KR100363945B1 - Method for distributing call in a base station of IMT-2000 - Google Patents

Abstract

The present invention provides a plurality of control station processors assigned to each base station, a plurality of selector elements assigned to each control station processor, and No. 7. A call distribution method of a mobile communication system control station comprising a signal processing processor and an ATM switch for signal transmission therebetween, wherein the control station processor is allocated to each base station, and a dedicated base station process is generated in each control station processor. ; When the call request message sent from the mobile terminal is delivered to the first base station dedicated process of the first control station processor through the radio access channel of the first base station, the first base station dedicated process is No. Requesting a mobile radio call service to a mobile switch through a signal processing processor; No. 7 The signal processing processor is configured to establish a number between the mobile switch and the first base station dedicated process. Setting up a signal link; The mobile exchanger is the No. 7 After authenticating the outgoing signal received through the signal link, the wireless parameter information necessary for the outgoing signal service is obtained. Transmitting to the No. 7 signal processing processor through a 7 signal link; No. A signal processing processor updating a load table of the first control station processor and sending the radio parameter information and load table information to the first base station dedicated process; The first base station dedicated process generating a first selector dedicated process; After the dedicated first base station process allocates a traffic channel to the first base station, transmits initialization information to the assigned traffic channel, interprets the load table, and reserves an excess of first selector elements allocated to the first control station processor. Determining whether there is a selector element; If there is no excess selector element in the step, select the second control station processor and the No. 7 updating the selector element information of the load table by sending a load table update message to the signal processing processor; Transmitting, by the first base station dedicated process, radio parameter information required for an outgoing call service to a second base station dedicated process of the second control station processor; Generating, by the second base station dedicated process, a second selector dedicated process to set up an originating signal; The second selector dedicated process is set between the first base station dedicated process and the mobile switch. 7 signal link between the second base station dedicated process and the mobile switch. Requesting to change to 7 signal links; The second selector dedicated process selects a second selector element and then notifies the first base station dedicated process to establish a path between the traffic channel and the second selector element; Receiving a control signal transmitted from the mobile terminal to the second selector element through the traffic channel; And separating and transmitting the control signal to the second selector dedicated process by the second selector element.

Description

Method for distributing call in a base station of IMT-2000}

The present invention relates to a call distribution method of a mobile communication system control station using a load table built in a No.7 processor. In addition, it is possible to reduce call saturation that can be concentrated in a specific processor, and to effectively use a channel element of a base station and a selector resource of a control station. To a dispersion method.

In the related art, the control station processor dedicated to the channel element of the base station and the control station selector bank is fixed, and is responsible for processing the originating and incoming signals of the base station. That is, the control station processor that processes messages transmitted and received through the access channel and paging channel of each base station manages not only the channel element of the base station but also the selector element of the control station, and continuously controls call control such as bearer connection, call maintenance, and release. It handles everything about. Therefore, the conventional scheme requires as many selector elements as the number of channel elements of the base station. However, in this method, when the mobile terminal moves to enter a neighboring base station, that is, when the channel element currently occupied by the base station is released by the handoff, the mobile terminal can use the released channel element even though the mobile station can use the released channel element. Since the selector element corresponding to the element does not exist in the control station, it is not possible to process any more mobile terminal start and end signals. This phenomenon is caused by the soft handoff function that changes only the channel element without changing the currently assigned selector.

There is a need for a technique for enabling more mobile radio calls to mobile subscribers in a corresponding base station by using channel elements, which are idle due to soft handoff, for incoming and outgoing signals of other mobile terminals in the corresponding base station. In addition, it occurs frequently in the base stations in the area where the call originates, and the processor in charge of the base station always has the maximum number of call processes that can be allocated to the processor. In this case, the origination and reception signals of all base stations in charge of the control station processor are rejected. Therefore, there is a need for a design technique in which a call process is equally allocated to all processors in a control station, thereby preventing a call processor from biasing a specific processor.

Therefore, the present invention can reduce the call saturation that can be concentrated in a specific processor by distributing the call process to process the mobile terminal origination and incoming signals to all the processors in the control station, the base station channel element and the control station It is an object of the present invention to provide a call distribution method of a mobile communication system control station that can operate a mobile system more economically by using selector resources efficiently.

