KR101687793B1 - Method And Apparatus for Providing Position Information by Using Error Range - Google Patents

Abstract

An embodiment of the present invention relates to a method and apparatus for providing location information using an error range.
According to an embodiment of the present invention, there is provided a mobile communication system including an information receiving unit for receiving a position measurement result value for a terminal; An error distance extracting unit for extracting an average error distance corresponding to a method of positioning the position measurement result value; A POI extracting unit for extracting all POIs which are POIs included in the error distance range; A POI selection unit for selecting an optimal POI corresponding to at least one or more pieces of information on the user orientation and movement pattern information of the user of the terminal among the entire POIs; And an information providing unit for providing the optimal POI to the terminal. The present invention provides an apparatus for providing position information using an error range.
According to an embodiment of the present invention, the user can perceive the periphery more easily when using the location-based service by providing the optimum location corresponding to the user orientation information and the movement pattern information.

Description

Field of the Invention [0001] The present invention relates to a method and an apparatus for providing position information using an error range,

An embodiment of the present invention relates to a method and apparatus for providing location information using an error range. More specifically, when information on a positioned point is provided, rather than simply providing information close to the located point, all of the information included in the average error distance corresponding to the positioned method is extracted, And more particularly, to a method and apparatus for providing location information using an error range that selectively provides optimal information corresponding to at least one of information on user behavior and movement pattern information.

A mobile communication company that operates a mobile communication system and provides various additional services tracks the location of the mobile communication terminal using a wireless base station such as triangulation method and provides various location based services based on the location of the mobile communication terminal . However, a method of providing a location-based service using a wireless base station can only measure the approximate position of the mobile communication terminal and can not accurately measure the area where the mobile communication terminal is located. A positioning system using GPS (Global Positioning System) is introduced.

Generally, a terminal including a navigation function displays the current position of the terminal by using coordinates (GPS). In addition, the terminal including the navigation function displays the traveling direction of the moving object, the distance to the target destination, the current traveling speed of the moving object, the route set by the driver before driving, and the optimum route to the destination, To the user. Currently, a variety of moving objects such as ships, aircraft, and automobiles are widely used by mounting a satellite positioning system terminal device for confirming the current position and moving speed or determining the movement route. On the other hand, the conventional location-based service merely provides location information close to the location where it is located, but has a disadvantage in that it can not provide information specific to each user.

According to an aspect of the present invention, there is provided an apparatus for estimating a positional deviation of a user based on at least one piece of user orientation information and movement pattern information collected from information included in an average error distance corresponding to a positioned manner, There is provided a method and an apparatus for providing location information using an error range to be selectively provided.

According to an aspect of the present invention, there is provided an information processing apparatus including: an information receiver for receiving a positioning result of a terminal; An error distance extracting unit for extracting an average error distance corresponding to a method of positioning the position measurement result value; A POI extracting unit for extracting all POIs which are POIs included in the error distance range; A POI selection unit for selecting an optimal POI corresponding to at least one or more pieces of information on the user orientation and movement pattern information of the user of the terminal among the entire POIs; And an information providing unit for providing the optimal POI to the terminal. The present invention provides an apparatus for providing position information using an error range.

According to another aspect of the present invention, there is provided an information processing apparatus including an information receiving unit for receiving a position measurement result value for a terminal; An error distance extracting unit for extracting an average error distance corresponding to a method of positioning the position measurement result value; A POI extracting unit for extracting all POIs which are POIs included in the error distance range; A POI selection unit for selecting an optimal POI corresponding to a most visited area or a visited area of a predetermined number of times or more of the user's visit record based on movement pattern information of the user of the terminal among the entire POIs; And an information providing unit for providing the optimal POI to the terminal. The present invention provides an apparatus for providing position information using an error range.

