KR19990024511A - Method for providing location service of mobile station by attaching GPS terminal to personal mobile communication and mobile communication - Google Patents

Abstract

Personal Mobile Communication (PCS) by attaching a GPS terminal for mobile communication (hereinafter referred to as a GPS terminal) to a personal mobile communication (PCS) and a mobile phone (PCS). And attaching a GPS terminal to the mobile station of the cellular phone to detect a signal confirming the current position through the position data and time difference of each satellite transmitted from the satellite to determine the latitude and longitude corresponding to the current position. If the mobile station is located at a location where the mobile station belongs to the base station to which the mobile station belongs, and the location information cannot be received from the satellite, only the personal mobile communication (PCS) and cellular phone subscriber numbers are used. By providing the mobile station's location service using personal mobile communication (PCS), which sends information to the mobile station's current location, transporters and taxi companies are registered with service providers at low prices. Accurately determine the current location of vehicles equipped with mobile stations and employees who own mobile stations. One building can determine your approximate location, such as a radius around your location but do not receive data from the satellite 2㎞ can improve the efficiency and productivity of your business.

Description

A method for providing a location service of a mobile station (MS) by attaching a GPS terminal to a personal mobile communication (PCS) and a mobile communication (cellualar)

The present invention relates to a method for providing a location service by attaching a GPS terminal to a personal mobile communication (PCS) and mobile communication, the conventional method of location service using mobile communication as shown in Figure 1 In the system using TRS, there is a system to identify the position of mobile station by each company (e.g. Company A or Company B) by attaching Global Positioning System (GPS) terminal to each mobile station, but the terminal using GPS is expensive and mobile station In order to check the location of the mobile station and the command station must be in a call state, so there was a disadvantage in that unnecessary communication must be performed for location checking.

The present invention is a method for providing a mobile station positioning service by attaching a mobile communication GPS terminal (hereinafter referred to as a GPS terminal) to a personal mobile communication (PCS) and a cellular communication (cellular terminal) in order to solve the problems as in the prior art. GPS terminals are attached to mobile stations of communication (PCS) and cellular phones to detect signals transmitted from satellites to determine the latitude and longitude corresponding to the current location, and the corresponding mobile stations together with the data corresponding to the PCS subscriber number. If the mobile station is located at a location where the mobile station transmits to the base station to which the mobile station belongs and cannot receive the location information from the satellite, it transmits only the PCS subscriber number to the base station to provide information about the current location of the mobile station. It provides a location service of the mobile station using a cellular phone.

1 is a configuration diagram of a mobile station location service system using a conventional common frequency communication system (TRS) and a GPS terminal

2 is a diagram illustrating a mobile station and a GPS terminal combined with a personal mobile communication system (PCS) and a cellular phone;

3 is a configuration diagram of a personal communication system (PCS) and a mobile communication system;

4 is a configuration diagram of a system for locating a mobile station using only a mobile station unique ID of a personal communication system (PCS) and a cellular phone;

The present invention relates to a positioning service of a mobile station for attaching a GPS terminal to a personal communication service (PCS) to confirm the position of a mobile station (MS).

The path for receiving data in PCS and cellular phone is composed of mobile station (MS), base station (BS) and exchange station (MTSO) as shown in FIG.

First, a mobile station (MS) refers to a terminal mounted in a vehicle or owned by a person.

A base station corresponds to a cell, a micro-cell or a pico-cell. When the range of a cell is mobile communication, the radius is 1-3 km or the personal mobile communication. It has a radius of about 500m or a small range in a specific building, the frequency of use is 800MHz of mobile communication, 1.8GHz band of personal mobile communication, and the output of mobile communication is 1mW-600mW and personal mobile communication is 1mW-200mW. It is also possible to operate the base station.

The MTSO is equipped with a DB such as a Home Location Register (HLR), a Visitor Location Register (VLR), and the like.

The Home Location Register (HLR) is a database that stores all the permanent information of the mobile station (MS) which is necessary to connect incoming calls to the mobile station (MS) or to provide other mobile communication services. Data is accumulated.

The VLR (Visitor Location Register) is a mobile station (MS) registered to another exchange (MTSO) when the mobile station (MS) has moved to its jurisdiction, according to the location registration procedure of the mobile station (MS). This is a database that temporarily stores subscriber information of .NET, and most of the information is received and stored from HLR (Home Location Register) where MS is registered at the time of location registration. Act as a database (Partially Replicated Local Data Base).

There are also 24 navigation satellites (NAVSTAR: Navigation Satellite TimeRanging) on Earth, and these satellites always transmit location data related to latitude, longitude, and altitude time, and GPS terminals capable of receiving these data are already commercialized. .

The present invention is constructed using the above-mentioned personal mobile communication system, mobile communication (PCS) and data transmitted from a positioning satellite.

