KR20010076901A - Apparatus of tread based s/w interface block hlr and signal processing board in cdma mobile telecommunication system and method thereof - Google Patents

Abstract

PURPOSE: An interface device and method of a home location register of a CDMA mobile telephone network system with improved signal processing performance are provided to reduce system overhead when a plurality of messages are transmitted, decrease waste of system resources and improve processing speed. CONSTITUTION: An interface device of a home location register of a CDMA mobile telephone network system includes a reception thread(338) interfaced with a predetermined signal processing board, and an operator thread(336) for processing a management message from system-7 stack manager to transmit the processed message to the signal processing board and receiving the response to inform the system-7 stack manager of the reception. The interface device further has an NSP block interface thread(332) interfacing data messages and status messages with an NSP block, and a watch dog thread(334) for managing the threads.

Description

Interface device and method of code division multiple access mobile telephone network system home location register with improved signal processing performance {APPARATUS OF TREAD BASED S / W INTERFACE BLOCK HLR AND SIGNAL PROCESSING BOARD IN CDMA MOBILE TELECOMMUNICATION SYSTEM AND METHOD THEREOF}

The present invention relates to an interface device and a method of a CDMA mobile telephone network system home location register, and more particularly, to an interface device and a method of a DMA mobile phone network system home location register that performs a signal processing operation as a thread structure.

As shown in FIG. 1, the CDMA mobile telephone network system currently in operation has the following configuration.

First, a mobile terminal (MS) 110 receiving a service and a base station system (BTS) 112 providing a service are configured, and a base station controller (BSC) 114 performing management of the base station system 112. And a base station management system (BSM) 115 for operating and managing the base station controller 114. And a switching center system (MSC) 116 connecting to a public switched telephone network (PSTN) through the base station, and a home location register (HLR) 117 connected to the switching center system to manage subscriber information and location information of a mobile terminal. ).

In such a mobile telephone network system, the home location register 117 supports the SYSTEM NO.7 function. In the case of the home location register, the MVME162 signal processing board is used to support the SYSTEM NO.7 function.

This may be understood with reference to the drawings shown in FIG. 2. 2 is a N0.7 stack structure diagram of a CDMA mobile telephone network system home location register according to the prior art.

Referring to this, a pair of read / write processes (TDRDR / TDWTR) 211 and 213 are generated for each signal processing board by the S7SM 210, and the generated processes are NSP 208 and MVME 162 (212). It is responsible for the interface between the) and can be seen that the state managed by the MVME 162 (212) and the process S7SM (210).

As can be seen from FIG. 2, in the interfacing between the home location register and the signal processing board, the interface device corresponds to a pair of read / write processes corresponding to each signal processing board. TDRDR / TDWTR), which is implemented to read and write necessary data directly into memory on the signal processing board.

However, in recent years, the interface device makes it more suitable to adopt a multi-threaded method rather than the multi-process method that is commonly used for data processing, which is a requirement for improving performance.

For example, as the performance of the home position register platform is changed from SSM600 series to Sun's Netra-1800 model, signal processing board is also changed to PT 370/372. In this case, this is the case that meets the needs of the multi-threaded interface as mentioned above.

More specifically, the NO. Of the existing home location register system. The seven stacks create multiple processes for interface with the signal processing board. However, the newly applied PT 370/372 model connects one E1 trunk per board and can accommodate up to 16 links, thus interfacing one pair of read / write processes per board like the conventional method. In case of using multi-process method that is used as a system, a lot of overhead is generated in one process to handle up to 16 links. In addition, if a process is created for each link, as the overhead and the number of links increase due to fork system calls, the process must also increase, causing waste of system resources and IPC communication as many as the number of processes increased. As a result, there is a problem that a decrease in system performance occurs accordingly.

That is, based on the problems described above, the implementation of a new interface device, such as the PT 370/372 interface device, may be suitable for the implementation of its performance by a multi-threaded method, not a conventional multi-process method, At present, the implementation of the interface device of the home location register that satisfies this has not been achieved. Despite such problems, only the implementation of the interface device through the multi-process method has been made.

Accordingly, an object of the present invention is to solve the problems as described above, and to implement an interface device and method of a CDMA mobile telephone network system home location register having improved performance.

It is also an object of the present invention to implement an interface device and method of a CDMA mobile telephone network system home location register operating as a multi-threaded structure.

In order to achieve these objectives, in the present invention, the CDMA mobile telephone network system home characterized by converting the structure of the interface block into a thread structure, thereby allowing a thread in one process for each link to process the corresponding interface. An interface device of a location register and a method thereof are provided.

In order to achieve the above object, the present invention provides a reception thread for interfacing with a predetermined signal processing board, an operator thread for processing a management message from a signal processing system 7 stack operator (S7SM), and a thread for interfacing with an NSP block. And a watch dog thread for managing each of the created threads, and an interface device and a method thereof.

1 is a block diagram of a conventional CDMA mobile telephone network system.

2 is a N0.7 stack structure diagram of a CDMA mobile telephone network system home location register according to the prior art;

3 is a diagram illustrating an internal structure of a CDMA mobile telephone network system home location register interface device according to an exemplary embodiment of the present invention.

4 is an operation flowchart of a CDMA mobile telephone network system home location register interface device according to an embodiment of the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. First, in describing the present invention through the reference numerals added to the components of each drawing, it should be noted that the same reference numerals are used even when the same reference numerals are shown on the other drawings to indicate the same components.