According to another aspect of the present invention, there is provided an information processing apparatus including an information receiving unit for receiving a position measurement result value for a terminal; An error distance extracting unit for extracting an average error distance corresponding to a method of positioning the position measurement result value; A POI extracting unit for extracting all POIs which are POIs included in the error distance range; Extracting at least one or more information among consumption pattern information, interest item information, and life behavior information corresponding to user propensity information for a user of the terminal, and performing POI selection for selecting an optimal POI corresponding to the extracted information among all the POIs part; And an information providing unit for providing the optimal POI to the terminal. The present invention provides an apparatus for providing position information using an error range.

According to another aspect of the present invention, Extracting an average error distance corresponding to a method of locating the position measurement result value; Extracting an entire POI that is a POI (Point of Interest) included in the error distance range; Selecting an optimal POI corresponding to at least one or more pieces of information on user propensity for a user of the terminal and movement pattern information among the entire POIs; And providing the optimal POI to the terminal. The method of providing position information using an error range according to an embodiment of the present invention will now be described.

According to another aspect of the present invention, Extracting an average error distance corresponding to a method of locating the position measurement result value; Extracting an entire POI that is a POI (Point of Interest) included in the error distance range; Selecting an optimal POI corresponding to a most visited area or a visited area of a predetermined number of times or more of the user's visit records based on movement pattern information of the user of the terminal among the entire POIs; And providing the optimal POI to the terminal. The method of providing position information using an error range according to an embodiment of the present invention will now be described.

According to another aspect of the present invention, Extracting an average error distance corresponding to a method of locating the position measurement result value; Extracting an entire POI that is a POI (Point of Interest) included in the error distance range; Extracting at least one or more pieces of information from consumption pattern information, interest item information, and life behavior information corresponding to user propensity information for the user of the terminal, and selecting an optimal POI corresponding to the extracted information among all the POIs; And providing the optimal POI to the terminal. The method of providing position information using an error range according to an embodiment of the present invention will now be described.

As described above, according to an embodiment of the present invention, when information on a positioned location is provided, rather than simply providing information close to the located location, the information included in the average error distance corresponding to the located location Extracting all of the extracted information, and extracting optimal information corresponding to at least one or more pieces of information on the user tendency and movement pattern information collected from the extracted information. In addition, according to an embodiment of the present invention, the user can perceive the periphery more easily when using the location-based service by providing the optimum location in accordance with the user orientation information and the movement pattern information.

1 is a block diagram schematically showing a position information providing system using an error range according to an embodiment of the present invention;
FIG. 2 is a block diagram schematically showing a position information providing apparatus using an error range according to an embodiment of the present invention; FIG.
3 is a flowchart illustrating a method of providing location information using an error range according to an embodiment of the present invention.
FIG. 4 is a flow chart for explaining an optimal POI selection method according to an embodiment of the present invention;
5 is an exemplary diagram of a POI included within an error range according to an embodiment of the present invention.
Description of the Related Art
110: mobile communication network 120: mobile communication network
130: Position calculation server 140: Position information providing device
150: Database 210: base station-based tendency information collection unit
212: Propensity information generating unit 214: Base station-based position information collecting unit
216: GPS-based position information collecting unit 218: Terminal-based position information collecting unit
220: movement pattern generation unit 230: information reception unit
240: error distance extraction unit 250: POI extraction unit
260: POI selection unit 270:

Hereinafter, some embodiments of the present invention will be described in detail with reference to exemplary drawings. It should be noted that, in adding reference numerals to the constituent elements of the drawings, the same constituent elements are denoted by the same reference numerals whenever possible, even if they are shown in different 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.

In describing the components of the present invention, terms such as first, second, A, B, (a), and (b) may be used. These terms are intended to distinguish the constituent elements from other constituent elements, and the terms do not limit the nature, order or order of the constituent elements. When a component is described as being "connected", "coupled", or "connected" to another component, the component may be directly connected to or connected to the other component, It should be understood that an element may be "connected," "coupled," or "connected."

