KR101375084B1 - System for Providing Location Based Service - Google Patents

Abstract

The present invention relates to a system for providing location based services.

The present invention provides a system for providing a location based service, comprising: a wireless base station communicating with a mobile communication terminal to perform various functions for processing a wireless call; An optical repeater for delaying and relaying the radio call transmitted from the radio base station to the mobile communication terminal; And receiving a radio environment parameter signal from the mobile communication terminal via the radio base station or the optical repeater when receiving a location-based service request signal from the mobile communication terminal, and receiving a base station signal delay value from the radio environment parameter signal. And a location-based service providing server extracting an optical repeater signal delay value and calculating location information of the mobile communication terminal using the base station signal delay value or the optical repeater signal delay value. Provides a system to

According to the present invention, a telecommunication service provider has the effect of reducing a separate network investment cost in order to improve the positioning accuracy of the location-based service, it is possible to provide a location-based service without increasing traffic.

Repeater, Location Based Service, LBS

Description

System for Providing Location Based Service

The present invention relates to a system for providing location based services. More specifically, in the process of providing location-based services using None GPS mobile communication terminal, the mobile communication is performed in the optical repeater by installing the time delay element in the optical repeater or installing the time delay element in the connection line between the optical repeater and the wireless base station. The system provides a location-based service for providing a location-based service by classifying a base station signal delay value and an optical repeater signal delay value according to the wireless call by delaying and transmitting the wireless call transmitted to the terminal for a predetermined time. It is about.

In order to provide communication services such as the Internet beyond the recent space, many companies are spurring the development of a new technology called wireless Internet. Wireless Internet refers to an environment and technology that enables users to use Internet services through a wireless network while the user is on the move. The development of mobile phone-related technologies and the rapid increase in mobile phone penetration have further accelerated the development of this wireless Internet environment.

Meanwhile, among various wireless Internet services using a mobile communication terminal such as a mobile phone or a PDA, a location based service (LBS) has gained much attention due to its wide utility and convenience. Location-based wireless Internet service can be used to request rescue, respond to crime reports, geographic information system (GIS) for providing information on neighboring areas, differentiate mobile communication rates according to location, traffic information, vehicle navigation and logistics control, location It can be used in various fields and situations such as customer relationship management (CRM).

In order to use the location-based service, it is essential to know the location of the mobile communication terminal. The technique of determining the position of the mobile communication terminal is called a PDT (Position Determination Technology), which is a network-based method using a base station received signal and a handset based using a Global Positioning System (GPS) signal. -Based) method, and recently, a hybrid method that combines the two technologies to improve the position accuracy has been developed.

Handset-based method using GPS signal has the advantage of high positioning accuracy by using GPS signal. However, mobile communication terminal collects location information using GPS module and transmits collected location information to positioning server for mobile communication. Since the latitude and longitude coordinates of the terminal must be calculated, the load on the mobile communication network becomes large, and it is difficult to use continuous location-based services. In addition, there is a disadvantage that the GPS signal is not received when entering the inside of a specific building, there is a disadvantage that the price of a mobile communication terminal equipped with a GPS module is expensive.

In the network based method using a signal received from a base station, None GPS mobile terminal can receive a continuous location-based service by positioning a mobile terminal using signals received from a plurality of base stations. Even if the user enters the inside, the location-based service can be provided. In addition, the network-based method has an advantage that can be applied to all types of terminals that do not have a GPS module.

However, the network-based method has a disadvantage in that positioning accuracy is low in the process of positioning the mobile communication terminal due to the radio wave multipath phenomenon occurring between the mobile communication terminal and the base station. In particular, the network-based method has a disadvantage in that it is difficult to use practically because the accuracy of the positioning is greatly reduced due to the delay measurement error when the optical repeater is included in the mobile communication network.

On the other hand, recently, a specific server receives a radio wave environment data using a GPS signal for a specific region from a mobile communication terminal equipped with a GPS module and stores it in a database, and then stores it when there is a location positioning request from a None GPS mobile terminal. The pattern matching algorithm compares the radio wave environment data received from the None GPS mobile communication terminal with the radio wave environment data using the GPS signal, and transmits the position information corresponding to similar radio wave environment data to the None GPS mobile communication terminal. Matching methods are used.

