transmitted and determining whether m is smaller than a specified access probe value; An eighth step of repeating the process of selecting an arbitrary access channel of the fourth step if the determination result of the seventh step is smaller than a specified access probe value; And As a result of the determination of the seventh step, if it is not smaller than the designated access probe value, n is increased, and if n is smaller than the designated access probe sequence value, the process of repeatedly attempting the nth access probe sequence of the fourth step is repeated. Ninth step Mobile terminal call signal processing method using the allocation of the access channel selection range according to the priority of the subscriber. In a mobile communication system having a large capacity processor, A first function of storing, by a mobile terminal, a usage access channel range value according to a subscriber priority in a subscription application, and a home location register registering the mobile terminal to store the usage access channel range value; A second function of powering on the mobile terminal to register the location of the mobile terminal with a mobile communication network and to retrieve a value of an access channel range used in the mobile terminal; And A third function in which the mobile station transmits an outgoing signal to a base station according to the found use access channel range value, receives a traffic channel assignment message from the base station, sends a confirmation message to obtain a traffic channel, and performs a call; A computer-readable recording medium having recorded thereon a program for realizing this. A mobile terminal call signal processing method applied to a mobile communication system, A first step in which the home location register registers the mobile terminal upon the subscription request and stores the use access channel range value according to the subscriber priority; A second step of the mobile terminal turning on power to register the location of the mobile terminal in a mobile communication network and receiving a usage access channel range value from the home location register through a paging channel; And A third step in which the mobile station transmits an outgoing signal to a base station according to the received use access channel range value, receives a traffic channel assignment message from the base station, sends a confirmation message to acquire a traffic channel, and performs a call; Mobile terminal call signal processing method using the allocation of the access channel selection range according to the priority of the subscriber. The method of claim 4, wherein The third step, A fourth step of attempting an originating signal to set n to a first predetermined value, to attempt an nth access probe sequence, to set m to a second predetermined value, and to select an arbitrary access channel within a range of used access channels ; A fifth step of transmitting an outgoing signal to the base station using an m-th access probe on the access channel selected by the mobile terminal, and determining whether to receive a traffic channel assignment message from the base station and transmit a confirmation message; A sixth step of acquiring a traffic channel by the mobile terminal and performing a call if a confirmation message is transmitted as a result of the determination of the fifth step; A seventh step of increasing m if the confirmation message has not been transmitted and determining whether m is smaller than a specified access probe value; An eighth step of repeating the process of selecting an arbitrary access channel of the fourth step if the determination result of the seventh step is smaller than a specified access probe value; And As a result of the determination of the seventh step, if it is not smaller than the designated access probe value, n is increased, and if n is smaller than the designated access probe sequence value, the process of repeatedly attempting the nth access probe sequence of the fourth step is repeated. Ninth step Mobile terminal call signal processing method using the allocation of the access channel selection range according to the priority of the subscriber. In a mobile communication system having a large capacity processor, A first function of registering, by a home location register, a mobile terminal at a subscription request, and storing use access channel range values according to subscriber priorities; A second function of powering on the mobile terminal to register the location of the mobile terminal with a mobile communication network and to receive a usage access channel range value from the home location register via a paging channel; And A third function of transmitting a call to the base station according to the received access channel range value, receiving a traffic channel assignment message from the base station, sending a confirmation message to obtain a traffic channel, and performing a call; A computer-readable recording medium having recorded thereon a program for realizing this.