1 is a block diagram schematically illustrating a position information providing system using an error range according to an embodiment of the present invention.

The location information providing system using the error range according to an embodiment of the present invention includes a mobile communication terminal 110, a mobile communication network 120, a location calculation server 130, a location information providing apparatus 140, and a database 150 . The location information providing system using the error range includes only the mobile communication terminal 110, the mobile communication network 120, the location calculation server 130, the location information providing apparatus 140, and the database 150 It will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the present invention as defined by the following claims. It is possible to variously modify and adapt the constituent elements included in the position information providing system using the error range within a range that does not deviate.

The mobile communication terminal 110 includes a wireless communication module for performing voice communication and data communication. The mobile communication terminal 110 is connected to the mobile communication network 120 using a wireless communication module, And data communication. Meanwhile, the mobile communication terminal 110 transmits the base station information of the interworking mobile communication network to the location calculation server 130.

The mobile communication terminal 110 is a terminal having a wireless LAN module. The mobile communication terminal 110 is capable of accessing the Internet through an access point (AP) Lt; / RTI > Here, an AP is a device that connects data communication, and is a device that reads a destination address from the transmitting side information, designates a most appropriate communication path, and transmits the communication path to another communication network. That is, the AP extracts the location of the data packet, specifies the best communication path to the extracted location, passes the data packet to the next device along the designated communication path, and may share multiple lines in a typical network environment . In this embodiment, the AP can be used as a concept including a router, a repeater, a repeater, and a bridge.

The mobile communication terminal 110 is a terminal having a GPS module. The mobile communication terminal 110 extracts navigation data from a GPS signal received from at least one GPS (Global Positioning System) satellite and transmits the navigation data through a mobile communication network to a position calculation server 130). Here, the mobile communication terminal 110 according to an embodiment of the present invention preferably includes a GPS module, but is not limited thereto.

The mobile communication terminal 110 may be a smart phone, a personal computer (PC), a notebook computer, a personal digital assistant (PDA), or the like equipped with a wireless communication module, a GPS module and a wireless LAN module A memory for storing an application for using a location based service, a microprocessor for executing and controlling a program, and the like.

The mobile communication network 120 is wirelessly connected to the mobile communication terminal 110 and performs various functions such as voice communication service, wireless data service, wireless Internet service, video call or message service. Meanwhile, the mobile communication network 120 includes a wireless base station, a mobile communication switching center, and a home location register (HLR). The wireless base station performs functions such as a location registration function, a wireless channel allocation function, and a handoff function. The mobile communication switching center performs basic and supplementary services for providing voice communication services, processing of incoming and outgoing calls of subscribers, location registration and handoff procedures, and interworking with other networks. The home location register stores a service profile related to information of a mobile communication subscriber. The home location register stores a mobile identification number (MIN), an electronic serial number (ESN) And stores the subscriber information.

The position calculation server 130 receives the satellite data through the satellite receiver built therein and performs positioning using the satellite data of the mobile communication terminal 110 requesting the positioning. That is, the position calculation server 130 receives the navigation data from the mobile communication terminal 110 and calculates the latitude and longitude coordinates of the mobile communication terminal 110. The location calculation server 130 also transmits aiding data to help position the mobile communication terminal 110 and calculates the distance between the GPS satellite and the mobile communication terminal 110 . When the location calculation server 130 selectively receives the location information from the mobile communication terminal 110 as needed, the location calculation server 130 transmits the location information to the location based service platform (LBSP). The position calculation server 130 transmits the latitude data, which is positioning result data, and the PPM (Pilot Phase Measurement) data received from the mobile communication terminal 110, to the server for pCell positioning. The location calculation server 130 receives a location location request signal from the LBSP and transmits an SMREQ (Short Message Request) signal requesting information on the terminal corresponding to the location location target by the HLR. The location calculation server 130 receives a short message request (smreq) signal including a response to the information request for the terminal corresponding to the location location target from the corresponding HLR. The location calculation server 130 may determine the location of the mobile communication terminal 110 in cooperation with the mobile communication terminal 110 and then transmit the location location response including the location location result to the LBSP.

