KR20000032373A - Method for managing load of cellular system - Google Patents

Abstract

PURPOSE: A method for managing load of cellular system is provided to decrease an overload of a base station, and to protect a system of the base station by controlling a load on an air interface in the case that a great amount of loads are existed in a CDMA system. CONSTITUTION: A call control processor provides a priority to a base station which uses a traffic with a first reference value or more(s110). It is judged as to whether a load of the call control processor is more than a second reference value(s120). The call control processor requests a change of a parameter to the base station when the load of the call control processor is more than the second reference value(s130). The base station changes an access overload class(ACCOLC) of a mobile telephone to limit a transmission and register message(s140). The call control processor requests a recovery of a parameter to the base station when the load of the call control processor is less than the second reference value(s150). The base station recovers the parameter of the access overload class(s160).

Description

Load management method of cellular system

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a cellular mobile telecommunication system. In particular, when a system using code division multiple access (CDMA) technology is subjected to a large load by region or time zone, The present invention relates to a load management method of a cellular system for controlling a load on an air interface.

The cellular mobile communication system divides the entire service area into a plurality of base station areas to form cells, which are small service areas, and centrally controls these base stations with a mobile switching center (MSC). This allows the subscriber to continue the call while moving from cell to cell. In a mobile communication network using a code division multiple access technology, a large load may be generated by region or time zone. That is, a base station installed in a place where traffic is controlled due to an exhibition situation or heavy snowfall suddenly receives a large number of call requests, and the system may be overloaded. In this case, the base station limits the call by controlling the transmission power or reduces the load by the overload control function of the mobile switching center.

Code division multiple access system supporting Air Interface by IS-95, IS-95A, J-STD-008 provides Access Overload Class (ACCOLC) function to control overload . According to this function, each mobile phone has an access overload rating, and the higher the mobile phone, the more messages can be sent.

However, since the access overload class is assigned to each mobile phone, it is not possible to limit the incidence of mobile phone messages on a base station basis. Therefore, in the conventional load management method operating as described above, there is a problem that the load of a specific base station cannot be managed using the access overload class of the mobile telephone.

It is therefore an object of the present invention, which has been devised to solve the problems of the prior art operating as described above, by means of a mobile telephone, using the access overload rating specified by IS-95, IS-95A and J-STD-008. It is to provide a load management method of the cellular system, which reduces the overload of the generated cellular system.

Other objects and advantages of the present invention will become more apparent from the following detailed description of the invention and the accompanying drawings.

1 is a block diagram of a code division multiple access network to which the present invention is applied.

2 is a flowchart illustrating an embodiment of a load management method according to the present invention;

Fig. 3 shows the probability of originating / commanding message by PSIST (n) for low class mobile phones.

4 is the probability of originating / commanding message by PSIST (n) for higher class mobile phones.

5 is a probability of generating a location registration message by PSIST (n) for a mobile phone of a lower class.

6 is a probability of generating a location registration message by PSIST (n) for a mobile phone of a higher class.

<Description of the code | symbol about the principal part of drawing>

100: mobile phone 200: base station

210: paging channel device 220,230: traffic channel device

240: channel interface processor 250: base station control processor

300: base station controller 310: call control processor

A preferred embodiment of the load management method of the cellular system according to the present invention, which was invented to achieve the object as described above,

A call control processor of the base station controller assigning priority to a base station using traffic equal to or greater than a first reference value;

Requesting the base station to which the call control processor is given priority change the parameter if the load of the call control processor exceeds the second reference value;

Limiting a message of the mobile telephone by changing the Access Overload Class (ACCOLC) parameter of the mobile telephone by a base station that is requested to change the parameter;

Requesting the base station to which the call control processor is given priority to recover parameters when the load of the call control processor decreases below the second reference value; And

Recovering the access overload class parameter of the mobile telephone by a base station that has been requested to recover the parameter.

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. Terms to be described later are terms defined in consideration of functions in the present invention, and may be changed according to intentions or customs of users or operators. Therefore, the definition should be made based on the contents throughout the specification.