The present invention for achieving the above object is a plurality of control station processor assigned to each base station, a plurality of selector elements assigned to each control station processor, No. 7. A call distribution method of a mobile communication system control station comprising a signal processing processor and an ATM switch for signal transmission therebetween, wherein the control station processor is allocated to each base station, and a dedicated base station process is generated in each control station processor. ; When the call request message sent from the mobile terminal is delivered to the first base station dedicated process of the first control station processor through the radio access channel of the first base station, the first base station dedicated process is No. Requesting a mobile radio call service to a mobile switch through a signal processing processor; No. 7 The signal processing processor is configured to establish a number between the mobile switch and the first base station dedicated process. Setting up a signal link; The mobile exchanger is the No. 7 After authenticating the outgoing signal received through the signal link, the wireless parameter information necessary for the outgoing signal service is obtained. Transmitting to the No. 7 signal processing processor through a 7 signal link; No. A signal processing processor updating a load table of the first control station processor and sending the radio parameter information and load table information to the first base station dedicated process; The first base station dedicated process generating a first selector dedicated process; After the dedicated first base station process allocates a traffic channel to the first base station, transmits initialization information to the assigned traffic channel, interprets the load table, and reserves an excess of first selector elements allocated to the first control station processor. Determining whether there is a selector element; If there is no excess selector element in the step, select the second control station processor and the No. 7 updating the selector element information of the load table by sending a load table update message to the signal processing processor; Transmitting, by the first base station dedicated process, radio parameter information required for an outgoing call service to a second base station dedicated process of the second control station processor; Generating, by the second base station dedicated process, a second selector dedicated process to set up an originating signal; The second selector dedicated process is set between the first base station dedicated process and the mobile switch. 7 signal link between the second base station dedicated process and the mobile switch. Requesting to change to 7 signal links; The second selector dedicated process selects a second selector element and then notifies the first base station dedicated process to establish a path between the traffic channel and the second selector element; Receiving a control signal transmitted from the mobile terminal to the second selector element through the traffic channel; And separating, by the second selector element, the control signal and delivering the control signal to the second selector dedicated process.

In the present invention, a process for controlling the mobile terminal call signal is generated by dividing the dedicated base station process and the selector dedicated process. Dedicated base station processes are created one by one for each base station to process the first message that is sent and received on the access channel or paging channel of the base station, and manages the channel elements installed in the base station. The selector dedicated process is created for each mobile radio call in the selected control station processor by referring to the load table and is responsible for all call control such as bearer connection, selector resource management, call setup, maintenance, and release except initial call. . In the present invention, the selector dedicated process is determined by referring to the load table built in the No. 7 processor in the dedicated base station process, and the selector dedicated process is generated equally in all the control station processors. The load table is a table built in No.7 signal processing processor. 7 Initially, the number of selector elements allocated to each control station processor connected to the signal processing processor and the call counter of each control station processor are initialized, and the call counter of the corresponding control station processor increases each time a selector dedicated process is created. do. The information in this load table is transmitted to the base station dedicated process upon notification of No. 7 signal link establishment.

1A and 1B are flowcharts illustrating a call distribution method of a mobile communication system control station according to the present invention;

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

1A and 1B are flowcharts illustrating a call distribution method of a control system of a mobile communication system according to the present invention, which illustrates a process of selecting a control station processor to process a mobile terminal origination and arrival signal.

The radio access network of the mobile communication system to which the present invention is applied is composed of a base station and a control station. The base station is composed of a radio frequency part and a channel element, and the channel element is composed of an access channel, a paging channel, a traffic channel, and the like. The control station is the initial message receiving unit, No. 7 signal connection unit, call processing processor selection unit and call control unit. The initial message receiver receives a message transmitted / received through an access channel and a paging channel of each base station. 7 A part of a dedicated base station process that transmits a signal to a signal processing processor, and is generated for each base station in a control station processor defined in the system configuration.

No. The 7 signal processing processor (ASP) is a process for establishing No. 7 signal link of the mobile switching period with the control station processor. Initial No. 7 The signaling link is established during the mobile switching period and the base station dedicated process receiving the message on the access channel. However, after the request of the selector dedicated process, the No. 7 Signal link is the number of different selector dedicated processes and mobile exchange periods. 7 Reset to signal link.