In the asynchronous W-CDMA (Wideband Code Division Multiple Access) system, the position calculation server 130 may use a Position Determination Entity (PDE) in a synchronous CDMA (Code Division Multiple Access) ), And a Serving Mobile Location Center (SMLC) may be applied in a GSM (Global System for Mobile communication) system, which is a European time division mobile communication system. PDE can perform position measurement using satellite and CDMA using network triangulation method in CDMA. In addition, PS can perform position measurement using satellite and basic cell position measurement function in W-CDMA, and SMLC can perform position measurement using cell and position measurement using cell in GSM.

Meanwhile, the above-mentioned PPM data includes system information measured by the mobile communication terminal 110 and time and distance information of an adjacent base station. Here, the basic data collected by the mobile communication terminal 110 includes information of a system currently being serviced, a pilot signal of an adjacent base station, a signal strength, and the like. The information of the currently serving system includes a system ID (SID), a network ID (NID), a base station ID (BSID) (BS_ID) and a serving base station sector number Ref_PN (Ref_PN), a pilot phase in the Ref_PN, a signal strength, and the like. The pilot signal of the adjacent base station includes distance data and time data such as a neighboring base station sector number (Measurement PN) collected from the mobile communication terminal 110, a pilot phase in each adjacent base station sector number, a signal strength, and the like. The above-mentioned PPM data may be positioning related data in a CDMA system, which may be a System Frame Number (SFN) -SFN Observed Time Difference or UE RX-TX Time Difference data in W-CDMA, Related data used in the mobile terminal.

In the above description, the position calculation server 130 is applied to CDMA and WCDMA to provide the pCell positioning. However, this is merely an illustrative description of the technical idea of the present invention. The location calculation server 130 may be applied to WiBro, Long Term Evolution (LTE), and Evolved Packet Core (EPC) to provide pCell positioning, without departing from the essential characteristics of the present invention. can do.

Meanwhile, the location calculation server 130 performs positioning using the wireless LAN environment information of the mobile communication terminal 110 requesting the positioning. That is, after receiving the wireless LAN environment information from the mobile communication terminal 110, the location calculation server 130 searches the database 150 to select the grid cells classified by the pCell ID matched with the wireless LAN environment information, The latitude and longitude coordinates can be computed based on the grid cell.

That is, the position calculation server 130 confirms the positioning capability supported by the mobile communication terminal 110 requesting the positioning, calculates the position measurement result value with the highest accuracy among the supporting positioning capabilities, (140). In other words, when the mobile communication terminal 110 is assumed to be a plurality of terminals, 'terminal A' supports GPS positioning support 'O' (supportable), wireless LAN positioning support 'X' O ', the terminal C supports the GPS positioning support O, the wireless LAN positioning support X and the base station based positioning support O, the terminal D supports the GPS positioning support X, X 'and base station based positioning support' O ', and' terminal E 'can support GPS positioning' O ', wireless LAN positioning support' O 'and base station based positioning support' O '. In this case, when the position calculation server 130 determines the position of the 'terminal A', it analyzes the positioning performance information received from the 'terminal A' to determine whether the GPS positioning support information, the wireless LAN positioning support information, Check whether at least one of the support information is supported. For example, since the position calculation server 130 is in a state in which the 'terminal A' is in a state in which the GPS positioning support is 'O' (supportable), the wireless LAN positioning support is 'X' And transmits the positioning result value, which is determined by the positioning method determined to be higher in accuracy among the GPS positioning and the base station based positioning, to the location information providing device 140.

