KR20070074953A - Method and system for handling handover by using latitude and longitude of mobile communication terminal - Google Patents

Abstract

A handover processing method using latitude and longitude of a mobile communication terminal and a system therefor are provided to instruct handover performance by determining peripheral base stations for performing handover and a time when the handover is to be executed, to the terminal, thereby preventing handover failure or handover delay. Information on latitude and longitude of a mobile communication terminal(210) is received from the terminal(S310-S330). A location of the terminal is perceived by using the information, and it is checked whether the terminal is located within a handover border area(S340,S350). If so, measurement of propagation environment is requested to the terminal(S360). Information on propagation environment measurement results is received from the terminal(S370,S380). The received information is analyzed to perceive the propagation environment, and it is checked whether the terminal is to perform handover to a particular peripheral base station(S390). If so, the terminal is instructed to conduct the handover(S392).

Description

Method and system for handling handover using latitude and longitude of mobile communication terminal {Method and System for Handling Handover by Using Latitude and Longitude of Mobile Communication Terminal}

1 is an exemplary diagram showing a status of FA allocation in a base station of a WiBro system;

2 is a block diagram schematically illustrating a handover processing system using latitude and longitude of a mobile communication terminal according to an embodiment of the present invention;

3 is a flowchart illustrating a handover processing method using latitude and longitude of a mobile communication terminal according to an exemplary embodiment of the present invention.

<Description of Symbols for Main Parts of Drawings>

210: mobile communication terminal 220: serving base station

222: first neighbor base station 224: second neighbor base station

230: base station coverage map server 240: base station controller

250: mobile communication switching center 260: packet core network

270: first zone 272: second zone

274: third zone

The present invention relates to a method and system for handover processing using latitude and longitude of a mobile communication terminal. More specifically, in providing a mobile communication service to a mobile communication terminal, by using the latitude and longitude of the mobile communication terminal in the serving base station of the mobile communication network, a departure from the conventional handover method handed over by the mobile communication terminal Check whether the mobile communication terminal is located in the overlapping coverage area with the neighboring base stations, determine whether to perform the handover of the mobile communication terminal in consideration of the radio wave environment of the mobile communication terminal and instructs the handover of the mobile communication terminal A handover processing method and system using latitude and longitude of a mobile communication terminal.

The mobile communication system has been developed through the first generation analog AMPS (Advanced Mobile Phone System) method and the second generation cellular (Cellular) / Personal Communication Service (PCS) method. The third generation mobile communication system IMT-2000 (International Mobile Telecommunication 2000), which is enacted as a standard in ITU-R, is commercially available. IMT-2000 is CDMA 2000 1X, 3X, EV-DO, Wideband CDMA (WCDMA), etc., and is used in IS-95A and IS-95B networks by using the IS-95C network that has evolved from the existing IS-95A and IS-95B networks. It is a service that can provide wireless Internet at a transmission speed of up to 144 Kbps, much faster than the supportable data transfer rate of 14.4 Kbps or 56 Kbps. In particular, by using IMT-2000 service, it is possible to provide various multimedia services (AOD, VOD, etc.) at a faster speed as well as improving existing voice and wireless broadcasting service (WBS) service quality.

In addition, recently, as part of overcoming the limitations in providing the wireless Internet service of the aforementioned mobile communication system, a WiBro system (WiBro: Wireless Internet Broadband) that can use a high-speed wireless Internet service at a low rate while moving System) is under development.

WiBro system uses various types of portable terminals such as laptop, personal digital assistant (PDA) and handheld PC to access the Internet in indoor and outdoor stationary environments and mobile environments at walking speeds and low to medium speeds. It is a service that can use various information and contents. In addition, it enables mobile subscribers to use the wireless Internet while moving at a speed of 60 km / h, provides a downlink transmission speed of 24 Mbps, and a downlink transmission of 50 Mbps using a multiple input multiple output (MIMO) system. It is an IP (Internet Protocol) based wireless data system that can provide speed. Hereinafter, for convenience of description, the wireless communication service provided by the mobile communication system and the WiBro system will be referred to as a mobile communication service.

