KR19990010178A - Location Registration Processor Distribution Method - Google Patents

Abstract

The present invention relates to a location registration processor distribution method for properly distributing a registration processor due to an increase in the capacity of a location registration processor in a Personal Communication Services (PCS) exchange. In the prior art, 35,000 per location registration processor is provided. We performed subscribers, installed 10 location registration processors to accommodate 350,000 subscribers, and distributed the location registration processors appropriately. However, as the capacity of the location registration processors increased, the number of location registration processors was reduced. In this case, although the number of subscribers is not properly distributed by the conventional technology, the PCS switchboard has a drawback of having 10 location registration processors regardless of the number of subscribers. The above-mentioned drawback is made by equally determining the distribution of subscribers according to one to four location registration processors by adding a method of distributing each subscriber according to the number of location registration processors by making the number adjustable. It can be improved.

Description

Location Registration Processor Distribution Method

The present invention relates to a location registration processor distribution method, and more particularly, to a location registration processor distribution method for appropriately distributing a location registration processor due to an increase in the capacity of the location registration processor in a personal communication service (PCS).

In the prior art personal communication exchange, for example, the TDX-100 personal communication exchange accommodates 35,000 subscribers for each location registration processor, and 10 location registration processors are installed to store 35,000 subscribers with the end digit number of the subscriber number. By distributing and storing each location registration processor from the same number 0 to 9, 350,000 subscribers were accommodated in the location registration processor, but as the capacity of the location registration processor was increased, the number of location registration processors was reduced, In the case of the conventional technology, subscriber numbers are not properly distributed, and a personal communication switch has a disadvantage of having 10 location registration processors regardless of the number of subscribers.

The present invention has been made to solve the above-mentioned drawbacks of the prior art, and since the capacity of the location registration processor has been increased to reduce the number of location registration processors from 10 to four or less, from one to four location registration processors An object of the present invention is to provide a method for properly allocating subscribers to a location registration processor by implementing a distribution method suitable for the present invention.

In order to achieve the above object, the present invention connects a wireless call request signal with another switch by wire in a mobile communication exchange including a visited subscriber management unit in a personal communication exchange which is a database for receiving and storing information of subscribers. In the case of a personal communication switch that switches in a domestic station and connects a call, the location registration processor distribution method includes a call controller receiving a request for access to a visited subscriber location registration processor to obtain the number of location registration processors mounted in the switch. And a first judging step of determining whether the number of location registration processors installed in the corresponding exchange unit is one; and in the case of one location registration processor determined in the first judging step, one location registration processor installed with all subscriber information. Storing in the first determination step If it is determined that the location registration processor is not one, the second determination step to determine whether the two location registration processor is mounted, and if it is determined that the two location registration processor is determined in the second determination step, A third judging step of determining whether the remaining value is 0 by dividing the subscriber's telephone number; and storing the corresponding subscriber information in the 0th processor, if the remainder is 0 when judging by the third judging step; If it is determined in the determination step that the remaining one is 1, storing the corresponding subscriber information in the first processor, and if it is determined in the second determination step that the two location registration processors are not mounted, three location registration is performed. The fourth judging step of judging whether the processor is mounted and the three position registration processors of judging from the fourth judging step In the fifth judgment step of determining whether the remaining value is 0 by dividing the subscriber's telephone number by 3, and when the remaining value is 0 as a result of the determination in the fifth judgment step, the subscriber information is transmitted to the zero position registration processor. The sixth judging step of judging whether the remaining value is 1 if the remaining value is not 0, and the remaining value is 1 are determined in the fifth judging step. In the case of, if the subscriber information is stored in the first location registration processor, if the remaining value is 2, the subscriber information is stored in the second location registration processor. If it is determined in the determination step that the three location registration processors are not mounted, the seventh judgment step of determining whether the four location registration processors are mounted and the seventh decision step If it is determined by the system that the four location registration processors are implemented, the eighth decision step of determining whether the remaining value is 0 by dividing the subscriber's telephone number by four, and the remaining value as a result of the determination at the eighth decision step If 0 is stored, the subscriber information is stored in the 0th location registration processor; if the remaining value is not 0, the 9th judgment step of determining whether the remaining value is 1; As a result of the determination in the determination step, if the remaining value is 1, storing the subscriber information in the first location registration processor; if the remaining value is not 1 as determined in the ninth judgment step, the remaining value is 2; As a result of the determination in the tenth judgment step and the tenth decision step of determining whether the license is authorized, storing the subscriber information in the second location registration processor when the remaining value is 2, and the tenth edition If the determination result, and the remaining values in the step 3, provides a location registration processor allocation method, characterized in that comprising the step of storing subscriber information in the three location registration processor.