On the other hand, the position calculation server 130 uses the positioning protocol to position the mobile communication terminal 110. Here, the positioning protocol refers to a protocol standardizing the specification of the application layer for position location. Any positioning protocol can be used if the positioning protocol can transmit and receive the GPS radio signal and the wireless LAN signal between the mobile communication terminal 110 and the position calculation server 130. The positioning protocol may be IS-801 (Interim Standard-801), Radio Resource Location Services Protocol (RRLP), Radio Resource Control (RRC), Secure User Plane Location (SUPL) Meanwhile, the Secure User Plane Location (SUPL) 2.0 may be used as the positioning protocol to transmit and receive the GPS radio signal and the wireless LAN signal together between the mobile communication terminal 110 and the position calculation server 130. However, no. Herein, the SUPL refers to a method of transmitting and receiving data related to position location directly to and from the position calculation server 130 and the mobile communication terminal 110 in order to provide positional positioning, This is a protocol that avoids communication between each network node, and it is a protocol that can reduce the cost of implementing nodes required for location tracking and provide more accurate location location service. Meanwhile, when SUPL 2.0 is used, the mobile communication terminal 110 can measure RTD (Round Trip Delay) using SUPL 2.0. That is, when the mobile communication terminal 110 establishes the wireless LAN parameters when communicating using the wireless LAN signal, the mobile communication terminal 110 sets the location ID of the location ID and the multiple location ids, RTD Value, RTD Units, and RTD Accuracy.

The location information providing device 140 receives location location result values for the mobile communication terminal 110. The position information providing apparatus 140 receives the position measurement result value with the highest accuracy among the positioning performances supported by the mobile communication terminal 110 from the interlocking position calculation server 130. Here, the position measurement result value is a positioning value for one of GPS positioning, wireless LAN positioning, pCell positioning, and base station-based positioning.

The positional information providing device 140 extracts an average error distance corresponding to the position measurement result value. In addition, the location information providing device 140 may be configured to determine a location measurement result based on a GPS positioning mean error distance, a wireless LAN positioning mean error distance, a pCell positioning mean error distance, And stores at least one error distance.

The location information providing device 140 extracts all POIs that are POIs included in the error distance range. Here, the POI is information including at least one of name information, telephone number information, and advertisement information for the area. The location information providing device 140 generates an imaginary circle having an average error distance with a radius centered on the location measurement result value, and extracts all the POIs included in the imaginary circle.

The location information providing apparatus 140 selects an optimal POI corresponding to at least one or more pieces of information of the user orientation information and movement pattern information of the user of the mobile communication terminal 110 among all the POIs. The location information providing device 140 selects the latest POI corresponding to the most recent visited area among the user's visit records based on the movement pattern information as an optimal POI. The location information providing device 140 selects the main POIs corresponding to the frequently visited areas of the user's visit record more than a predetermined number of times based on the movement pattern information as the optimal POI. If there is no user's visit record on the route information as a result of checking at least one of the user preference information and the movement pattern information, the location information providing device 140 transmits a representative POI The optimal POI is selected. The location information providing device 140 extracts at least one or more pieces of information from consumption pattern information, interest item information, and life behavior information corresponding to user propensity information, and selects a preferred POI corresponding to information extracted from all POIs as an optimal POI do. Here, the preferred POI is information obtained by extracting a POI corresponding to user propensity information. The location information providing device 140 provides the optimal POI to the mobile communication terminal 110.

Meanwhile, the location information providing apparatus 140 receives user personal information from the interworking mobile communication network 120, and collects trend information matching the personal information. Here, the personal information is information including at least one of the user age information, gender information, and job information. The location information providing device 140 is connected to at least one server of the mobile communication use record providing server, the crisis-based service use record providing server, the shopping service providing server, and the card payment server to generate consumption pattern information matching the personal information, Item information, and life behavior information. The location information providing device 140 updates the user preference information at a preset period. The location information providing device 140 collects the collected propensity information and generates user propensity information. The location information providing device 140 collects location registration information of the mobile communication terminal 110 from the mobile communication network 120. The location information providing device 140 generates movement pattern information based on the collected location registration information. The location information providing device 140 collects POI information of the moving area based on the GPS propagation information received from the mobile communication terminal 110. The location information providing device 140 cumulatively stores destination information received from the mobile communication terminal 110. The location information providing device 140 generates movement pattern information based on POI information and destination information of the moving area.