Meanwhile, in order to provide a mobile communication service to a subscriber of a mobile communication service, a base station for allocating a wireless channel to a mobile communication terminal, which is a terminal of a mobile subscriber, and providing a mobile communication service are installed throughout the mobile communication service area. Thus, wireless communication must be performed periodically or continuously between the mobile communication terminal and the base station.

However, a radio wave is transmitted and received between a mobile communication terminal and a base station. The radio wave transmission / reception intervals for transmitting and receiving radio waves cannot be infinite and are limited by the output of the base station. In other words, the area governed by one base station is limited. Accordingly, a system providing a mobile communication service may arrange a plurality of base stations in a service area so that the service can be used anywhere in the corresponding area, and in order for the mobile communication terminal to continuously access the wireless Internet while moving, the service area of a specific base station If they are out of service, they must hand over to another base station that has jurisdiction over the moved area so that the service continues to be available in the moved area.

In a conventional mobile communication system, a handover processing method continuously searches for neighbor base stations by parameters received from a serving base station, and when a signal received from a specific base station among neighbor base stations becomes good during the search. A handover request is made to the serving base station, and the serving base station allocates radio resources for the mobile communication terminal to the specific base station, thereby causing the mobile communication terminal to handover to the specific base station.

Here, the serving base station is a base station registered by a mobile communication terminal, and the mobile communication terminal receives a mobile communication service using the serving base station. In addition, the neighbor base station is a base station except the serving base station among the base stations of the area where the mobile communication terminal is located. In general, in the mobile communication system, the location of the base station is set so that the coverage area of the base station overlaps so that the mobile communication terminal can continuously receive the mobile communication service.

However, according to the above-described conventional handover processing method, when the mobile communication terminal is located in an area where the radio wave environment is poor, there is a high possibility of receiving a message requesting handover to the serving base station. If the message is missing, the mobile communication terminal cannot perform a handover to a neighboring base station, resulting in a call disconnection or too late during call or data communication, resulting in deterioration of call quality.

In addition, although there may be differences depending on a method of performing hard handover between FAs, the mobile terminal does not receive data from the serving base station while searching for neighboring base stations, so that the mobile terminal searches for neighboring base stations. And frequency depending on call quality or data communication quality.

1 is an exemplary diagram illustrating a FA allocation status in a base station of a WiBro system.

In a WiBro system, a frequency between sectors, i.e., FA (for example, 1 FA, 2 FA for 3 sectors, and 3 FA for γ sectors) is differently allocated within a base station to increase the radio wave capacity of the base station. When moving between sectors, a personal subscriber station (PSS: hereinafter referred to as a 'PSS') may use continuous service through an inter-FA handover. When the WiBro system is operated by allocating different FAs between sectors, the propagation capacity of the base station is approximately doubled, and the propagation environment is improved to reduce the investment cost.

In addition, the advantages of different allocation of FA between sectors include the reduction of interference between adjacent cells or sectors, the improvement of carrier-to-interface (C / I) due to the reduction of other cell interference, and the cell boundary area. The data rate is improved, and the capacity is increased by improving the overall carrier-to-interference ratio.

Meanwhile, in order to perform a handover between FAs in a WiBro service using a base station to which different FAs are allocated between sectors as described above, a target to which the PSS periodically performs a handover by allocating a scanning interval from the base station to the PSS Target Allows monitoring of nearby base stations to search for base stations. The PSS periodically monitors the neighbor base stations, for example, when the strength of the signal received from the neighbor base stations is greater than the strength of the signal received from the serving base station, requesting a handover to perform handover according to the handover procedure. Perform. That is, neighboring base stations should be scanned at predetermined intervals.

