KR19990048410A - Geographic Information Service Device and Method - Google Patents

Abstract

The present invention relates to a geographic information service apparatus and method for identifying geographic information of a mobile station by providing location information of a mobile station as an additional service of mobile communication, and transmitting a service call message and receiving geographic information. A mobile station displaying a message, a base station receiving a service call message from one or more of the mobile stations moving within a predetermined service area and transmitting geographic information to the mobile station, and receiving a service call message from the plurality of base stations and correspondingly. The mobile telephone registers the identification number and location of the mobile station and receives the call type that matches the call type set by the geographic information service. Switching station, extracted from the mobile telephone switching station And a processor for converting base station location information into a search index of geographic information and transmitting corresponding geographic information to the mobile station. According to the present invention, in order to obtain geographic information on a location where a mobile station is located, As a control procedure between the base station and the mobile station without a calculation procedure, the location of the MS can be identified and corresponding geographic information can be provided.

Description

Geographic information service device and method

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a mobile communication service device, and more particularly, to a geographic information service device and method for providing location information of a mobile station by providing location information of a mobile station as an additional service of mobile communication.

In general, mobile communication services are classified into land, sea, and air according to the use area. Base stations can be installed on the ground or satellites. The development of land mobile communication service with the most demand among them has been practically applied from shortwave to microwave, and its use is seen in cellular phone, paging, cordless phone. ).

A procedure for determining the location of a Mobil Unit in such a mobile communication system is given in US Pat. No. 5602903. That is, a plurality of RF measurements can be determined for a plurality of predetermined distances and directions in cooperation with a wireless receiver for each base station, and projected onto a map information system based on the RF measurements determined for each base station. Model in the form of a scale contour with maximum and minimum boundaries present, determine RF measurements from neighboring base stations, and determine the position of the mobile device with the maximum and minimum error estimates from the corresponding contours of the RF measurements from neighboring base stations. Determine where to intersect to form the bounding polygon region that it describes. However, the above procedure requires modeling of a wide range of areas where the measurement and measurement of various RF data for each base station is not performed, and the above measurement and modeling are required for neighboring cell sites. The contour must be set in advance, and there is a problem that the above modeling is incomplete because of various features that affect the RF measurement.

The technical problem to be achieved by the present invention relates to a geographic information service apparatus and method for determining the current position of the mobile terminal by a simple control procedure between the mobile station and the base station in a cellular communication system and providing corresponding geographic information. .

1 is a block diagram showing a general cellular communication system.

2 is a block diagram illustrating a conceptual diagram of a general cellular communication system service.

3 is a block diagram showing a geographic information service apparatus of a cellular communication system according to the present invention.

4 is a detailed view of the MS of FIG.

FIG. 5 is a flowchart illustrating a geographic information service procedure between the MTSC and the MS of FIG. 3.

In order to solve the above technical problem, a geographic information service apparatus of a cellular communication system, comprising: a mobile station for transmitting a service call message and displaying received geographic information; A base station for receiving a service call message from one or more of the mobile stations moving within a predetermined service area and transmitting geographic information to the mobile station; Receiving a service call message from the plurality of base stations and performing a series of call processing corresponding thereto, and registering the identification number and location of the mobile station, and receiving a call type that matches the call type set in the geographic information service. A mobile switching center which extracts corresponding base station location information from a paging message; And a processor for converting base station location information extracted from the mobile switching center into a search index of geographic information and transmitting corresponding geographic information to the mobile station.

In order to solve the above other technical problem, a method of geographic information service between a mobile switching center and a mobile station, the method comprising: a first step of calling the geographic information on the location where the mobile station is currently located to the mobile station through a preset number;

A second step of the mobile switching center confirming a call type from the first step and allocating a predetermined channel of the base station; A third step of obtaining a geographic information search index from the location information of the base station received in the first step when the mobile telephone exchange station receives the geographic information from the mobile station; And a fourth step of transmitting, by the mobile telephone switching station, geographic information corresponding to a geographic information search index to the mobile station in the third process.

Hereinafter, exemplary embodiments of the present invention will be described with reference to the accompanying drawings.

1 is a block diagram showing a general cellular communication system.

The cellular communication system shown in FIG. 1 includes a public switched telephone network (hereinafter referred to as PSTN) 110, a mobile telephone switching center (hereinafter referred to as MTSC) 120, 130 and 140, and a cell site. Site) A plurality of base stations (hereinafter referred to as BSs) including a transceiver and a mobile station (hereinafter referred to as MS) 154 which is a mobile communication service subscriber station. The MS 154 communicates with other subscriber terminals (wired or wireless terminals) via the BS at the point where it is located as the terminal of the wireless subscriber. Typical MSs include conventional cell phones (also known as HP or cellular phones) or wireless data transmission devices (such as notebook PCs combined with RF modems). The BS transmits RF signals within the cell site, and receives RF signals sent from one or more MSs 154 moving within its cellular service area. Here, the cellular service area is an area that a BS can serve and includes an area ranging from several kilometers in radius to 200 to 300 meters depending on the strength of a signal transmitted and received between the BS and the MS 154. The communication channel used in one cell site has two different frequencies allocated to allow full-duplex transmission. That is, one frequency transmits a signal from BS to MS 154 and the other frequency from MS 154 to BS. Some of these channels are used as control channels for transmitting signaling and control (call set up) signals. In addition, one control channel is allocated to each BS, and the remaining channels are used as voice and data channels for transmitting voice or data.