The database 150 stores grid cells classified by pCell IDs as positioning data, which are positioning results, which are positioning results each time, and stores the wireless LAN environment information in the grid cells together. Specifically, the database 150 stores the positioning result data, which is a positioning result that is positioned each time, as basic data together with the grid cells classified by the pCell ID, and stores the basic data It also stores reference data that can be represented. Here, the reference data is data to be compared when considering the pattern consistency at the time of pCell positioning, and is data to be updated when updating the database as data having a great influence on the positioning accuracy. Generally, for updating the database, the newly measured positioning result data is arithmetically averaged together with a large amount of stored basic data to update the reference data. Due to such a data updating method, the degree to which the newly measured positioning result data is reflected in the updated reference data may be insignificant. In particular, when the number of basic data already stored in the database is very large, even if the database is updated, the newly measured positioning result data has little influence on the updating of the reference data.

In order for this positioning method to provide more accurate positioning results, the database must be updated so that the database is always kept up-to-date (e.g., PN, pilot phase, signal strength, etc.). However, due to the characteristics of the above-described database updating method in the general positioning method, the general database updating method may not sufficiently reflect the change of the positioning environment such as the radio environment and the positioning system status. For example, if the positioning system or the radio environment in which the positioning service is performed is continuously and frequently changed, the currently measured positioning result data may provide more accurate positioning results than the reference data previously stored in the database. In this case, when the reference data stored in the database is updated, the reference data stored in the database should adaptively follow the change of the current positioning environment by reflecting the currently measured positioning result data to a higher level will be.

The database 150 stores data of the pCell positioning method stored in the database 150 according to an exemplary embodiment of the present invention. The database 150 stores the wireless LAN environment information in a grid cell classified by the pCell ID do. Here, the WLAN environment information is information capable of identifying an AP relaying a wireless LAN signal, and is preferably a MAC address of an AP relaying a wireless LAN signal, but is not limited thereto. Here, the MAC address of the AP refers to a Basic Service Set Identifier (BSSID) as unique information capable of identifying the corresponding AP. A total of 48 bits (Bit) can be allocated to the MAC address, and 24 bits of the MAC address are inputted by the manufacturer. An SSID (Service Set Identifier) is information for identifying the corresponding AP, and indicates a value set by the user. Also, the pCell database 150 according to an embodiment of the present invention stores a location according to the base station identification information. Here, the base station identification information is preferably a base station sector number, but is not limited thereto.

The database 150 refers to a general data structure implemented in a storage space (hard disk or memory) of a computer system using a database management program (DBMS). The database 150 can search (extract), delete, (RDBMS) such as Oracle, Infomix, Sybase, and DB2, as well as Gemston, Orion, An object-oriented database management system (OODBMS) such as Orion and O2 and an XML Native Database such as Excelon, Tamino, and Sekaiju. It can be implemented for example purposes and has the appropriate fields or elements to achieve its function.

2 is a block diagram schematically showing an apparatus for providing position information using an error range according to an embodiment of the present invention.

The location information providing apparatus 140 using the error range according to an embodiment of the present invention includes a base station based trend information collecting unit 210, a trend information generating unit 212, a base station based position information collecting unit 214, A location information collecting unit 216, a terminal-based location information collecting unit 218, a movement pattern generating unit 220, an information receiving unit 230, an error distance extracting unit 240, a POI extracting unit 250, (260), an information providing unit (270), and an error database (280). In an embodiment of the present invention, the position information providing apparatus 140 includes a base station-based tendency information collecting unit 210, a tendency information generating unit 212, a base station-based position information collecting unit 214, A movement pattern generator 220, an information receiver 230, an error distance extractor 240, a POI extractor 250, a POI selector 260, It is to be understood that the present invention is not limited only to the providing unit 270 and the error database 280. However, the present invention is not limited to the description of the technical idea of the embodiment of the present invention, The present invention can be variously modified and applied to the components included in the position information providing apparatus 140 without departing from the essential characteristics of the embodiment of the present invention.