However, the PSS cannot transmit or receive data with the serving base station when scanning neighboring base stations. Therefore, the quality of service is affected according to the scanning rate, that is, the scanning cycle. If the scanning period is short, frequent scanning is required at a predetermined time, so the amount of data transmission and reception is reduced by the time for scanning, and the data transmission / reception delay time deteriorates the quality of service. In addition, when the scanning period is long, the reverse is reversed, thereby increasing the amount of data transmission and reception, thereby shortening the data transmission and reception delay time and improving the quality of service.

Although the WiBro system has been described above, in the mobile communication system providing wireless communication, the time for scanning the neighbor base stations for handover affects the quality. Therefore, in order to improve the quality of mobile communication service, it is necessary to reduce scanning time of neighboring base stations.

In order to solve this problem, the present invention is to use the latitude and longitude of the mobile communication terminal in the serving base station of the mobile communication network to overcome the conventional handover method that is handed over by the mobile communication terminal with neighboring base stations Determine whether the mobile communication terminal is located in the overlapping coverage area of the mobile communication terminal, determine whether to perform the handover of the mobile communication terminal in consideration of the radio wave environment of the mobile communication terminal, and then determine the latitude and longitude of the mobile communication terminal indicating the handover of the mobile communication terminal. It relates to a handover processing method and system used.

In order to achieve the above object, the present invention provides a specific neighboring base station among a plurality of neighboring base stations of a mobile communication terminal connected to a serving base station for a mobile communication service including a voice call service and a wireless data service to perform a mobile communication service. A method for processing a handover to a network, the method comprising: (a) receiving information about latitude and longitude of a mobile communication terminal from a mobile communication terminal; (b) identifying a location of the mobile communication terminal using information on latitude and longitude, and checking whether the mobile communication terminal is located within a handover boundary area; (c) requesting measurement of the radio wave environment from the mobile communication terminal when the mobile communication terminal is located within the handover boundary area as a result of the checking in step (b); (d) receiving information on a radio wave measurement result, which is a result of measuring a radio wave environment, from the mobile communication terminal; (e) analyzing the information on the radio wave environment measurement result to identify the radio wave environment and confirming whether the mobile communication terminal should perform handover to a specific neighboring base station; And (f) instructing to perform handover to the mobile communication terminal when the mobile communication terminal needs to perform handover to a specific neighboring base station as a result of checking in step (e). A handover processing method using latitude and longitude of a terminal is provided.

According to another object of the present invention, a particular base station of a plurality of neighbor base stations of a mobile communication terminal connected to a serving base station for a mobile communication service including a voice call service and a wireless data service to perform a mobile communication service. A method for processing a handover to a network, the method comprising: (a) receiving and storing base station coverage map data of a serving base station and a plurality of neighbor base stations; (b) receiving information about latitude and longitude of the mobile communication terminal from the mobile communication terminal; (c) confirming whether the mobile communication terminal is located in a handover boundary area by mapping information about latitude and longitude to base station coverage map data; And (d) instructing to perform handover to the mobile communication terminal when the mobile communication terminal is located within the handover boundary as a result of checking in step (c). Provides a method for handling handover using a longitude.

In addition, according to another object of the present invention, the mobile communication terminal includes a serving base station and a plurality of neighbor base stations around the serving base station performing a mobile communication service including a voice call service and a wireless data service, In a system for processing a handover from a serving base station to a specific base station among a plurality of neighbor base stations, when connected to the serving base station and receiving information about latitude and longitude of the mobile communication terminal from the mobile communication terminal, latitude and The location of the mobile communication terminal is determined by using the information on the longitude, and whether the mobile communication terminal is located within the handover boundary area. Request measurement and propagate from mobile terminal When receiving the information on the radio wave measurement result, which is the result of the environmental measurement, the radio wave environment is analyzed to determine the radio wave environment by checking the information on the radio wave environment measurement result, and to determine whether the mobile terminal should perform handover to a specific neighboring base station. If the mobile communication terminal needs to perform a handover to a specific neighboring base station, the mobile station uses the latitude and longitude of the mobile communication terminal, the base station coverage map server instructing to perform the handover. To provide a system for handling handover.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. First of all, in adding reference numerals to the components of each drawing, it should be noted that the same reference numerals are used as much as possible even if displayed on different drawings. In addition, in describing the present invention, when it is determined that the detailed description of the related well-known configuration or function may obscure the gist of the present invention, the detailed description thereof will be omitted.

