KR100237451B1 - Registing device of cellular mobile system and method thereof - Google Patents

Abstract

end. The technical field to which the invention described in the claims belongs:

The present invention relates to a cellular mobile communication terminal.

I. The technical problem the invention is trying to solve:

An apparatus and method for efficiently calling a cellular mobile communication terminal in a network are implemented.

All. The gist of the solution of the invention:

The present invention implements an apparatus and method for registering the mobile station with a base station when it is determined that the cellular mobile communication terminal has moved to another cell by receiving additional system information according to the measured pilot signal intensity measured from each base station. It was.

la. Important uses of the invention:

Registration device and method of cellular mobile communication terminal.

Description

Registration device and method of cellular mobile communication terminal

The present invention relates to a cellular mobile communication terminal, and more particularly, to a method for a cellular mobile communication terminal to register with a base station.

In general, cellular mobile communication is a technology that enables a mobile station such as a mobile phone or a mobile phone to communicate with each other, and divides a service area into a plurality of cells and assigns a different frequency to each cell. By installing a base station to reuse the frequency, it is a way to automatically exchange calls when moving from one cell (Cell) to the adjacent cell (Cell). In other words, the call is received / received by a low-power antenna installed in a geographical area divided into an effective communication range called a cell and finally connected to a central computerized switchboard.

The cell refers to an area in which a specific mobile phone base station can best handle a call of a mobile phone. The cell can be divided into an omnidirectional cell and a sector cell. The front cell is a case where the antenna of the base station is implemented as an omnidirectional antenna, and refers to a structure of calling a mobile station located in the cell with one antenna. On the other hand, the sector cell is a case where the antenna of the base station is implemented by a plurality of directional antennas, and refers to a structure for calling the mobile station by dividing the cell into a plurality of sectors corresponding to each antenna. The structure of the cell and the sector by the sector cell and omni-directional cell described above is as shown in FIG.

The wireless base station of each cell is connected to each mobile telephone station by wire or wirelessly, and since several wireless telephone stations are connected to each exchange station, another exchange station is connected by wire to enable communication between the exchange stations.

As described above, cellular mobile communication automatically switches to a base station capable of handling a call best and performs a call channel (Handoff) to register with the base station to be switched.

The following is a list of types of registration by performing the call channel switching (Handoff).

Power up registration to perform registration when the terminal is powered on, Power down registration to perform registration when the terminal is powered off, Time based based on a predetermined time interval Registration, Distance based registration to perform registration if distance between previously registered base station and currently connected base station is over a certain distance, Zone based registration to perform registration whenever zone changes, Parameter change registration that performs registration when the parameters of the base station are changed during registration, registration by a command to perform registration when the base station requires registration, and registration at the request of the base station during a call There is a communication channel registration.

The above zone refers to a cell range serviced by one or more base stations, and the registration type performed by the cellular mobile communication terminal among the plurality of registration types is determined by a service provided by a network.

The registration of the mobile station is for efficiently calling the mobile station. The most efficient calling method is to call the mobile station from the base station of the cell where the mobile station is located in the network. To this end, the network must accurately identify the location of the mobile station and register the mobile station with the base station of the cell where the mobile station is located.

Contrary to the above, the most inefficient calling method is to make a call using all base stations constituting the network by calling. An example of calling using the above method is a receive-only pager system.

In the case where the registration of the mobile station is not accurate and it is difficult to determine the location of the mobile station in a network operating a cellular mobile communication system, the mobile station is called through all the base stations of the estimated position by estimating the position of the mobile station. This has resulted in a load on the cellular mobile communication system.

On the other hand, if an unnecessary frequent registration is performed to accurately locate the mobile station, not only the power consumption of the mobile station but also the load to be processed by the base station may increase, and the performance of the system may be degraded due to the increase of the reverse link.

In the registration form of the cellular mobile communication causing the above-mentioned problem, when the time base registration is provided in the cellular mobile communication system, if the mobility of the mobile station is low, one base station unnecessarily re-registers. In addition, if the zone-based registration is provided, the zone is a set of cells, so when the call comes, the mobile station does not know which cell constituting the zone.

As a result, unnecessary registration may occur by time-based registration, and the number of registrations may be reduced by zone-based registration, but an efficient call cannot be made.