Also, in the following description, many specific details such as components of specific circuits are shown, which are provided to help a more general understanding of the present invention, and the present invention may be practiced without these specific details. It is self-evident to those of ordinary knowledge in Esau. In the following description of the present invention, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

3 is an internal structure diagram of a CDMA mobile telephone network system home location register interface device according to a preferred embodiment of the present invention, and FIG. 4 is an operation according to the interface of the CDMA mobile telephone network system home location register interface device shown in FIG. It is a flow chart.

Referring to these, first, the interface device illustrated in FIG. 3 includes an NSP (operating thread 336 and an NSP (processing thread) that process management messages from the reception thread 338 and the S7SM 320 that interface with the PT 370/372 device described above. An NSP interface thread 332 that interfaces with 310 and a watch dog thread 334 managing each of the created threads are shown. 4 is a main procedure of the PT 370/372 interface block, which creates an operator thread 336 and an NSP interface thread 332, and then operates as a watch dog thread 334. Shows.

Referring to the interface device according to the present invention with reference to them, as shown in Figure 3, each thread of the interface device according to the present invention performs the following operation.

First, the receiving thread is the one that interfaces with the PT 370/372 device. The operator thread 336 receives a management message from the S7SM 320 and transmits it to the PT 370/372. The operator thread 336 receives the response, notifies the S7SM 320 again, or transmits an alarm or status. The NSP interface thread 332 interfaces the data message and the status message with the NSP 310. The watchdog thread 334 manages each created thread.

Referring to Figure 4, the start is made from the main thread. In this state, in step 410, PY370.372 initializes the parameters of a pair of common declared structures (DeviceControl Blocks (DCBs) per device). In operation 412, a management thread is created using the ptread_create function.

The created operational thread 336 subsequently polls the PTIF's queue, reads messages from the S7SM 320, and requests the PT 370/372 to create / delete commands such as trunks and data links of the device 340. Change to an Application Programming Interface (API) and transmit it to the device 340, and inform the S7SM 320 of the response. In particular, when creating a trunk, binding is performed using the device 340 and an API so that a message received from the device 340 can be read, and a receiving thread 338 is created and assigned, and the thread ID is stored in the DCB. It works.

In step 414, the NSP interface thread 332 is created to poll the queue of PTIF to transmit data or status messages from the NSP 310 to the provided API to be transmitted to the device 340.

All created thread IDs are stored in common variables. The main thread then performs a watchdog function from steps 416 to 429. It calls pthread_kill () using the previously saved thread ID and periodically tests each thread once per second through steps 420, 422, and 428. If the thread's status is abnormal, steps 421 and 423 In step 429, rebuild. That is, the operating thread 336, the NSP interface thread 332, the receiving thread 429 is regenerated.

Therefore, the practice of the present invention is PT 370/372 No. 7 By using the multi-threaded structure of the signal processing board interface block, it has the following effects compared to the existing multi-process structure.

First, by creating only one process, it reduces the IPC such as message queue communication, reducing the overhead of the system when sending a large number of messages, and processing multiple data to be created / deleted according to the number of E1 trunks per process. This reduces system resources and improves processing speed.

Next, to compensate for the disadvantage that the user cannot check the state of each thread, the watchdog function is implemented to automatically regenerate and recognize the user even if the generated thread terminates abnormally.

Claims (5)

In the interface device of the code division multiple access mobile telephone network system home location register, A receiving thread that interfaces with a predetermined signal processing board, Operator to process the management message from the signal processing system 7 stack operator (S7SM) and transmit it to the signal processing board, receive the response and notify the signal processing system 7 stack operator (S7SM) again, and transmit an alarm and its status. Threads, An NSP block interface thread that interfaces NSP blocks with data messages and status messages, Interface device, characterized in that consisting of watch dog (Watch dog) thread for managing each created thread. The method of claim 1, wherein the signal processing board, Interface device characterized in that implemented by PT 370/372 devices A method for performing a signal processing operation as a thread structure in an interface device of a code division multiple access mobile telephone network system home location register; The predetermined signal processing board may include a first process of initializing parameters of a common declared structure (Device Control Block (DCB)) of one pair for each device; a second step of creating a management thread using the ptread_create function, Polling the queue of PTIF by the created operating thread to read the message from the signal processing system 7 stack operator (S7SM), thereby requesting the signal processing board to create / delete the trunk and data link of the device. A third process of changing to an application programming interface (API) and transmitting to the corresponding device; A fourth process of transmitting a response according to the transmission to the system 7 stack operator S7SM; A fifth process of creating an NSP interface thread to poll a queue of the PTIF to receive and transmit data or status messages from the NSP to the application programming interface (API), and to transmit to the device; A sixth step of storing all generated thread identifiers (IDs) as a common variable; And a seventh process of performing a watchdog function through the main thread. The method of claim 3, wherein the seventh process, Calling the pthread_kill () function using a previously stored thread identifier (ID), periodically testing each thread once per second, In the test process, if the state of the thread is abnormal, characterized in that the step of regenerating the thread. The method of claim 3, wherein when the trunk is generated in the fourth process, It binds using the device and the API to read the message received from the device, creates and allocates a receiving thread, and stores the thread ID in a common declared structure (Device Control Block; DCB). How to.