1 is a block diagram of a personal communication exchange suitable for distributing subscribers to a location registration processor in accordance with the present invention;

2A is a flow chart illustrating the steps of distributing a subscriber to a location registration processor at a personal communication exchange in accordance with the present invention;

2b is a flow chart illustrating the steps of distributing subscribers to two location registration processors according to FIG. 2;

2c is a flow chart illustrating the steps of distributing subscribers to three location registration processors according to FIG. 2;

FIG. 2D is a flow chart illustrating the steps of bonsai subscribers to four location registration processors according to FIG. 2; FIG.

Explanation of symbols for main parts of the drawings

110: base station 130: base station controller

150: personal communication exchange 152: base station controller matching unit

154: call control unit 156: visiting subscriber management unit

158: operator matching unit 170: operator terminal

The above and other objects and various advantages of the present invention will become more apparent from the preferred embodiments of the invention described below with reference to the accompanying drawings by those skilled in the art.

The configuration of the present invention, the base station 110 to wirelessly connect to the corresponding wireless communication subscriber, the base station controller 130 for controlling the connection of the call by controlling the base station 110, and transmits the call from the base station controller 130 It is possible to register / delete the information by sending / receiving / receiving and transmitting / receiving information with the personal communication exchanger 150, which connects the transmitted / received call with the above-mentioned personal communication exchanger 150, The operator terminal 170 to display and the personal communication exchange 150 described above, and the base station controller matching unit 152 for converting the signal from the base station controller 130 into a signal usable in the personal communication exchange 150; A call control unit 154 for controlling signal transmission / reception to the base station controller matching unit 152, a visited subscriber management unit 156 for managing information of subscribers in a predetermined area under the control of the call control unit 154, Visit And an operator matching unit 158 that matches the operator terminal 170 to transmit / receive information of the particle management unit 156 with the operator.

Hereinafter, with reference to the accompanying drawings, it will be described in detail a preferred embodiment of the present invention.

Referring to FIG. 1, a block configuration of a personal mobile communication switch suitable for distributing a location registration processor will be described. The base station 110 wirelessly connects to a personal communication subscriber of a corresponding area, and the subscriber is located in an area controlled by the base station 110. By connecting them to the call connection, and manages the location of the subscribers belonging to the base station (110). Radio signal transmission and reception with a subscriber, system synchronization, radio encoding and decoding, signal strength and quality measurement, baseband signal processing, diversity, radio resource management, and the like are performed.

The base station controller 130 is a device that performs functions such as matching with the base station 110, inter-cell handoff processing, call control, and the like. The base station controller 130 is connected to the exchanger through an internal interface of the switch or NO.7. 130 controls a plurality of base stations (110, ...). The base station controller 130 wirelessly receives a signal from the base station 110,..., And controls the process of the call of the base station 110,.

The personal communication exchange 150 is connected to a plurality of base station controllers 130, ..., and wires the data coming in through the base station controllers 130, ... from the plurality of base stations 110, ... by wire. It connects to the exchange and, in the case of its own call, connects the call by switching in its own.

The personal communication exchange 150 is connected to a plurality of base station controllers 130, ..., and wires the data coming in through the base station controllers 130, ... from the plurality of base stations 110, ... by wire. It connects to the exchange and, in the case of its own call, connects the call by switching in its own.

The base station controller matching unit 152 in the personal communication exchange 150 serves to convert a signal from the base station controller 130 into a signal usable in the personal communication exchange 150.

The operator terminal 170 may be connected to a personal communication exchange to transmit / receive information to register / delete subscriber information and other information, and display information desired by the operator.

The call control unit 154 in the personal communication exchange 150 is responsible for mobile call processing and other call progress related processing, and is connected to the visited subscriber management unit 156 to receive or send subscriber information.

The visited subscriber management unit 156 in the personal communication exchange 150 is a database that is located inside the mobile communication exchange 150 to receive information of subscribers and store it for a while. For example, if a subscriber moves to another place by sending a signal to the temporarily registered subscriber, the subscriber information is destroyed, and if a new subscriber enters, the database receives and stores subscriber information of the mobile communication exchange 150.