Accordingly, an object of the present invention is to provide a method for allowing a mobile station to register when moving out of a cell of a base station currently being served to a cell of another base station while reducing unnecessary registration in a cellular mobile communication system.

Another object of the present invention is to provide an apparatus for registering when a mobile station moves out of a cell of a base station currently being served to a cell of another base station.

1 is a cell and sector structure diagram formed by a base station.

2 is a block diagram of an apparatus for performing an idle handoff in a cellular mobile communication terminal according to an embodiment of the present invention.

3 is a control flowchart for performing an idle handoff in a cellular mobile communication terminal 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.

2 is a diagram illustrating a configuration of an apparatus for performing idle handoff in a cellular mobile communication terminal according to an embodiment of the present invention.

An apparatus for performing idle handoff in the cellular mobile communication terminal illustrated in FIG. 2 includes a pilot signal measuring unit 10, an idle handoff processing unit 20, a control message processing unit 30, and an inter-cell idle handoff determination unit ( 40), the registration execution section 50.

The pilot signal measuring unit 10 measures an intensity of a pilot signal transmitted from each base station, determines whether an idle handoff is required, and requests an idle handoff. The idle handoff processing unit 20 sets the terminal to monitor the call channel of the new base station by performing idle handoff when the pilot signal measuring unit 10 requests idle handoff. In addition, the control message processor 30 notifies the setting after storing the identification information of the base station which previously provided the service. The control message processor 30 receives and processes a message transmitted from the base station. The message includes a base station sector number (NUM_SECTOR) and sector identification information (SECTOR_PILOT_PNi) corresponding to the system additional information of the base station. The inter-cell idle handoff determination unit 40 receives the base station sector number NUM_SECTOR and sector identification information SECTTOR_PILOT_PNi, which are system additional information, from the control message processing unit 30. Also, the received NUM_SECTOR and SECTOR_PILOT_PNi compare the NUM_SECTOR and SECTOR_PILOT_PNi of the previous serving base station to determine whether the idle handoff is an intercell idle handoff or an intersector idle handoff in the same cell. By the above determination, it is determined whether or not to make a registration request to the registration performing unit 50. The registration execution unit 50 is a transmission unit for transmitting registration information to the base station when a registration request is applied from the inter-cell idle handoff determination unit 40.

3 is a flowchart illustrating a control for performing idle handoff in a cellular mobile communication terminal according to an embodiment of the present invention.

Hereinafter, an embodiment according to the present invention will be described in detail with reference to the above-described configuration according to the control flowchart shown in FIG. 3.

The mobile station determines the need for idle handoff by measuring the strength of the pilot signal received from each base station through the pilot signal measuring unit 10 in steps 310 and 312 of FIG. 3. The idle handoff refers to a procedure of changing a base station to be serviced before a mobile station performs a call.

The process of determining whether the idle handoff is required will be described in more detail. In step 310, pilot signals received from each base station are sequentially measured through the pilot signal measuring unit 10, and in step 312, the base station currently being serviced is determined. The pilot signal is compared with the measured pilot signal to determine whether an idle handoff is necessary. That is, if it is determined that the strength P _i of the pilot signal received from another base station is larger than the strength P _s of the pilot signal received from the base station or sector currently being serviced, an idle handoff is requested. Return to step 310.

If the operation performed in step 312 is represented by an equation, it may be expressed as Equation 1 below.

If it is determined in step 310 and step 312 that P _i larger than P _s is received, the pilot signal measuring unit 10 requests the idle handoff processing unit 20 to idle.

When the idle handoff request is applied, the idle handoff processing unit 20 performs idle handoff. In this case, steps 314 to 324 of FIG. 3 are performed in order to perform registration only when the mobile station moves to a different cell than when a sector in the base station currently receiving a service is moved.

Hereinafter, referring to steps 314 to 324 of FIG. 3, when an idle handoff request is applied in step 312, the idle handoff processing unit 20 performs idle handoff to monitor the call channel of the new base station. After setting the terminal stores the identification code (OLD_PILOT_PNs) of the previous serving base station. When the idle handoff is performed, in step 316, the control message processor 30 receives the base station sector number NUM_SECTOR and sector identification information SEC_PILOT_PNi, which are system additional information according to the new base station or sector, from the base station. The received system additional information is applied to the inter-cell idle handoff determination unit 40. The inter-cell idle handoff determination unit 40 determines whether the cell structure of the new base station is a sector cell or an omnidirectional cell by checking NUM_SECTOR of the applied system additional information in step 318. That is, the inter-cell idle handoff determination unit 40 determines that the NUM_SECTOR is an omnidirectional cell composed of one sector when the value of NUM_SECTOR is "1". do.