In addition, in the following description of a preferred embodiment of the present invention, it is assumed that the mobile communication network is a Code Division Multiple Access (CDMA) 2000 system. However, the present invention is not limited to this assumption, but may be used in another mobile communication system providing a wireless communication service, that is, a WCDMA (Wideband CDMA) system or a WiBro (Wireless Internet Broadband) system.

2 is a block diagram schematically illustrating a handover processing system using latitude and longitude of a mobile communication terminal according to an exemplary embodiment of the present invention.

In the handover processing system using the latitude and longitude of the mobile communication terminal according to the preferred embodiment of the present invention, the mobile communication terminal 210, the serving base station 220, the first neighbor base station 222 to the second neighbor base station 224 , A base station coverage map server 230, a base station controller 240, a mobile communication switching center (MSC: Mobie Switching Center, 250), and a packet core network (PCN: Packet Core Network, 260).

In FIG. 1, the base station of the CDMA system is represented by a serving base station 220, a first neighbor base station 222, and a second neighbor base station 224, but in practice, there may be one or more base stations. That is, although a plurality of base stations may be located around the mobile communication terminal 210, only the serving base station 220, the first peripheral base station 222, and the second peripheral base station 224 are shown for convenience of description.

Hereinafter, when it is not necessary to distinguish each base station, the serving base station 220, the first neighbor base station 222, and the second neighbor base station 224 will be referred to as a mobile communication base station. In addition, hereinafter, a network including a mobile communication base station, a base station controller 240, a mobile communication switching center 250, and a packet core network 260 is referred to as a mobile communication network for convenience of description. In addition, for convenience of description, the first region 270, the second region 272, and the second neighbor base station 224, the service region governed by the serving base station 220, the first region 270, and the first neighbor base station 222. This jurisdiction of service areas is referred to as third area 274.

The mobile communication terminal 210 wirelessly connects with a mobile communication network to perform a voice call function for performing a normal voice call by wireless communication with another mobile communication terminal or a wired telephone, as well as a wireless data communication service provided by a mobile communication network. Perform

Here, the mobile communication terminal is a PDA (Personal Digital Assistant), cellular phone, PCS (Personal Communication Service) phone, Hand-Held PC (GSM), Global System for Mobile (GSM) phone, W-CDMA (Wideband CDMA) The phone may be a phone, a CDMA-2000 phone, a mobile broadband system (MBS) phone, or the like, and the type may be determined according to the type of mobile communication system constituting the mobile communication network. Here, MBS phone refers to a mobile phone to be used in the fourth generation system currently being discussed.

Unlike a typical mobile communication terminal, the mobile communication terminal 210 according to the preferred embodiment of the present invention is equipped with a satellite positioning system (GPS) receiver and uses a GPS receiver. It generates information about its latitude and longitude from the satellite navigation data received from the satellite and transmits it to the mobile communication base station.

In addition, unlike the conventional mobile communication terminal, the mobile communication terminal 210 according to the preferred embodiment of the present invention periodically checks the neighboring base stations of the region where it is located, that is, the first neighboring base station (not the serving base station 220). 222 and the second neighboring base station 224, after selecting a specific base station to perform the handover to perform the handover rather than transmitting the above-described information about its latitude and longitude to the serving base station 220 Then, the serving base station 220 is instructed to perform a handover to a specific neighbor base station, that is, the first neighbor base station 222 or the second neighbor base station 224 to perform the handover.