However, the above-described pattern matching method has solved some of the problem of mounting the GPS in the mobile communication terminal, but there is a problem in that it is not possible to perform continuous positioning since the operation performance is slow as a method of relying on a specific server. In addition, there is a problem that it takes a lot of time and money in the process of creating and managing the propagation pattern database, and when relocating or establishing a base station or optical repeater, new propagation pattern data of the corresponding area should be created. There is a problem in that the location inquiry accuracy of.

Therefore, in a network based method using a signal received from a base station, it is necessary to develop a technology for improving positioning accuracy by classifying a signal received from a base station and a signal received from an optical repeater.

In order to solve the above problems, the present invention, in the process of receiving the location-based services using the None GPS mobile communication terminal, the time delay element is mounted on the optical repeater or the time delay element on the connection line between the optical repeater and the wireless base station By installing and transmitting the radio call transmitted from the optical repeater to the mobile communication terminal for a predetermined time, the location can provide the location-based service by classifying the base station signal delay value and the optical repeater signal delay value according to the wireless call. The purpose is to provide a system and an optical repeater for providing the base service.

In order to achieve the above object, the present invention provides a system for providing a location-based service, comprising: a wireless base station communicating with a mobile communication terminal to perform various functions for processing a wireless call; An optical repeater for delaying and relaying the radio call transmitted from the radio base station to the mobile communication terminal; And receiving a radio environment parameter signal from the mobile communication terminal via the radio base station or the optical repeater when receiving a location-based service request signal from the mobile communication terminal, and receiving a base station signal delay value from the radio environment parameter signal. And a location-based service providing server extracting an optical repeater signal delay value and calculating location information of the mobile communication terminal using the base station signal delay value or the optical repeater signal delay value. Provide a system to

According to another object of the present invention, there is provided a system for providing a location-based service, comprising: a wireless base station communicating with a mobile communication terminal to perform various functions for processing a wireless call; An optical repeater for relaying the wireless call from the wireless base station to the mobile communication terminal; A time delay element for delaying and relaying the radio call transmitted from the radio base station to the optical repeater; And receiving a radio environment parameter signal from the mobile communication terminal via the radio base station or the optical repeater when receiving a location-based service request signal from the mobile communication terminal, and receiving a base station signal delay value from the radio environment parameter signal. And a location-based service providing server extracting an optical repeater signal delay value and calculating location information of the mobile communication terminal using the base station signal delay value or the optical repeater signal delay value. Provide a system to

As described above, according to the present invention, in the process of receiving a location-based service using the None GPS mobile communication terminal, a time delay element is mounted on the optical repeater or a time delay element is installed on the connection line between the optical repeater and the wireless base station. By delaying and transmitting the radio call transmitted from the optical repeater to the mobile communication terminal for a predetermined time, the base station signal delay value and the optical repeater signal delay value according to the wireless call can be classified to provide location-based services. .

According to the present invention, in the process of receiving a location-based service in the None GPS mobile communication terminal, the mobile communication terminal generates a radio environment parameter signal according to a wireless call received from a wireless base station or an optical repeater, the location-based service providing server Since the base station signal delay value or the optical repeater signal delay value can be extracted and classified from the radio environment parameter signal, the location-based service can be provided, and the positioning accuracy can be greatly improved. Regardless of the location-based services can be provided.

In addition, the communication service provider has the effect of reducing the separate network investment cost to improve the positioning accuracy of the location-based services, it is possible to provide location-based services without increasing traffic.

[Example]

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the drawings, the same reference numerals are used to designate the same or similar components throughout the drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

1 is a block diagram schematically illustrating a system for providing a location based service according to a first embodiment of the present invention.

The system for providing a location based service according to the first embodiment of the present invention includes a mobile communication terminal 110, a mobile communication network 120, and a location based service providing server 130.