The visited subscriber manager 156 is composed of one processor to four processors, and each processor stores subscriber information evenly.

The operator matching unit 158 matches the operator terminal 170 to transmit / receive information of the visited subscriber management unit 156 with the operator at the exchange.

Referring to FIG. 2A, the step of distributing the location registration processor at the personal communication exchange, the call control unit 154 receives an access request to the visited subscriber management unit 156 (step 202).

The visited subscriber manager 156 obtains the number of location registration processors (step 204).

The information database in the exchange is accessed to access a function that distributes subscribers to the location registration processor according to the number of location registration processors (step 206).

The visited subscriber management unit 156 determines whether the number of location registration processors installed in the corresponding exchange is one (step 208).

If it is determined in step 208 and there is only one location registration processor, all subscriber information is stored in the location registration processor 0 (step 210).

If it is determined in step 208 that the number of location registration processors is not one, it is determined whether two location registration processors are mounted (step 212).

If it is determined in step 212 that two location registration processors are mounted, the process proceeds to A of FIG. 2B.

If any subscriber's telephone number is set to *** YYY-Z ₄ Z ₃ Z ₂ Z ₁ , the single digit after the subscriber's telephone number, Z ₁ , is divided by two (step 214).

In the case of two processors, only one digit is taken after the subscriber's telephone number, and the remainder is obtained to access the corresponding processor and search for the subscriber information.

In step 214, it is determined whether the remaining value divided by zero is 0 (step 216).

If it is determined in step 216 that the remaining 0 is zero, the subscriber information is stored in the location registration processor 0 (step 218).

If it is determined in step 216 that the remaining non-zero value is 1, the subscriber information is stored in the first processor (step 220).

For example, when the last digit of the subscriber's number, that is, Z ₄ is 7, the subscriber information is stored in 1, i.e., the location registration processor, which is the remainder of Z ₄ divided by 2.

If it is determined in step 212 of FIG. 2A that the two location registration processors are not mounted, it is determined whether three location registration processors are mounted (step 222).

If it is determined in step 222 that three location registration processors are mounted, the process proceeds to B of FIG. 2C.

Divide the three-digit number after the subscriber telephone number, i.e., Z ₃ Z ₂ Z ₁ by 3 (step 224).

When three processors are mounted, three digits are taken after the subscriber's telephone number, divided, the remaining ones are accessed, and the corresponding processor is searched for.

In step 224, it is determined whether the remaining value divided by zero is 0 (step 226).

If it is determined in step 226 and remaining 0, the subscriber information is stored in the location registration processor 0 (step 228).

If it is determined in step 226 that the remaining value is not 0, it is determined whether the remaining value is 1 (step 230).

As a result of the determination in step 230, if the remaining value is 1, the subscriber information is stored in the first location registration processor (step 232).

As a result of the determination in step 230, when the remaining value is not 1, that is, when the remaining value is 2, the subscriber information is stored in the second location registration processor (step 234).

For example, assuming that the number up to 3 digits after the subscriber is 111, the subscriber information is stored in the location registration processor 0 corresponding to 0, which is the remainder of 111 divided by 3. The reason for selecting 3 digits at the back and dividing by 3 is that if you select the number of digits at the back and select the rest, the subscriber information of the 0 location registration processor may be concentrated and stored. Since there is still a possibility to be biased, the subscriber information is prevented from being stored in a biased manner by taking a 3-digit number and selecting the rest.

If it is determined in step 222 of FIG. 2A that the three location registration processors are not mounted, it is determined whether the four location registration processors are mounted (step 236).

If it is determined in step 236 that four location registration processors are mounted, the process proceeds to C of FIG. 2D.

Divide the two-digit number after the subscriber's telephone number, Z ₂ Z ₁ by 4 (step 238).

When four processors are mounted, two digits are taken after the subscriber's telephone number, divided, the remainder is obtained, the corresponding processor is accessed, and the corresponding subscriber information is searched.

In step 238, it is determined whether the remaining value is 0 (step 240).

As a result of the determination in step 240, if remaining 0, the subscriber information is stored in the location registration processor 0 (step 242).

If it is determined in step 240 that the remaining value is not 0, it is determined whether the remaining value is 1 (step 244).

As a result of the determination in step 244, if the remaining value is 1, the subscriber information is stored in the first location registration processor (step 246).