In addition, the mobile communication terminal 210 according to the preferred embodiment of the present invention instructs the serving base station 220 to perform handover to a specific neighboring base station after transmitting information on its latitude and longitude as described above. When receiving a request to measure the radio wave environment from the serving base station 220 before receiving the measurement of the radio wave environment around the area of its location and transmits the information about the measurement result to the serving base station 220.

The mobile communication base station, that is, the serving base station 220, the first neighboring base station 222 and the second neighboring base station 224 is a base station of a mobile communication system implementing a mobile communication network, and the mobile communication terminal through a traffic channel of the signal channel ( Receives a call request signal from the 210, transmits the received call request signal to the base station controller 240, and performs the baseband signal processing, wired and wireless conversion, transmission and reception of wireless signals directly to the mobile communication terminal 210 A network endpoint device that is connected.

When the mobile communication base station according to the preferred embodiment of the present invention completes call setup and traffic connection with the mobile communication terminal 210, information on latitude and longitude of the mobile communication terminal 210 periodically from the mobile communication terminal 210 Receive and transmit to the base station coverage map server 230. In addition, the mobile communication base station according to the preferred embodiment of the present invention relays a signal or message transmitted and received between the mobile communication terminal 210 and the base station coverage map server 230 for handover of the mobile communication terminal 210.

The serving base station 220 according to the preferred embodiment of the present invention manages the first area 270 as a service area, and is a base station where location registration is performed by the mobile communication terminal 210. A mobile communication service is provided using the serving base station 220. The first neighbor base station 222 and the second neighbor base station 224 according to the preferred embodiment of the present invention manage the second region 272 and the third region 274 as the service region, respectively, and the mobile communication terminal 210 ) Moves to the service area and performs handover, and then location registration is performed. The mobile communication terminal 210 performs a handover from this time, and receives a mobile communication service using the first neighbor base station 222 or the second neighbor base station 224 which performed the location registration as the serving base station.

Here, the serving base station 220, the first neighbor base station 222 and the second neighbor base station 224, as shown in Figure 1 so that the mobile communication terminal 210 can continue to receive a mobile communication service while moving Jurisdictions, that is, base station coverage areas, overlap. Therefore, in the overlapped area, the mobile communication terminal 210 receives signals from a plurality of base stations that control the area, and the conventional mobile communication terminal 210 performs a handover to a base station having a good reception signal. In the present invention, the main feature of the serving base station 220 determines and indicates whether the mobile communication terminal 210 performs handover.

The base station coverage map server 230 according to the preferred embodiment of the present invention is implemented as a network server, and receives and stores the coverage map data of the mobile communication base station from an operator operating a mobile communication network, and moves from the serving base station 220. Upon receiving the information on the latitude and longitude of the communication terminal 210, the location of the mobile communication terminal 210 is checked, and the coverage map data of the serving base station 220 is checked to determine the location and serving of the mobile communication terminal 210. By comparing the base station coverage of the base station 220, it is determined whether the mobile communication terminal 210 is located in the handover boundary area.

In addition, the base station coverage map server 230 according to the preferred embodiment of the present invention, when the mobile communication terminal 210 is located in the handover boundary area as described above, the mobile communication terminal 210 searches for neighboring base stations In order to minimize the time required, information about the neighboring base stations (i.e., the first neighboring base station 222 and the second neighboring base station 224) located in the vicinity of the region where the mobile communication terminal 210 is located and the information about the measurement period are provided. When generating and transmitting to the mobile communication terminal 210 through the serving base station 220 to request to measure the radio wave environment of the area, and receives the information on the radio wave environment measurement results from the mobile communication terminal 210, mobile communication After determining the handover by comprehensively determining the position, the moving speed, and the radio wave environment of the terminal 210, and when it is time to perform the handover to the mobile communication terminal 210, And it instructs to perform the handover to the station (that is, a first neighbor base station 222 or the second neighbor base station 224).