First, the GPS terminal is attached to the mobile station as shown in FIG.

The mobile station always emits data of 32BYTE corresponding to the mobile station unique identification ID every 10 seconds or every second, except when the mobile station is in the OFF state for positioning of the mobile station.

In addition, GPS terminals attached to personal mobile communication extract data corresponding to latitude and longitude necessary for positioning by filtering data received from satellites.

The data corresponding to the latitude and longitude extracted through this filtering are composed of 4BYTE and composed of 8BYTE, respectively, and attached to a personal mobile communication mobile station to transmit 40BYTE together with 32BYTE, the mobile station's unique ID.

The transmitted 40BYTE data is received at the base station to which the mobile station belongs and is transmitted to the switching center having jurisdiction over the base station.

The 40BYTE mobile station positioning data transmitted to the switching center is stored in the HLR in the switching center, and the positioning data in the HLR is provided in the personal cellular communication (PCS) and cellular telephone carriers as shown in FIG. It is sent to the DB through the PSTN network, and the transmitted data is sent back to the DB provided at the service provider.

Location data of mobile stations sent to service providers is categorized by service subscribers and sent to the monitors of each service provider, and each service provider is able to pinpoint the current location of vehicles or employees with its mobile stations. have.

As described above, when the data transmitted from the positioning satellite and the data corresponding to the unique identification ID of the mobile station used in the personal mobile communication and the cellular phone are used, the position error is exactly 2 cm. Can be identified.

However, the above-described positioning method causes problems for mobile stations located in areas that do not receive data transmitted from positioning satellites, such as underground or in buildings.

In this case, the method of identifying the position of the mobile station using only the mobile station identification ID for identifying the mobile station of PCS and cellular phone without using latitude and longitude data transmitted from the positioning satellite is used. do.

The method of confirming the position of the mobile station using the unique identification ID does not use the data received from the positioning satellite, so the exact position cannot be confirmed, but the rough position of the mobile station can be confirmed.

The method of confirming the position of the mobile station using only the unique identification ID assigned to the terminal of the personal mobile communication includes the method described above using a total of 40BYTE corresponding to the mobile station shared identification ID and latitude longitude by attaching a GPS terminal to the mobile station. The method of operation is similar. That is, since the mobile station is in a position not to receive satellite reception data, it transmits only 32BYTE, which is data corresponding to the mobile station's unique identification ID, and receives the 32BYTE from the base station of the region where the mobile station belongs to the HLR of the switching station in charge of the base station. It is registered. Registered data from HLRs in exchanges is registered on the monitors of service subscribers through PCS carriers and service providers.

The above method of confirming the location of the mobile station using only the unique identification ID assigned to the terminal of the personal mobile communication can be located in a range of approximately 2 km in radius as shown in FIG. 4, as shown in A or B of FIG. In the region where the jurisdiction of the exchange stations overlaps, the unique identification ID of the mobile station is registered in the HLR of each exchange station corresponding to the overlapping region. Therefore, the current position of the mobile station is estimated by the site corresponding to the intersection of the exchange stations registered with this unique identifier ID. The range can be reduced so that a more accurate positioning service is possible.

According to the present invention, service subscription companies such as transportation companies and taxi companies can accurately grasp the current location of employees equipped with mobile stations or employees who own mobile stations registered at the service provider at low prices, and also in underground or in buildings. You can check the approximate location with a radius of 2 km even where you cannot receive location data from the satellite.

In addition, instead of calling separately for location, the system itself uses data that is periodically transmitted every 10 seconds (also every second by agreement of the service provider). This can improve work efficiency and productivity.

Employees who own a vehicle or mobile station equipped with their own mobile stations (MSs) using personal mobile communications (PCS) and cellular phones to display the current location of mobile stations (MSs) on service subscriber monitors. It relates to a method for providing a service that can determine their current location.

Claims (3)

In the positioning system of a mobile station using personal portable communication and mobile communication, Periodically transmitting location information from a mobile station equipped with a GPS adapter, receiving the location information of the mobile station from a switching center, and providing the location information to a service provider DB; And providing location information of each mobile station from a service provider's DB to a service subscriber's monitor. In the step of periodically transmitting the position information in the mobile station with the GPS adapter of claim 1, The location information that is periodically transmitted consists of 32BYTE used for subscriber number confirmation, 4BYTE used for latitude check, and 4BYTE used for longitude check, respectively, comprising a total of 40BYTE. Subscriber location service method using mobile communication. In the step of periodically transmitting the position information in the mobile station with the GPS adapter of claim 1, The location information to be periodically transmitted subscriber positioning service method using a personal mobile communication and mobile communication, characterized in that it has another embodiment consisting of only 32BYTE used as subscriber identification number.