The mobile communication terminal 110 refers to a terminal that performs voice communication and data communication through wireless communication in cooperation with the mobile communication network 120.

The mobile communication terminal 110 interworks with the wireless base station 122 to perform various functions required for wireless call processing such as location registration, wireless channel assignment, handoff, and the like, and a wireless environment including various radio wave environment information generated at this time. Performs the function of generating a parametric signal.

Here, the radio environment parameter signal may include one or more of PN value, Rx Level, Ec / Io, Tx Adjust, base station signal delay value, and optical repeater signal delay value for the wireless base station 122.

The mobile communication network 120 is wirelessly connected to the mobile communication terminal 110 to perform various functions such as voice communication service, wireless data service, wireless internet service, video call or message service.

The mobile communication network 120 according to the first embodiment of the present invention includes a wireless base station 122, a mobile communication switching center 124, a home location register 126 and an optical repeater 128.

The wireless base station 122 performs a location registration function, a function of allocating a wireless channel, various functions for establishing a wireless call according to a handoff or a voice call with the mobile communication terminal 110, and the like. Here, the wireless base station 122 includes a base station transmitter (not shown) and a base station controller (not shown), and can support both synchronous and asynchronous.

For example, if the wireless base station 122 supports synchronous, the base station transmitter may be a base transceiver station (BTS), the base station controller may be a base station controller (BSC). Meanwhile, when the wireless base station 122 supports asynchronous, the base station transmitter may be a Node-B, and the base station controller may be a Radio Network Controller (RNC). Of course, this is merely illustrative of the technical idea of the present invention, those of ordinary skill in the art will be applicable to various modifications and variations within the scope without departing from the essential characteristics of the present invention. .

The mobile communication switching center 124 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 home location register (HLR) 126 is a database that stores service profiles related to mobile subscriber information, and includes a mobile identification number (MIN) of the mobile communication terminal 110 and a unique terminal. Stores subscriber information by storing information about an electronic serial number (ESN) and service type.

The optical repeater 128 according to the first embodiment of the present invention has a time delay element 129, a relay device for relaying a radio call transmitted and received between the wireless base station 122 and the mobile communication terminal 110, The base station 122 and the mobile communication terminal 110 are relayed to perform a location registration function, a function of allocating a radio channel, and various functions required for radio call processing such as handoff.

The optical repeater 128 according to the first embodiment of the present invention delays the wireless call received from the wireless base station 122 by using the time delay element 129 for a predetermined time and then transfers it to the mobile communication terminal 110. It performs the function. Here, the predetermined time means a time enough to distinguish the base station signal delay value or the optical repeater signal delay value, which may be variously modified and modified in the implementation of the present invention.

The time delay element 129 delays the radio call received from the base station for a preset time.

When the location based service providing server 130 receives the location based service request signal from the mobile communication terminal 110, the location based service request signal is received from the mobile communication terminal 110 and the base station signal delay value from the radio environment parameter signal. Or extracting an optical repeater signal delay value and calculating position information of the mobile communication terminal 110 using the base station signal delay value or the optical repeater signal delay value.

2 is a block diagram schematically illustrating a system for providing a location based service according to a second embodiment of the present invention.

The system for providing a location based service according to the second embodiment of the present invention includes a mobile communication terminal 110, a mobile communication network 120, and a location based service providing server 130.

The mobile communication terminal 110 refers to a terminal that performs voice communication and data communication through wireless communication in cooperation with the mobile communication network 120.

The mobile communication network 120 is wirelessly connected to the mobile communication terminal 110 to perform various functions such as voice communication service, wireless data service, wireless internet service, video call or message service.

The mobile communication network 120 according to the second embodiment of the present invention includes a wireless base station 122, a mobile communication switching center 124, a home location register 126, an optical repeater 128, and a time delay element 129. .

The wireless base station 122 performs a location registration function, a function of allocating a wireless channel, and various functions for establishing a wireless call according to a handoff or voice call with the mobile communication terminal 110. Here, the wireless base station 122 is configured to include a base station transmitter (not shown) and a base station controller (not shown), it can support both synchronous and asynchronous.