The present invention limits the amount of messages generated at a mobile phone by adjusting the access overload class parameter of the mobile phone that can send messages to the overloaded base station. Mobile phones have a randomly set access overload rating, but typical code division multiple access systems do not use the mobile phone's access overload rating. As such, the base station according to the present invention may arbitrarily limit the amount of messages in the mobile phone using the access overload class parameter change message according to the specification. The base station changes the access overload class parameter of the mobile phone using an Access Parameter Message sent over the paging channel.

1 is a block diagram of a code division multiple access network to which the present invention is applied, and as shown, a mobile telephone (MT) 100 for providing a mobile communication service to a subscriber; A plurality of Base Transceiver Stations (BTSs) 200 connected to a mobile telephone via an air interface; A base station controller (BSC) 300 that controls a plurality of base stations through a relay line and a mobile switching center 400 that connects the plurality of base station controllers to another base station controller or a public switched telephone network (PSTN). It consists of

The call processing processor 310 of the base station controller 300 controls the operations of the base station control processor of the plurality of base stations, and processes calls generated from the plurality of base stations.

The base station control processor (BCP) 250 of the first base station 200 may include a paging channel element (Paging Channel Element) through a channel interface processor (CIP) 240. Control the PCE (210) and the plurality of traffic channel elements (TCE) (220, 230). The first base station transmits control signals and control parameters to the mobile telephone via the paging channel element and voice data to the mobile telephone via the traffic channel element.

In the network configured as described above, since the call control processor 310 of the base station controller processes calls generated from a plurality of base stations, if an overload occurs in the call control processor, the call control processor gives an access overload rating to a base station with high traffic. It requires the parameter to be changed to manage the load generated at the base station.

2 is a flowchart illustrating an embodiment of a load management method according to the present invention, in which the call control processor 310 of the base station controller gives priority to a base station using traffic equal to or greater than a first reference value. (s110); Checking whether a load of the call control processor is greater than or equal to a second reference value (S120); Requesting to change the parameter to the base station to which the priority is given if the load of the call control processor is greater than or equal to a second reference value (s130); Limiting the originating and registering message of the mobile telephone by changing the access overload class parameter of the mobile telephone by the base station which is requested to change the parameter (s140); If the load of the call control processor is less than the second reference value in step s120, requesting the priority base station to recover the parameter from the call control processor (s150); And recovering the access overload class parameter of the mobile phone by the base station, which has been requested to recover the parameter, in detail with reference to FIGS. 3 to 6 attached below in detail the operating principle of the preferred embodiment of the present invention. Explain.

In step s110, the call control processor of the base station controller uses the base station total traffic resource based on the traffic statistics data received from the base station control processors of the base stations connected thereto, and uses the base station total traffic resource, preferably 90% or more. Priority is given to a base station. At this time, if a plurality of base stations using 90% or more of traffic resources, priority is given to the plurality of base stations.

In step s120, the call control processor checks whether the traffic of the specific base station increases, so that the load on the call control processor becomes a second reference value, preferably 80% or more.

In step s130, if the load of the call control processor is 80% or more, the call control processor sends a parameter change request message to all the base stations having priority to change the access overload class parameter.

The mobile phone's access overload class parameters that the base station can change include: PSIST (n), which indicates the persistence value for access overload class n, and REG_PSIST, which limits the incidence of location registration messages, and the rate of data burst messages. There is MSG_PSIST. The call control processor therefore requires changing the access overload class parameter, limiting the rate of occurrence of messages originating from the mobile telephone to a third reference value, preferably 50%.

Factors causing the overload of the base station include an origination message, an order message, a registration message and a data burst message of the mobile phone.

The outgoing message of the mobile telephone is a message transmitted by the mobile telephone to the base station when the subscriber of the mobile telephone requests a call connection, and the command message of the mobile telephone is a message transmitted by the mobile telephone to request the power control from the base station. The location registration message of the mobile phone is a message that the mobile phone sends to the base station to inform the base station of the current location of the mobile phone. The data burst message of the mobile phone is a short message for delivery by the mobile phone to the base station in order to provide the Short Message Service (SMS) to the subscriber in addition to the mobile phone service.

The call control processor therefore limits the incidence of the messages originating from the mobile telephone to a third reference value.

First, the method of limiting the incidence of outgoing or command message of mobile phone to 50% is as follows.