The base station-based tendency information collection unit 210 receives user's personal information from the interworking mobile communication network 120 and collects trend information matching the personal information. The propensity information generating unit 212 collects the propensity information collected and generates user propensity information. The base station-based location information collection unit 214 collects location registration information of the mobile communication terminal 110 from the mobile communication network 120. The GPS-based location information collection unit 216 collects POI information of the moving area based on the GPS propagation information received from the mobile communication terminal 110. The terminal-based location information collection unit 218 cumulatively stores destination information received from the mobile communication terminal 110. The movement pattern generation unit 220 generates movement pattern information based on the collected location registration information. The movement pattern generation unit 220 generates movement pattern information based on the POI information of the movement area and the destination information collected through the terminal-based position information collection unit 218 collected through the GPS-based position information collection unit 216 do.

The information receiving unit 230 receives the positioning result of the terminal. The information receiving unit 230 receives the position measurement result value with the highest accuracy among the positioning performances supported by the mobile communication terminal 110 from the interlocking position calculation server 130. Here, the position measurement result value is a positioning value for one of GPS positioning, wireless LAN positioning, pCell positioning, and base station-based positioning. The error-distance extracting unit 240 extracts an average error distance corresponding to the manner in which the position-measuring result value is located. The POI extracting unit 250 extracts all POIs that are POIs included within the error distance range. Here, the POI is information including at least one of name information, telephone number information, and advertisement information for the area. The POI extracting unit 250 generates an imaginary circle having an average error distance centered on the position measurement result value, and extracts all the POIs included in the imaginary circle.

The POI selection unit 260 selects an optimal POI corresponding to at least one or more pieces of information on user orientation and movement pattern information of the user of the mobile communication terminal 110 among all POIs. The POI selection unit 260 selects the latest POI corresponding to the most recent visited area among the user's visit records based on the movement pattern information as the optimal POI. The POI selection unit 260 selects the main POIs corresponding to the frequently visited areas of the user's visit record more than a predetermined number of times based on the movement pattern information as the optimal POI. If there is no user's visit record on the route information as a result of checking at least one of the user preference information and the movement pattern information, the POI selection unit 260 sets a representative POI set as a default in the pre- Select the optimal POI. The POI selection unit 260 extracts at least one or more pieces of information from consumption pattern information, interest item information, and life behavior information corresponding to user orientation information, and selects a preferred POI corresponding to information extracted from all POIs as an optimal POI . The information providing unit 270 provides the optimal POI to the mobile communication terminal 110. The error database 280 stores at least one error distance among the GPS positioning mean error distance, the wireless LAN positioning mean error distance, the pCell positioning mean error distance, and the base station-based positioning mean error distance in accordance with the positioning method .

3 is a flowchart illustrating a method of providing location information using an error range according to an embodiment of the present invention.

The mobile communication terminal 110 transmits a service request signal to the location information providing apparatus 140 using the installed service application and interacts with the location information providing apparatus 140 to perform an authentication procedure at step S310. Herein, the authentication procedure between the mobile communication terminal 110 and the location information providing apparatus 140 is performed in such a manner that the mobile communication terminal 110 inputs the ID and the password, and the location information providing apparatus 140 determines whether the corresponding ID and password are authenticated And if the mobile communication terminal 110 is authenticated, the mobile communication terminal 110 may be logged in. Since this is a procedure for confirming that the mobile communication terminal 110 is a service subscription terminal, any other authentication procedure will be possible.