For example, if the wireless base station 122 supports synchronous, the base station transmitter may be a base transceiver station (BTS), the base station controller may be a base station controller (BSC). Meanwhile, when the wireless base station 122 supports asynchronous, the base station transmitter may be a Node-B, and the base station controller may be a Radio Network Controller (RNC). Of course, this is merely illustrative of the technical idea of the present invention, those of ordinary skill in the art will be applicable to various modifications and variations within the scope without departing from the essential characteristics of the present invention. .

The mobile communication switching center 124 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 home location register (HLR) 126 is a database that stores service profiles related to mobile subscriber information, and includes a mobile identification number (MIN) of the mobile communication terminal 110 and a unique terminal. Stores subscriber information by storing information about an electronic serial number (ESN) and service type.

The optical repeater 128 is a relay device for relaying a wireless call transmitted and received between the wireless base station 122 and the mobile communication terminal 110. The optical repeater 128 includes a location registration function, a function for allocating a wireless channel, and handoff necessary for wireless call processing. Function and so on.

The mobile communication network 120 according to the second embodiment of the present invention includes a time delay element 129 on a connection line between the wireless base station 122 and the optical repeater 128.

Here, the wireless base station 122 and the optical repeater 128 may be connected by an optical cable, the time delay element 129 is installed on the connection line of the wireless base station 122 and the optical repeater 128.

The time delay element 129 delays a wireless call transmitted to the optical repeater 128 to the wireless base station 122 for a predetermined time.

When the location based service providing server 130 receives the location based service request signal from the mobile communication terminal 110, the location based service request signal is received from the mobile communication terminal 110 and the base station signal delay value from the radio environment parameter signal. Or extracting an optical repeater signal delay value and calculating a location information of the mobile communication terminal 110 using the base station signal delay value using the optical repeater signal delay value.

3 is an exemplary view according to a first embodiment of the present invention.

As illustrated in FIG. 3, the mobile communication terminal 110 interworks with a wireless base station 122 to register a location from a plurality of wireless base stations 122 in a specific region, allocate a wireless channel, perform a handoff or a voice call according to a voice call. Perform all necessary functions to set up the process.

In addition, the mobile communication terminal 110 performs various functions for establishing a wireless call according to location registration, wireless channel assignment, handoff, or voice call in association with the optical repeater 128 in a specific region.

The mobile communication terminal 110 transmits a location based service request signal to the location based service providing server 130 and receives a radio environment parameter request signal from the location based service providing server 130 in order to receive the location based service. do.

The mobile communication terminal 110 performs a location registration function, a radio channel assignment, a handoff or various functions necessary for setting up a wireless call according to a voice call, and the radio wave environment information (PN value, Rx Level, Ec / Io, Tx Adjust, the base station signal delay value and one or more of the optical repeater signal delay value) including the radio environment parameter signal is generated and transmitted to the location-based service providing server 130.

When the location based service providing server 130 receives the location based service request signal from the mobile communication terminal 110, the location based service request signal is received from the mobile communication terminal 110 and the base station signal delay value from the radio environment parameter signal. Alternatively, the optical repeater extracts a signal delay value and calculates location information of the mobile communication terminal 110 using the base station signal delay value or the optical repeater signal delay value to provide the location-based service to the mobile communication terminal 110.

For example, the location-based service providing server 130 receives a radio environment parameter signal from the mobile communication terminal 110 and then roughly displays the mobile communication terminal 110 with the PN value received from each wireless base station 122. After determining the position, it may be possible to determine whether the mobile communication terminal 110 is within a 00 m radius from the wireless base station 122 by extracting a signal delay value included in the radio environment parameter signal. Here, the location-based service providing server 130 extracts a signal delay value from the radio environment parameter signal, and if the signal delay value is greater than or equal to a predetermined size, divides the signal delay value into a database for the location of the optical repeater 128. By using the schematic position of the mobile communication terminal 110 may be calculated.