If the access overload rating given to the mobile telephone is n, PSIST (n) represents the duration value for the access overload rating n. According to IS-95, IS-95A, and J-STD-008, the probability that an outgoing or command message will occur in a mobile phone with a rating of 0 to 9 P _org1 Is equal to Equation 1, and a probability that an outgoing message or a command message occurs in a mobile phone having a rating of 10 to 15 P _org2 Is the same as Equation 2.

According to Equation 1, according to the change of the PSIST (n) in the mobile phone having a rating of 0 to 9 P _org1 Is as shown in FIG. 3. According to FIG. 3 P _org1 PSIST (n) with a value of 50% is 4.

In addition, according to Equation 2, according to the change of the PSIST (n) in the mobile phone having a rating of 10 to 15 P _org2 Is as shown in FIG. According to FIG. 3 P _org2 The value of PSIST (n) with 50% is 1.

Therefore, when limiting the incidence of outgoing or command messages to 50%, the call control processor sets PSIST (n) = 4 for mobile phones with an access overload rating of 0 to 0, and an access overload rating of 10 to For a mobile phone of 15, a message set to PSIST (n) = 1 is transmitted to the base station.

Secondly, the method of limiting the occurrence rate of the location registration message of the mobile phone to 50% or less is as follows.

According to IS-95, IS-95A, and J-STD-008, the probability that a location registration message will occur in a mobile phone having a rating of 0 to 9 P _reg1 Is equal to Equation 3, and a probability that a location registration message occurs in a mobile phone having a rating of 10 to 15 P _reg2 Is the same as Equation 4.

Here, REG_PSIST is a parameter used to limit the occurrence rate of the location registration message.

According to Equation 3, according to the change of the PSIST (n) in the mobile phone having a rating of 0 to 9 P _reg1 Is as shown in FIG. According to FIG. 5 P _reg1 PSIST (n) has a value of 50%, and a value of REG_PSIST is 0.

In addition, according to Equation 4, according to the change of the PSIST (n) in the mobile phone having a rating of 10 to 15 P _reg2 Is as shown in FIG. According to FIG. 6 P _reg2 The value of PSIST (n) with 50% is 1 and the value of REG_PSIST is 0.

Therefore, when limiting the incidence of location registration messages to 50%, the call control processor sets PSIST (n) = 4 and REG_PSIST = 0 for mobile phones with an access overload rating of 0 to 0, and the access overload rating is For mobile phones of 10 to 15, a message set to PSIST (n) = 1 and REG_PSIST = 0 is transmitted to the base station.

Third, the method of limiting the incidence of data burst messages of the mobile phone to 50% or less is as follows.

According to IS-95, IS-95A, and J-STD-008, the probability that a data burst message will occur in a mobile phone with a rating of 0 to 9 P _sms1 Is equal to Equation 5, and the probability that a data burst message occurs in a mobile phone having a rating of 10 to 15 P _sms2 Is the same as Equation 6.

MSG_PSIST is a parameter used to limit the occurrence rate of the data burst message.

According to Equation 5 and Figure 5, having a rating of 0 to 9 P _sms1 The value of PSIST (n) with 50% is 4 and the value of MSG_PSIST is 0. Also according to Equation 4 and FIG. 6 P _sms2 PSIST (n) with a value of 50% is 1 and MSG_PSIST has a value of 0.

Therefore, when limiting the incidence of data burst messages to 50%, the call control processor sets PSIST (n) = 4 and MSG_PSIST = 0 for mobile phones with an access overload rating of 0 to 0, and the access overload rating is For mobile phones of 10 to 15, a message set to PSIST (n) = 1 and MSG_PSIST = 0 is transmitted to the base station.

In step S140, the base station that is requested to change the access overload class parameters PSIST (n), REG_PSIST, and MSG_PSIST as described above sends a paging channel element 210 to the access parameter message including the parameter value to be changed. The mobile phone changes the access overload class parameter according to its class, and limits the incidence of origination / command / location registration and databurst messages.

For example, a mobile phone with an access overload class of 0 to 9 reads the portion corresponding to the 0 to 9 class from an access parameter message received from the base station to change the parameter, and a mobile phone with an access overload class of 10 to 15 access parameter. Change the parameters by reading the parts corresponding to grades 0-9.