When the MS 154 is in the idle state (switched on and unused), the signal is tuned to the strongest control channel (typically the control channel of the cell in which the MS 154 is located at that point). Send its own unique identification number for delivery to the MTSC (120, 130, 140) to the BS. The MS 154 continuously monitors the control channel to tune to the strongest control channel even as the position moves. When the MS 154 is connected to the BS, the subscriber can know the fact through the service available indicator of the terminal. When a mobile subscriber makes a call, the initial connection with the BS is through a control channel. The BS then allocates an unused voice channel, and the MS 154 and BS are connected to this voice channel during the call.

FIG. 2 is a block diagram illustrating a general cellular communication system service, and includes a first cell site 220 including an MS and a first BS (BS1), and a second cell site 210 including a second BS (BS2). The MTSC 230 includes a MTSC transceiver 282 and a central call processor 234. .

If one wants to call another MS from a regular phone connected to one MS or PSTN 110, the caller must first connect to the cellular telephone system. This is done by dialing a unique identification number (phone number) held by each MS. As shown in FIG. 2, the MTSC 230 receives a call request and instructs a central call processor 234 therein to initiate call processing. The central call processor 234 then sends a page signal to the other MS indicating that it is being called via a dedicated control channel. The call signal contains the identification number (telephone number) of the called MS. The MTSC 230 moves from the first BS (BS1) to the second BS (BS2) when the MS moves to another service area, that is, another cell site, while maintaining the service state (for example, a call state) within the cellular area of the cellular telephone system. Pass the call (hand off or hand over) to continue service. At this time, the MTSC 230 selects an unused channel among the voice channels of the second BS BS2 to convert the first voice channel currently being used in the first BS BS1 into the second voice channel of the newly selected second BS BS2. Send a handoff message instructing the second BS BS2 to switch.

3 is a block diagram showing a geographic information service apparatus of a cellular communication system according to the present invention, the MS 310, the plurality of BSs 322, 324, 326, the MTSC 330, the service subscriber list 340, Geographic information retrieval processor 350, and geographic information database 360.

As shown in FIG. 3, when power is applied, the MS 310 scans control channels and selects the strongest channel among them, and registers its identification number and location with the MTSC 330 through the channel. Send a signal for Since the signal is transmitted through one control channel, the cellular communication system knows which part of the MTSC 330's service area, that is, the transceiver of which cell site is calling.

The mobile phone subscriber who wants the geographic information service accesses the MTSC 330 from his MS 310 by inputting a contracted service code (for example, a number such as "# 180") through the MS's keyboard. When the MS subscriber enters the service code through the keyboard of the MS 310 and presses the “SEND” key, the MS 310 sends a service call message composed of the entered service code and the MS's mobile identity to the current location. It is transmitted to the transceiver included in the BS 322, 324, 326 through a control channel serving as the cell site. The MTSC 330 compares each MS's identification number received from the BS 322, 324, 326 with the identification number stored in the service subscriber list 340, and checks whether the subscriber is a registered subscriber. And assign a data channel. When the MTSC 330 receives a call type that matches the pattern of a service call set up as a geographic information service, the MTSC 330 detects information on the location of the BS 322, 324, 326, that is, the identification information of the BS 322, 324, 326. The geographic information retrieval processor 350 receives the identification information of each BS from the MTSC 330 and converts it to a search index of the geographic information database 360. The geographic information retrieval processor 350 also reads geographic information corresponding to the current location of the MS 310 from the geographic information database 360 and transmits the geographic information corresponding to the search index to the MS 310. In this case, a protocol of Transmission Control Protocol / Internet Protocol (TCP / IP) is used between the MTSC 330 and the MS 310 to transmit geographical information.

4 is a detailed view of the MS 310 of FIG. 3, and includes an RF data transceiver module 410, an interface unit 420, and a geographic data processor 432 including an RF data transceiver 412 and a keypad 414. And a geographic information display unit 430 including a display unit 434.

As shown in FIG. 4, the RF data transceiver 412 receives RF data, which is geographic information read from the geographic information database 360, through the antenna 408, and receives a contracted service code through the keyboard 414. do. The geographic data processor 432 performs JPEG decoding if the geographic information received from the RF data transceiver 412 requires proper processing, i.e. JPEG coded geographic information, and displays the result on the display 434. do. In addition, the RF data transmission and reception module unit 410 requires a data transmission protocol for the transmission of geographic information. That is, in the case of the CDMA cellular communication system, TIA / EIA / IS-657 (Packet mode) and TIA / EIA / IS-99 (Circuit mode) are used. The RF data transmission / reception module unit 410 and the geographic information display unit 430 directly connect to the interface 420 for connecting serial binary data or connect EIA / TIA-232-E.