If the mobile communication network 120 does not include the optical repeater 128 and the wireless base station 122 and the mobile communication terminal 110 establish a wireless call in a space where there is no scattering of radio waves, in theory, it is very accurate. The positional information may be calculated, but in reality, an error in positional positioning occurs due to propagation scattering due to the surrounding terrain. Therefore, various error correction methods, such as using the average value of the propagation delay in positioning or using the signal having the smallest delay among the arrival signals in consideration of the positioning error, may be used.

For example, the mobile communication terminal 110 performs a handoff only at a certain distance (about 1 km) from the wireless base station 122, but in the case of the optical repeater 28 has the same PN value as the wireless base station 122, The distance between the optical repeater 128 and the wireless base station 122 is different according to each situation, and the exact position of the mobile communication terminal 110 cannot be calculated because the signal delay value changes.

The mobile communication network 120 according to the first embodiment of the present invention may mount the time delay element 129 on the optical repeater 128 when the distance between the wireless base station 122 and the optical repeater is less than a specific distance.

Here, whether the distance between the wireless base station 122 and the optical repeater 128 is less than or equal to a certain distance may be performed by a communication operator operating the mobile communication network 120.

For example, the service provider uses a database of the location of the optical repeater 128 to check whether the distance from the wireless base station 122 is less than or equal to a certain distance (about 4 km), and as a result, the specific distance (about 4 km) or less, the time delay element can be mounted in the optical repeater 128. However, this is merely illustrative of the technical idea of the present invention, those skilled in the art to which the present invention belongs to the wireless base station 122 and optical repeater (without departing from the essential characteristics of the present invention) 128) It may be applicable to various modifications and variations to check the distance between.

Here, the optical repeater 128 according to the first embodiment of the present invention uses the time delay element 129 to delay the radio call of the wireless base station 122 for a predetermined time and then relay it to the mobile communication terminal 110. The predetermined time is the maximum delay for the wireless call that the mobile communication terminal 110 can receive within the coverage of the wireless base station 122 when it is assumed that there is no optical repeater 128 in the mobile communication network 120. It may be set to a delay value larger than the value.

When the maximum delay value for the wireless call that the mobile communication terminal 110 can receive within the coverage of the wireless base station 122 is 10 usec (microseconds), the optical repeater according to the first embodiment of the present invention. Reference numeral 128 denotes a delay of the radio call of the radio base station 122 to a value greater than 10 usec using the time delay element 129 to relay to the mobile communication terminal 110.

By performing the above-described process, the location-based service providing server 130 receives the radio environment parameter signal from the mobile communication terminal 110, and the optical repeater signal delay when the delay value extracted from the radio environment parameter signal exceeds 10 usec. If the delay value extracted from the radio environment parameter is less than 10 usec, it can be regarded as the base station signal delay value.

Of course, since the length of the optical cable connected to the wireless base station 122 is different for each optical repeater 128, the time delay element 129 should be a variable delay element capable of varying the delay value, the delay value and time according to the length of the optical cable The sum of the delay values of the delay elements 129 should be set larger than 10 usec. Here, if the delay value of the optical cable is already greater than 10 usec, the delay value of the time delay element 129 may be set to zero.

In addition, the location-based service providing server 130 of the optical repeater 128 instead of the database of the position of the wireless base station 122 with respect to the optical repeater signal delay value extracted from the radio environment parameter signal received from the mobile communication terminal 110 The location information of the mobile communication terminal 110 may be calculated based on a database of locations.

Accordingly, the location-based service providing server 130 according to the first embodiment of the present invention maintains the database of the position of the optical repeater 128 as well as the database of the position of the wireless base station 122. Of course, this is merely illustrative of the technical idea of the present invention, in the actual implementation of the present invention provides a location-based service by providing a database of the location of the optical base station 128 and the database of the location of the wireless base station 122 Not included in the server 130, it may be implemented to work by implementing as a separate device to the outside.

In addition, the location-based service providing server 130 according to the first embodiment of the present invention retains information on whether the optical repeater is attached to each wireless base station, location information of the optical repeater, delay value data of the optical cable and the time delay element. do. Of course, this is merely illustrative of the technical idea of the present invention, and in the actual implementation of the present invention, information on whether the optical repeater is attached to each wireless base station, location information of the optical repeater, delay of the optical cable and the time delay element The value data may not be included in the location-based service providing server 130, but may be implemented to work by implementing a separate device externally.