In the present invention, the coverage map data maps the coverage area of each base station with respect to a plurality of base stations to data the information indicated by latitude and longitude. The coverage map data is data generated so that an operator can measure coverage areas of all base stations of a mobile communication network, map the maps, and determine a base station that has jurisdiction over a location corresponding to the latitude and longitude when a specific latitude and longitude are input. to be.

Therefore, the base station coverage map server 230 according to a preferred embodiment of the present invention stores the coverage map data input from the operator and receives the latitude and longitude information from the mobile communication terminal 210, the latitude and longitude When the location corresponding to the location is within the coverage area of the coverage area of the serving base station 220 and one or more neighboring base stations of the first neighboring base station 222 and the second neighboring base station 224 by comparing the location with the coverage map data. It is determined that the location of the mobile communication terminal 210 is located in the handover boundary area.

In FIG. 1, a base station coverage map server 230 is independently provided in a mobile communication network, and is connected to a plurality of mobile communication base stations to store coverage map data for a plurality of mobile communication base stations to perform handover of the mobile communication terminal 210. Although illustrated and described as determining whether or not, in the present invention, the base station coverage map server 230 may be embedded in each mobile communication base station to determine whether to perform the handover of the mobile communication terminal 210 as described above. That is, in the present invention, the installation location of the base station coverage map server 230 is not important, but the base station coverage map server 230 stores the coverage map data of the base station, and information about latitude and longitude from the mobile communication terminal 210. When receiving the request to determine whether the location is located in the handover area to measure the radio wave environment, and receives the result is determined whether the handover is required to transmit to the mobile communication terminal 210.

The base station controller 240 is a base station controller of a mobile communication network, and controls a plurality of base stations under its jurisdiction, that is, a mobile communication base station (serving base station 220, a first neighbor base station 222, and a second neighbor base station 224). The radio channel allocation and release of the mobile communication terminal 210 and the transmission output control of the mobile communication terminal 210 and the mobile communication base station are performed.

The mobile communication switching center 250 performs basic and additional service processing for providing a voice communication service, incoming and outgoing call processing of a subscriber, location registration procedure and handoff procedure, and interworking with other networks. The packet core network 260 may include a high speed data service for providing a packet data communication service, an internet / intranet access service, a virtual private network (VPN) access service, a simple IP and a mobile IP service, Performs Point-to-Point Protocol (PPP) authentication, billing, and packet compression.

3 is a flowchart illustrating a handover processing method using latitude and longitude of a mobile communication terminal according to an exemplary embodiment of the present invention.

The operator operating the mobile communication network generates coverage map data for each base station by observing, measuring, and analyzing the coverage areas of all base stations in the mobile communication network, and then, in the base station coverage map server 230 installed in each base station dependently or independently. Input and store (S310).

When the mobile subscriber operates the mobile communication terminal 210 to use the voice call service or the wireless data service using the mobile communication service, the mobile communication terminal 210 is located in the area where it is located, that is, the first area 270. Complete the call setup and traffic connection with the serving base station 220, which is a base station located at (S320). In this case, the mobile communication terminal 210 performs a handover to the serving base station 220 as the mobile subscriber moves from the other region to the first region 270, and thus the call setup and traffic connection are the same.

The mobile communication terminal 210 that completes call setup and traffic connection with the serving base station 220 generates information on latitude and longitude of its location using a GPS receiver periodically provided, and then serves the serving base station 220. Send. The serving base station 220 periodically receives information on the latitude and longitude of the mobile communication terminal 210 from the mobile communication terminal 210 and transmits the information to the base station coverage map server 230 (S330).

The base station coverage map server 230 receiving the latitude and longitude information of the mobile communication terminal 210 determines the location of the mobile communication terminal 210 by checking the latitude and longitude information and determines the location of the mobile communication terminal 210. (S340) checks whether the mobile communication terminal 210 is in a handover boundary area by comparing the location of the mobile station with the previously stored coverage map data (S350).