When the mobile phone restricts the generation of the message by the changed parameter, since the mobile phone has a 50% probability of connection, the base station can reduce the number of messages to be processed, thereby reducing the load. The load on the call control processor is reduced.

If the load of the call control processor in the step s120 is less than the second reference value, preferably 80%, in step s150, the call control processor moves to the base stations whose parameters have been changed, i. Requires the restoration of the modified access overload class parameter to reduce the incidence of phone messages to 50%. In this case, however, restoring the changed parameters at once will increase the incidence of mobile phone messages from 50% to 100%. As a result, many messages are suddenly received at the base station, and the base station is overloaded.

Therefore, the call control processor recovers the access overload class parameter step by step so that the incidence of mobile phone messages is 60, 70, 80, 90, 100%.

In step s160, the base station gradually recovers the access overload class parameter of the mobile phone by the command of the call control processor. The mobile phone then incrementally increases the incidence of outgoing or command messages, location registration messages and databurst messages, bringing the incidence of messages back to 100%. Therefore, the mobile phone can handle all messages and has a 100% connection probability.

The present invention can be variously modified and can take various forms and only the specific embodiments thereof are described in the detailed description of the invention. It is to be understood, however, that the present invention is not limited to the specific forms mentioned in the detailed description of the invention, but rather includes all modifications, equivalents, and substitutions within the spirit and scope of the invention as defined by the appended claims. It should be understood to do.

In the present invention operating as described in detail above, the effects obtained by the representative ones of the disclosed inventions will be briefly described as follows.

The present invention has the effect of reducing the overload factor of the base station generated at the air interface and protecting the system of the base station by limiting the incidence of messages generated at the mobile phone by using the access overload class of the mobile phone.

Claims (9)

A call control processor of the base station controller assigning priority to a base station using traffic equal to or greater than a first reference value; Requesting the base station to which the call control processor is given priority change the parameter if the load of the call control processor exceeds the second reference value; Limiting a message of the mobile telephone by changing the Access Overload Class (ACCOLC) parameter of the mobile telephone by a base station that is requested to change the parameter; Requesting the base station to which the call control processor is given priority to recover parameters when the load of the call control processor decreases below the second reference value; And Recovering the access overload class parameter of the mobile telephone by a base station that has been requested to recover the parameter. The method of claim 1, wherein the first reference value is 95%. The method of claim 1, wherein the second reference value is 80 to 85%. The method of claim 1, wherein requesting a change of the parameter comprises: Changing the access overload class parameter to limit the message incidence of the mobile telephone to a third reference value. The method of claim 1, wherein requesting a change of the parameter comprises: In order to limit the outgoing or command message of the mobile phone to 50% of the current load, mobile phones with an access overload rating of 0 to 9 are set to PSIST (n) = 4 and a mobile with an access overload rating of 10 to 15. And for the telephone, transmitting a parameter change request message set to PSIST (n) = 1 to the base station. The method of claim 1, wherein requesting a change of the parameter comprises: In order to limit the location registration message of the mobile phone to 50% of the current load, PSIST (n) = 4 and REG_PSIST = 0 are set for mobile phones with an access overload rating of 0 to 9, and the access overload rating is 10 to 15. And sending a parameter change request message, wherein the parameter change request message is set to PSIST (n) = 1 and REG_PSIST = 0 to the base station, for the mobile phone. The method of claim 1, wherein requesting a change of the parameter comprises: In order to limit the databurst message of the mobile phone to 50% of the current load, PSIST (n) = 4 and MSG_PSIST = 0 are set for mobile phones with an access overload rating of 0 to 9, and the access overload rating is 10 to 15. And sending a parameter change request message to the base station for PSIST (n) = 1 and MSG_PSIST = 0 for the mobile phone. The method of claim 1, wherein the step of limiting the message of the mobile telephone, A method for load management of a cellular system that limits outgoing and location registration messages and databurst messages of a mobile phone. The method of claim 1, wherein requesting recovery of the parameter comprises: A method of load management of a cellular system, the method comprising the steps of recovering changed parameters step by step so that the message generation rate of the mobile telephone increases step by step.