If it is determined in step 318 that the cell is a omni-directional cell, the inter-cell idle handoff determination unit 40 requests registration to the registration execution unit 50 in step 322. In step 318 and step 322, registration is performed when the mobile station moves to a base station having an omni-directional cell structure as shown in FIG.

However, if it is determined in step 318 that it is a sector cell, the inter-cell idle handoff determination unit 40 identifies the sector of the previous service base station among the N-1 sector identification information SECTOR_PILOT_PNi applied from the control message processor 30 in step 320. The same sector identification information as the information OLD_PILOT_PNi is compared. OLD_PILOT_PNi of the previous serving base station is provided from the idle handoff processing unit 20. If it is determined in step 320 that the same sector identification information does not exist, the inter-cell idle handoff determination unit 40 requests registration to the registration execution unit 50 in step 322. In step 318, 320 and 322, registration is performed when the mobile station moves to a base station having a sector cell structure as shown in FIG.

On the other hand, if it is determined in step 320 that the same sector identification information exists, the inter-cell idle handoff determination unit 40 moves to another sector in the cell of the base station to which the mobile station currently provides the service, as shown in FIG. If not, the process proceeds to step 324 without performing registration. If the process proceeds to step 324, the predetermined time is delayed and then step 310 is performed again. The performing of step 324 is to periodically measure the strength of the pilot signal received from each base station through the pilot signal measuring apparatus 10.

As described above, the present invention can prevent unnecessary registration by performing registration only when the mobile station moves to another cell, thereby preventing power consumption of the mobile station, and effectively calling the mobile station in a network, thereby reducing system load. There is.

Claims (6)

An apparatus for performing registration by idle handoff in a cellular mobile communication terminal, A pilot signal measuring unit for determining whether to perform idle handoff by measuring the strength of the pilot signal received from the base station; An idle handoff processing unit configured to monitor the channel of the base station and to notify the channel setting when it is determined that the idle handoff is performed; A control message processing unit receiving the system setting notification and receiving system additional information of the corresponding base station through the set channel; An inter-cell idle handoff determination unit receiving the system additional information and determining whether to register with the corresponding base station and requesting registration; And a registration execution unit for transmitting registration information to the corresponding base station in response to the registration request. A method for performing registration by idle handoff in a cellular mobile communication terminal, An idle handoff determination process of sequentially determining strength of pilot signals received from a plurality of base stations to determine whether to perform idle handoff; Performing an idle handoff when the idle handoff is determined, monitoring the channel of the base station and notifying the channel setting; An additional information receiving process of receiving system additional information and receiving system additional information from the corresponding base station through the set channel; A registration decision process of receiving registration of the registration information by determining whether to register with the corresponding base station by receiving the system additional information; And a registration process of transmitting registration information to the corresponding base station by the registration request. The method of claim 2, wherein the idle handoff determination process, Sequentially measuring the strength of pilot signals received from a plurality of base stations; Comparing the strengths of the sequentially measured pilot signals with the strengths of pilot signals received from a base station providing a current service; And if it is determined that the measured strength of the pilot signal is greater than the strength of the pilot signal received from the base station providing the current service, requesting performing idle handoff. The method of claim 3, wherein the idle handoff is performed. Setting an idle handoff to monitor a channel of a base station which has transmitted the measured pilot signal by performing the idle handoff request; Storing sector identification information of the base station providing the service; And informing the channel setting of the cellular mobile communication terminal. The method of claim 4, wherein And the system additional information received in the process of receiving the additional information comprises a base station sector number and sector identification information. The method of claim 5, wherein the registration decision process, Requesting registration if it is determined to be an omni-directional sector cell based on the received base station sector number; Comparing the received sector identification information with the stored sector identification information and requesting registration if it is determined to be a base station other than the base station which provided the service; And comparing the received sector identification information with the stored sector identification information to determine that the base station was providing the service.

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