In addition, the location-based service providing server 130 extracts the total delay value from the radio environment parameter signal received from the mobile communication terminal 110, and the delay value and the time delay element for the optical cable (connection line) from the total delay value ( The final delay value may be calculated by subtracting the delay value of 129 and the position information of the mobile communication terminal 110 may be calculated using the final delay value.

4 is an exemplary view according to a second embodiment of the present invention.

Since the mobile communication network 120 according to the second embodiment of the present invention operates in the same manner as in FIG. 3, a detailed description thereof will be omitted.

When the distance between the wireless base station 122 and the optical repeater 128 is less than or equal to a certain distance, the mobile communication network 120 according to the second embodiment of the present invention uses the time delay element 129 as the wireless base station 122 and the optical repeater ( It can be attached to the connecting line (optical cable) of 128.

Here, whether the distance between the wireless base station 122 and the optical repeater 128 is less than or equal to a certain distance may be performed by a communication operator operating the mobile communication network 120.

For example, the service provider uses a database of the location of the optical repeater 128 to check whether the distance from the wireless base station 122 is less than or equal to a certain distance (about 4 km), and as a result, the specific distance (about 4 km) or less, the time delay element can be mounted in the optical repeater 128. However, this is merely illustrative of the technical idea of the present invention, those skilled in the art to which the present invention belongs to the wireless base station 122 and optical repeater (without departing from the essential characteristics of the present invention) 128) It may be applicable to various modifications and variations to check the distance between.

That is, the location-based service providing server 130 of the optical repeater 128 instead of the database of the position of the wireless base station 122 with respect to the optical repeater signal delay value extracted from the radio environment parameter signal received from the mobile communication terminal 110. The location information of the mobile communication terminal 110 may be calculated based on a database of locations.

Accordingly, the location-based service providing server 130 according to the second embodiment of the present invention maintains the database of the position of the optical repeater 128 as well as the database of the position of the wireless base station 122. Of course, this is merely illustrative of the technical idea of the present invention, in the actual implementation of the present invention provides a location-based service by providing a database of the location of the optical base station 128 and the database of the location of the wireless base station 122 Not included in the server 130, it may be implemented to work by implementing as a separate device to the outside.

In addition, the location-based service providing server 130 according to the second embodiment of the present invention holds information on whether the optical repeater is attached to each wireless base station, location information of the optical repeater, delay value data of the optical cable and the time delay element do. Of course, in the actual implementation of the present invention, the location-based service providing server 130 does not include information on whether the optical repeater is attached to each wireless base station, location information of the optical repeater, and delay value data of the optical cable and the time delay element. In addition, it may be implemented to work by implementing a separate device externally.

In addition, the location-based service providing server 130 extracts the total delay value from the radio environment parameter signal received from the mobile communication terminal 110, and the delay value and the time delay element for the optical cable (connection line) from the total delay value ( The final delay value may be calculated by subtracting the delay value of 129 and the position information of the mobile communication terminal 110 may be calculated using the final delay value.

5 is a block diagram schematically illustrating an optical repeater according to a first embodiment of the present invention.

As an exemplary view of the optical repeater 128 according to the first embodiment of the present invention, the optical repeater 128 is a photoelectric converter, a low noise amplifier (LNA), a time delay element 129, linear as shown in FIG. It may be configured to include a power amplifier (LPA: Liner Power Amp) and AMP.

Here, a photoelectric converter, a low noise amplifier (LNA), a linear power amplifier (LPA: liner power amplifier) and AMP are already known techniques, and thus a detailed description thereof will be omitted.