The base station coverage map server 230 waits until the mobile communication terminal 210 receives information about latitude and longitude from the mobile communication terminal 210 again when the mobile communication terminal 210 is not in the handover boundary region as a result of checking in step S350. If the mobile communication terminal 210 is located in a handover boundary area, the serving base station 220 is used to grasp the radio wave environment of the area where the mobile communication terminal 210 is located before determining whether to perform the handover. To request the mobile communication terminal 210 to measure the radio wave environment (S360). At this time, the base station coverage map server 230 measures the time for the mobile communication terminal 210 to scan the neighboring base station, that is, the first neighboring base station 222 to the second neighboring base station 224 in measuring the radio wave environment. In order to minimize and prevent quality deterioration, information about a neighboring base station requiring scanning and information about a measurement period are generated and transmitted together.

The mobile communication terminal 210 that is requested to measure the radio wave environment together with the information about the neighboring base station and the measurement cycle, uses the received neighboring base station and the information about the neighboring base station, that is, the first neighboring base station ( 222 and the second neighboring base station 224 are scanned, and the scanned result is generated as the information on the radio wave environment measurement result and transmitted to the base station coverage map server 230 through the serving base station 220.

The base station coverage map server 230, which has received the information on the radio wave environment measurement result, measures the latitude and longitude of the mobile communication terminal 210, the movement speed and the radio wave environment measurement of the mobile communication terminal 210 received in step S330. The radio wave environment determined using the information on the result is comprehensively determined to determine whether the mobile communication terminal 210 should perform a handover (S390).

If the mobile communication terminal 210 does not need to perform a handover, the base station coverage map server 230 may receive information on the next radio wave environment measurement result from the mobile communication terminal 210. When the mobile communication terminal 210 needs to perform a handover, the neighboring base station (ie, the first neighboring base station 222) to perform the handover to the mobile communication terminal 210 when the handover is to be performed. Or it is instructed to perform a handover to the second neighbor base station 224 (S392). The mobile communication terminal 210 instructed to perform the handover performs the handover to the corresponding base station (S394).

Thus, the mobile communication terminal 210 is handed over from the base station coverage map server 230 through the serving base station 220, when the handover is notified of the neighboring base station to perform the handover to perform a handover An over method, that is, the mobile communication terminal 210 may prevent handover failure or handover delay that may occur due to a method of periodically performing scanning of neighboring base stations, and a time for scanning neighboring base stations. In this way, the quality of mobile communication service can be improved.

The above description is merely illustrative of the technical idea of the present invention, and those skilled in the art to which the present invention pertains may make various modifications and changes without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are not intended to limit the technical idea of the present invention but to describe the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. The protection scope of the present invention should be interpreted by the following claims, and all technical ideas within the equivalent scope should be interpreted as being included in the scope of the present invention.

As described above, according to the present invention, when a mobile communication terminal performs a handover in a mobile communication service, the mobile communication network determines a time point for performing a handover to a mobile communication terminal and a neighbor base station to perform the handover. By instructing the handover to be performed, the mobile communication terminal directly scans neighbor base stations to determine whether to perform a handover, and transmits a message requesting a handover to perform the handover. Handover failure or handover delay due to the loss of a message requesting handover, and deterioration of quality that may occur due to periodic scanning of neighboring base stations may be prevented.

Claims (10)