The call processing processor selector is a part of a dedicated base station process that receives the information required for call setup received from the mobile switch through the No. 7 signal processing processor and the load table information of the control station processor, where the load table information of the control station processor It determines the control station processor to create a selector-only process by passing the control to the control station, and passes all the rights related to call control to the control station processor. It also assigns the corresponding base station channel element.

The call control unit (selector dedicated process) is a process generated by the call processing processor selection unit. The call control unit (selector dedicated process) sets the base station dedicated process and the mobile switching period No. 7 signal link that were initially set. 7 No. to change to signal link. 7 Notify the signal processing processor, and then perform all call control procedures such as selector allocation, bearer connection, call maintenance / release, and handover. That is, the CAI match between the mobile station and the base station and the A match between the base station and the wired section of the mobile switching period are controlled using the IS-95C protocol and 634 A +, respectively.

The present invention utilizes a selector element of a control station and a channel element of a base station to efficiently utilize two types of call processing processes generated in the control station processor (ACP) in order to maintain a uniform load on the processor of the control station. It is divided into a dedicated process and a selector dedicated process). A base station dedicated process (BCPnn) is created for each base station in the control station processor (ACP) assigned to each base station group, and access channel, paging channel signal and CE resource management of the base station and initial setting of the signal channel path with the mobile exchange, etc. Is in charge of. Selector Dedicated Process (ACPnn) is a call process that is generated one by one whenever a mobile terminal originates and receives an incoming signal, and manages selector element (SE) resource connection, ATM switch connection / disconnection, handover, and message exchange with base station and mobile exchange. It is the actual call control process in charge.

Then, the present invention will be described in detail step by step as follows.

In the first step, a dedicated base station process is generated one by one in a control station processor (ACP) allocated for each base station. The originating call request message is transmitted from the mobile terminal located in the base station BTS00 to the base station dedicated process ACP00 which is dedicated to the base station BTS00 via the radio access channel.

In the second step, the base station dedicated process (ACP00) requests the mobile wireless call service to the mobile exchange through the No. 7 signal processing processor (ASP).

In the third step, the No. 7 signal processing processor establishes a No. 7 signal link between the mobile switch and the corresponding base station dedicated process.

In the fourth step, the mobile exchange authenticates the outgoing signal received through the set No.7 signal link and sets radio parameter information necessary for the outgoing signal service. 7 Transmit to No.7 signal processing processor through signal link.

Step 5, No. received the message sent from the mobile switching center. 7 The signal processing processor updates the load table so that a selector dedicated process is generated in the control station processor in which the first base station dedicated process is located, and updates the radio parameter information and the load table information received from the mobile switching center. To send.

Step 6, the base station dedicated process that receives the message through the No. 7 signal processing processor allocates the traffic channel element of the base station and transmits radio channel information to the traffic channel element. Also, if the current processor is overloaded by interpreting the load table, that is, if there is no extra selector element in the control station processor, another control station processor to control the call is selected, and the load table is assigned to the No.7 signal processing processor. Send an update message.

Step 7, when the No.7 signal processing processor receives the load table update message from the base station dedicated process, it updates the information recorded in the load table in the fifth step.

Radio parameter information (mobile terminal unique number, VP / VC, cell identifier, traffic channel element allocation information, etc.) necessary for setting up an outgoing call with ACPn (base station dedicated outmost process) of the control station processor selected in step 8 and 6; Send.

Step 9, the ACPn (base station dedicated process) generates a selector dedicated process for controlling the originating signal, wherein the generated selector dedicated process is set to a No. 7 Signal link is the No. of the mobile exchange period with the ACPn (base station dedicated process). 7 Requires a change to the signal link.

In step 10, the selector dedicated process selects the selector element SE and notifies the corresponding base station dedicated process.

In the eleventh step, a control signal transmitted from the mobile terminal through the selected selector element is received by the selector element.

In a twelfth step, the selector element receiving the control signal separates the control signal and transmits the control signal to the selector dedicated process.

Subsequently, a series of control signals required for call setup are transferred to the traffic channel ↔ ATM switch ↔ selector element ↔ selector dedicated process ↔ No. of the mobile terminal ↔ base station. 7 Signal Processing Processor ↔ mobile exchange Sends and receives between mobile terminal and mobile exchange according to the order, and traffic is transmitted and received in the order of traffic channel ↔ ATM switch ↔ selector element ↔ mobile exchange of mobile terminal ↔ base station.