If it is determined in step 244 that the remaining value is not 1, it is determined whether the remaining value is 2 (step 248).

As a result of the determination in step 248, if the remaining value is 2, the subscriber information is stored in the second location registration processor (step 250).

As a result of the determination in step 248, if the remaining value is not 2, that is, the remaining value is 3, the subscriber information is stored and terminated in the third location registration processor (step 252).

For example, if the digit of the subscriber number is 11, the number is divided by 4 and the remaining value is 3, so the subscriber information is stored in three subscriber registration processors. In this case as well, the reason for taking the remainder by using the two-digit number is that the remaining number is stored in 0 and 1 in the subscriber registration processor when the remainder is taken by using the one-digit end number. In order to eliminate the bias by taking two or three digits after the subscriber number and taking the rest.

As described above, the present invention is designed to accommodate only 50 TDX-100 personal communication exchange mobile subscribers, which makes it possible to adjust the number of location registration processors for each exchange according to the subscriber distribution or region.

Therefore, by adding a method of distributing each subscriber according to the number of location registration processors, distribution of subscribers is equally determined according to one to three location registration processors.

The principles of the invention have been described above in connection with specific devices, which are described by way of example only, and are not limited to the spirit of the invention as described in the appended claims.

Claims (4)

In the mobile communication exchange 150 including the visited subscriber management unit 156 in the personal communication exchange 150 which receives and stores information of subscribers, the wireless call request signal is wired to another switch and is a local call. In the personal communication switch (150) for switching and connecting calls in a domestic station, the location registration processor distribution method, Receiving a request for access to a visited subscriber location registration processor to obtain a number of location registration processors mounted in the exchange; A first judging step of determining whether the number of location registration processors mounted in the corresponding exchange is one; Determining, in the first judging step, if there is only one location registration processor, storing all subscriber information in one location registration processor installed; A second judging step of judging in the first judging step and determining if two location registration processors are mounted when there are not one location registration processors; A third judging step of judging at the second judging step when it is determined that two location registration processors are mounted, and dividing the subscriber telephone number by 2 to determine whether the remaining value is 0; Determining, by the third determination step, storing corresponding subscriber information in processor 0 when the remaining 0 is zero; Storing the corresponding subscriber information in the first processor when the remaining one is determined by the third determination step; A fourth determination step of determining whether three location registration processors are mounted if it is determined in the second determination step that the two location registration processors are not mounted; A fifth judging step of judging at the fourth judging step, if it is determined that the three location registration processors are mounted, dividing the subscriber telephone number by 3 and determining whether the remaining value is 0; As a result of the determination in the fifth determination step, if the remaining value is 0, storing the subscriber information in the zero location registration processor; A sixth judging step of judging at the fifth judging step and determining whether the remaining value is 1 when the remaining value is not 0; As a result of the determination in the sixth judging step, when the remaining value is 1, storing the subscriber information in the first location registration processor; As a result of the determination in the sixth judging step, storing the subscriber information in the second position equalization processor when the remaining value is 2; A seventh judging step of judging whether or not the four location registration processors are mounted if it is determined in the fourth decision step that the three location registration processors are not mounted; An eighth judging step of judging in the seventh judging step that the four location registration processors are mounted, and determining whether the remaining value by dividing the subscriber telephone number by 4 is 0; As a result of the determination in the eighth determination step, if the remaining value is 0, storing the subscriber information in the zero location registration processor; A ninth judging step of judging in the eighth judging step and determining whether the remaining value is 1 when the remaining value is not 0; Storing the subscriber information in the first location registration processor when the remaining value is 1 as a result of the determination in the ninth determination step; A tenth judging step of judging in the ninth judging step and determining whether the remaining value is 2 when the remaining value is not 1; As a result of the determination in the tenth determination step, storing the subscriber information in the second location registration processor when the remaining value is 2; And storing the subscriber information in the third location registration processor when the remaining value is 3 as a result of the determination in the tenth judgment step. The method of claim 1, And dividing the subscriber telephone number by two, taking only one digit after the subscriber telephone number, dividing the subscriber telephone number to obtain the remainder, and accessing the corresponding processor. The method of claim 1, And dividing the subscriber telephone number by three to obtain the remainder of the division by taking three digits after the subscriber telephone number to access the corresponding processor. The method of claim 1, And dividing the subscriber telephone number by four to obtain the remainder of the division by taking only two digits after the subscriber telephone number and accessing the corresponding processor.