5 is a flowchart illustrating a geographic information service procedure between the MTSC 330 and the MS 310 of FIG. 3.

First, the MS 310 dials the MTSC 330 via a preset number to request a connection (510) to call the geographic information for the current location. The MTSC 330 checks the call type and connects (520) by allocating an unused channel among the voice and data channels of the BSs 322, 324 and 326 to the MS 310. When the MS 310 calls the data, the MTSC 330 obtains an index for searching a geographic information database obtained from the BS location information (BS identification number) previously transmitted in the procedure of 510. The MTSC 330 finally transmits the geographic information extracted from the geographic information database 360 to the MS 310 (540).

When the MS 310 moves between cells while the geographic information service is being provided, the MTSC 330 performs handoffs between the BSs 322, 324, 326 as if it performed a hand off during a voice call. Perform. As shown in FIG. 2, if the MS 310 moves from the first cell site 220 to the second cell site 210, the MTSC 330 determines the voice and data channels available in the second cell site 210. Selects and orders the first BS BS1 of the first cell site 220 to send a handoff message to the MS. The handoff message includes information informing the MS to tune the voice and data channels selected at the second cell site 210. The MTSC 330 transmits geographic information through a newly established channel. At this time, the MTSC 330 searches the geographic information database using the identification number of the second BS BS2 and transmits the geographic information corresponding to the input identification number to the MS through the changed voice and data channels during handoff. The MS displays the received geographic information. When the service call is released in the same manner as the use of the mobile phone in the voice call service, the MS returns to the standby or idle state again.

The present invention is not limited to the above-described embodiment, and of course, modifications may be made by those skilled in the art within the spirit of the present invention. That is, by connecting a mobile phone with a data transmission function and a TIA / EIA-232-E connection device to a display device with a geographic information data processing function, a geographic information service can be provided through a cellular communication network. And a mobile phone equipped with a TIA / EIA-232-E connection device and a PDA equipped with a geographic data processing function to provide a geographic information service through a cellular communication network.

As described above, according to the present invention, in order to obtain geographic information on a location where a mobile station is located, the MS is located as a control procedure between the base station and the mobile station without a separate location search or calculation procedure, and then the corresponding geographic information is obtained. Can provide.

Claims (11)

In the geographic information service apparatus of a cellular communication system, A mobile station for transmitting a service call message and displaying received geographic information; A base station for receiving a service call message from one or more of the mobile stations moving within a predetermined service area and transmitting geographic information to the mobile station; Receiving a service call message from the plurality of base stations and performing a series of call processing corresponding thereto, and registering the identification number and location of the mobile station, and receiving a call type that matches the call type set in the geographic information service. A mobile switching center which extracts corresponding base station location information from a paging message; And a processor for converting base station location information extracted from the mobile switching center into a search index of geographic information and transmitting corresponding geographic information to the mobile station. The apparatus of claim 1, wherein the service call message of the mobile station includes a contracted service code and an identification number. The geographic information service apparatus according to claim 1, further comprising a geographic information database in which a plurality of geographic information read in accordance with a search index of the geographic information search processor is stored. The geographic information service apparatus according to claim 1, wherein the mobile telephone exchange station allocates a voice and a data channel for data transmission when the identification number stored in the subscriber list and the identification number of the mobile station match. 2. The mobile station of claim 1, wherein the mobile station comprises: an RF receiver for receiving the geographic information data; And a geographic information display unit for processing a signal according to the geographic data received from the RF receiver and displaying the same on a screen. 6. The geographic information service apparatus according to claim 5, wherein the geographic information display section includes a geographic data processor which processes the received geographic data as a JPEG decoding signal. The geographic information service apparatus of claim 5, wherein the RF receiver comprises a data transmission protocol for transmitting geographic information. 8. The geographic information service apparatus of claim 7, wherein the transmission protocol is TCP / IP. The geographic information service apparatus according to claim 5, wherein the RF receiver and the geographic information display unit are connected by EIA / TIA-232-E. 5. The geographic information service apparatus according to claim 4, wherein the RF receiver and the geographic information display are directly connected. In the geographic information service method between a mobile switching center and a mobile station, A first step of calling the geographic information on the place where the mobile station is currently located to the mobile station through a preset number; A second step of the mobile switching center confirming a call type from the first step and allocating a predetermined channel of the base station; A third step of obtaining a geographic information search index from the location information of the base station received in the first step when the mobile telephone exchange station receives the geographic information from the mobile station; And a fourth step of transmitting, by the mobile telephone switching station, geographic information corresponding to a geographic information search index to the mobile station in the third process.