That is, the present invention receives the call request message through the corresponding access channel in the base station dedicated process (step 11), A mobile radio call service is requested to the mobile switch through a signal processing processor (step 12). No. The 7 signal processing processor establishes No. 7 signal link between the mobile switch and the base station dedicated process (step 13). After that, the mobile switch authenticates the mobile station and transmits the information necessary for the radio call service to the No. 7 signal processing processor (step 14). The load table constructed in the signal processing processor No. 7 is updated, and the information received from the mobile switching center and the load table information are transmitted (step 15). The base station dedicated process then generates a selector dedicated process (step 16). The traffic channel of the base station is allocated and the load table is analyzed (step 17) to check whether there is an extra selector element allocated to the current control station processor (step 18). If there is no spare selector element, another control station processor is selected (step 19), the load table built in No. 7 signal processing processor is updated (step 20), and the calling signal service is performed by the base station dedicated process of the selected control station processor. Transmits the necessary radio information (step 21) and generates a selector dedicated process in the control station processor (step 22). However, if there is an extra selector element in the current control station processor, the current control station processor is selected (step 27) and a dedicated selector process is created in the selected control station processor (step 22). Thereafter, a change in the signal link No. 7 set initially is requested (step 23), and a selector element is selected (step 24). The control signal transmitted from the mobile terminal is received through the traffic channel to the selected selector element (step 25). The control signal received by the selector element is transmitted to the selector dedicated process (step 26).

The present invention described above can be variously substituted, modified and changed within the scope without departing from the technical spirit of the present invention for those skilled in the art to which the present invention pertains and the accompanying drawings. It is not limited to.

The present invention relates to a method for determining a processor for allocating a channel element of a base station while a processor for allocating a control station selector element in consideration of a soft handoff or a load of a control station processor. The selector element of the control station can be used efficiently, and as a result can serve more mobile subscribers. In addition, since a large number of calls are biased to a specific control station processor, the call can be stably maintained. Therefore, the economic effect is expected as an algorithm that can easily maintain the mobile system and accommodate a large number of mobile subscribers.

Claims (3)

A plurality of control station processors assigned to each base station, a plurality of selector elements assigned to each control station processor, No. 7. A call distribution method of a mobile communication system control station comprising a signal processing processor and an ATM switch for signal transmission therebetween. a) assigning a control station processor for each base station, and generating a dedicated base station process for each control station processor; b) if the call request message originating from the mobile terminal is delivered to the first base station dedicated process of the first control station processor through the radio access channel of the first base station, the first base station dedicated process is No. 1; Requesting a mobile radio call service to a mobile switch through a signal processing processor; c) No. 7 The signal processing processor is configured to establish a number between the mobile switch and the first base station dedicated process. Setting up a signal link; d) the mobile exchanger is configured to display the No. 7 After authenticating the outgoing signal received through the signal link, the wireless parameter information necessary for the outgoing signal service is obtained. Transmitting to the No. 7 signal processing processor through a 7 signal link; e) the above No. A signal processing processor updating a load table of the first control station processor and sending the radio parameter information and load table information to the first base station dedicated process; f) the first base station dedicated process generates a first selector dedicated process; g) the dedicated process of the first base station allocates a traffic channel to the first base station, transmits initialization information to the assigned traffic channel, interprets the load table, and determines among the first selector elements allocated to the first control station processor. Determining whether there is an extra selector element; h) if there is no excess selector element in step g), select a second control station processor and select No. 7 updating the selector element information of the load table by sending a load table update message to the signal processing processor; i) the first base station dedicated process transmitting radio parameter information necessary for an outgoing call service to a second base station dedicated process of the second control station processor; j) generating, by the second base station dedicated process, a second selector dedicated process to set up an originating signal; k) The second selector dedicated process is set to No. 1 set up between the first base station dedicated process and the mobile exchange. 7 signal link between the second base station dedicated process and the mobile switch. Requesting to change to 7 signal links; l) the second selector dedicated process selects a second selector element and notifies the first base station dedicated process to establish a path between the traffic channel and the second selector element; m) receiving a control signal transmitted from the mobile terminal to the second selector element through the traffic channel; n) the second selector element separating the control signal and forwarding the control signal to the second selector dedicated process. delete The method of claim 1, wherein the radio parameter information includes a mobile station unique number, a VP / VC, a cell identifier, and traffic channel element allocation information.