The foregoing description is merely illustrative of the technical idea of the present invention, and various changes and modifications may be made by those skilled in the art without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are intended to illustrate rather than limit the scope of 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, the present invention, in the process of receiving a location-based service using the None GPS mobile communication terminal, by mounting a time delay element in the optical repeater or by installing a time delay element on the connection line between the optical repeater and the wireless base station Location-based service field to provide location-based services by classifying base station signal delay values and optical repeater signal delay values according to wireless calls by delaying and transmitting a wireless call transmitted from a repeater to a mobile communication terminal for a predetermined time. In addition, the service provider can reduce the cost of a separate network to improve the positioning accuracy of location-based services, and is very useful for generating location-based services without increasing traffic. Invention.

1 is a block diagram schematically illustrating a system for providing a location based service according to a first embodiment of the present invention;

2 is a block diagram schematically illustrating a system for providing a location based service according to a second embodiment of the present invention;

3 is an exemplary view according to a first embodiment of the present invention;

4 is an exemplary view according to a second embodiment of the present invention;

5 is a block diagram schematically illustrating an optical repeater according to a first embodiment of the present invention.

Description of the Related Art

110: mobile communication terminal 120: mobile communication network

130: location-based service providing server

Claims (12)

In the system for providing location-based services, A wireless base station communicating with the mobile communication terminal to perform a radio call processing; An optical repeater having a time delay element for delaying and relaying the radio call transmitted from the wireless base station to the mobile communication terminal using the time delay element; And When receiving a location-based service request signal from the mobile communication terminal, receives a radio environment parameter signal from the mobile communication terminal via the radio base station, extracts a base station signal delay value from the radio environment parameter signal and the base station signal The position information of the mobile communication terminal is calculated using the delay value, the radio environment parameter signal is received through the optical repeater, the optical repeater signal delay value is extracted from the radio environment parameter signal, and the optical repeater signal delay value. Location-based service providing server for calculating the location information of the mobile communication terminal using Including, The time delay element is a system for providing a location-based service, characterized in that only operates when the distance between the radio base station and the optical repeater difference by more than a certain distance. delete The method of claim 1, The optical repeater, And relaying the radio call after a delay for a preset time. The method of claim 3, wherein The preset time is, And setting a value greater than a maximum delay value for the wireless call received by the mobile communication terminal within the coverage of the wireless base station. The method of claim 1, The radio environment parameter signal, And at least one of a PN value, an Rx Level, an Ec / Io, a Tx Adjust, the base station signal delay value, and the optical repeater signal delay value. delete The method of claim 1, The location-based service providing server And a database of locations of the optical base station and a location of the optical repeater. In the system for providing location-based services, A wireless base station communicating with the mobile communication terminal to perform a radio call processing; An optical repeater for relaying the wireless call from the wireless base station to the mobile communication terminal; A time delay element for transmitting the delayed radio call such that the radio call relayed by the optical repeater is delayed and relayed; And When receiving a location-based service request signal from the mobile communication terminal, receives a radio environment parameter signal from the mobile communication terminal via the radio base station, extracts a base station signal delay value from the radio environment parameter signal and the base station signal Calculating position information of the mobile communication terminal using a delay value, receiving a radio environment parameter signal through the optical repeater by being delayed by the time delay element, and extracting an optical repeater signal delay value from the radio environment parameter signal; Location-based service providing server for calculating the location information of the mobile communication terminal using the optical repeater signal delay value Including, And the time delay device operates only when the distance between the wireless base station and the optical repeater is equal to or less than a specific distance. 9. The method of claim 8, The time delay element, System for providing a location-based service, characterized in that installed in the connection line between the wireless base station and the optical repeater. 10. The method of claim 9, The time delay element, And relaying the radio call after a delay for a preset time. 11. The method of claim 10, The preset time is, Providing a location-based service, wherein the maximum delay value for the radio call received by the mobile communication terminal is set to be larger than a value obtained by subtracting the delay value for the connection line within the coverage of the wireless base station. system. 10. The method of claim 9, The location-based service providing server, The final delay value for the mobile communication terminal is extracted from the radio environment parameter signal, and the final delay value for the mobile communication terminal is obtained by subtracting the delay value for the connection line and the delay value for the time delay element from the total delay value. Calculating a delay value and calculating the location information of the mobile communication terminal using the final delay value.

Images