Handles a handover to a specific neighboring base station among a plurality of neighboring base stations of the mobile communication terminal which is wirelessly connected to a serving base station for a mobile communication service including a voice call service and a wireless data service. In the way, (a) receiving information on latitude and longitude of the mobile communication terminal from the mobile communication terminal; (b) identifying the location of the mobile communication terminal using information on the latitude and longitude, and checking whether the mobile communication terminal is located within a handover boundary area; (c) requesting measurement of a radio wave environment from the mobile communication terminal when the mobile communication terminal is located within the handover boundary area as a result of the checking in step (b); (d) receiving information on a radio wave environment measurement result which is a result of measuring the radio wave environment from the mobile communication terminal; (e) analyzing the information on the radio wave environment measurement result to identify the radio wave environment, and confirming whether the mobile communication terminal should perform the handover to the specific neighboring base station; And (f) instructing the mobile communication terminal to perform the handover when the mobile communication terminal needs to perform the handover to the specific neighboring base station as a result of the checking in step (e). Handover processing method using the latitude and longitude of the mobile communication terminal comprising a. The method of claim 1, wherein the method is Before step (a) above, (a-1) receiving and storing base station coverage map data of coverage areas of the serving base station and the plurality of neighbor base stations; Handover processing method using the latitude and longitude of the mobile communication terminal further comprising a. The method of claim 1, wherein the method is After step (c), (c1) transmitting information on the plurality of neighbor base stations and information on measurement periods to the mobile communication terminal; Handover processing method using the latitude and longitude of the mobile communication terminal further comprising a. The method of claim 3, wherein in step (d), The mobile communication terminal measures the radio wave environment by using information on the plurality of neighbor base stations and the information on the measurement period and generates information on the radio wave environment measurement result. How to handle handover using longitude. The method of claim 1, wherein in step (e), Determining whether the mobile communication terminal should perform the handover to the neighboring base station by comprehensively determining one or more of the radio wave environment, the location of the mobile communication terminal, and the moving speed of the mobile communication terminal. Handover processing method using latitude and longitude of mobile communication terminal. Handles a handover to a specific neighboring base station among a plurality of neighboring base stations of the mobile communication terminal which is wirelessly connected to a serving base station for a mobile communication service including a voice call service and a wireless data service. In the way, (a) receiving and storing base station coverage map data of the serving base station and the plurality of neighbor base stations; (b) receiving information on latitude and longitude of the mobile communication terminal from the mobile communication terminal; (c) confirming whether the mobile communication terminal is located within a handover boundary area by mapping the latitude and longitude information to the base station coverage map data; And (d) instructing the mobile communication terminal to perform the handover when the mobile communication terminal is located within the handover boundary as a result of the checking in step (c). Method for processing a handover using the latitude and longitude of the mobile communication terminal comprising a. A serving base station of a mobile communication terminal performing a mobile communication service including a voice call service and a wireless data service, and a plurality of neighbor base stations around the serving base station, wherein the plurality of neighbor base stations are located from the serving base station of the mobile communication terminal; In the system for processing a handover (Handover) to a specific base station of the, When connected to the serving base station, and receives information about the latitude and longitude of the mobile communication terminal from the mobile communication terminal, using the information on the latitude and longitude to determine the location of the mobile communication terminal, the mobile Check whether the communication terminal is located within the handover boundary area, and if the mobile communication terminal is located within the handover boundary area, request the measurement of the radio wave environment from the mobile communication terminal, and determine the radio wave environment from the mobile communication terminal. When receiving the information on the radio wave environment measurement result, which is the result of the measurement, the information on the radio wave environment measurement result is analyzed to determine the radio wave environment, and whether the mobile communication terminal should perform the handover to the specific neighboring base station. After checking whether or not the mobile communication terminal Base station coverage map server instructing the mobile communication terminal to perform the handover when it is necessary to perform the handover to a neighboring base station. System for processing handover using the latitude and longitude of the mobile communication terminal comprising a. The method of claim 7, wherein the base station coverage map server, In requesting the mobile communication terminal to measure the radio wave environment, latitude and longitude of the mobile communication terminal are transmitted to the mobile communication terminal. System for handling handover. The method of claim 7, wherein the base station coverage map server, And receiving and storing base station coverage map data of a coverage area of the serving base station, using the latitude and longitude of the mobile communication terminal. The method of claim 7, wherein the base station coverage map server, Determining whether the mobile communication terminal should perform the handover to the neighboring base station by comprehensively determining one or more of the radio wave environment, the location of the mobile communication terminal, and the moving speed of the mobile communication terminal. Handover processing system using latitude and longitude of mobile communication terminal.

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