The location information providing apparatus 140 transmits a location location request signal to provide a service to the mobile communication terminal 110 (S312). The mobile communication terminal 110 collects the positioning environment information according to the positioning request using the installed positioning module (S314). The mobile communication terminal 110 transmits the positioning environment information and the positioning request signal collected by the position calculation server 130 (S316).

The position calculation server 130 receives the positioning request signal and the positioning environment information from the mobile communication terminal 110, confirms the positioning performance supported by the mobile communication terminal 110 included in the received positioning environment information, Calculates the most accurate position measurement result value among the positioning performances supported by the terminal 110, and transmits the calculated position measurement result value to the mobile communication terminal 110 (S320). In other words, when the mobile communication terminal 110 is assumed to be a plurality of terminals, 'terminal A' supports GPS positioning support 'O' (supportable), wireless LAN positioning support 'X' O ', the terminal C supports the GPS positioning support O, the wireless LAN positioning support X and the base station based positioning support O, the terminal D supports the GPS positioning support X, X 'and base station based positioning support' O ', and' terminal E 'can support GPS positioning' O ', wireless LAN positioning support' O 'and base station based positioning support' O '. In this case, when the position calculation server 130 determines the position of the 'terminal A', it analyzes the positioning performance information received from the 'terminal A' to determine whether the GPS positioning support information, the wireless LAN positioning support information, Check whether at least one of the support information is supported. For example, since the position calculation server 130 is in a state in which the 'terminal A' is in a state in which the GPS positioning support is 'O' (supportable), the wireless LAN positioning support is 'X' And transmits the positioning result value, which is determined by the positioning method determined to be more accurate, to the mobile communication terminal 110 among the GPS positioning capable of positioning and the positioning based on the base station. Meanwhile, in step S320, it is described that the position measurement result value having the highest accuracy among the positioning performances supported by the position calculation server 130 is calculated and transmitted to the mobile communication terminal 110. However, The server 130 may directly transmit the position measurement result value with the highest accuracy among the terminal-supported positioning capabilities to the position information providing apparatus 140. [

The mobile communication terminal 110 receives the position measurement result value with the highest accuracy among the supportable positioning performance through the mounted positioning module (S322). Here, the position measurement result value is a positioning value for one of GPS positioning, wireless LAN positioning, pCell positioning, and base station-based positioning. The mobile communication terminal 110 transmits the location determination result and the service request signal to the location information providing device 140 (S324).

The position information providing apparatus 140 receives the position measurement result for the mobile communication terminal 110 and receives the positioning result of the mobile communication terminal 110 from the position calculation server 130, The average error distance corresponding to the positioning method of the position measurement result is extracted using the resultant value (S326). In other words, the location information providing apparatus 140 may be configured to determine whether the GPS positioning average error distance, the wireless LAN positioning average error distance, the pCell positioning average error distance, and the base station- And stores at least one error distance. The location information providing device 140 extracts all POIs that are POIs included in the error distance range (S328). Here, the POI is information including at least one of name information, telephone number information, and advertisement information for the area. That is, the location information providing apparatus 140 generates an imaginary circle having an average error distance with a radius centered on the location determination result value, and extracts all the POIs included in the imaginary circle.

The location information providing apparatus 140 selects an optimal POI corresponding to at least one of the user orientation information and the movement pattern information of the user of the mobile communication terminal 110 among all the POIs in operation S330. The location information providing device 140 provides the optimal POI to the mobile communication terminal 110 (S332).

Although it is described in FIG. 3 that steps S310 to S332 are sequentially executed, this is merely illustrative of the technical idea of one embodiment of the present invention. It is to be understood that the technical knowledge in the technical field to which the embodiment of the present invention belongs Those skilled in the art will appreciate that various modifications and adaptations may be made to those skilled in the art without departing from the essential characteristics of one embodiment of the present invention by changing the order described in Figure 3 or by executing one or more of steps S310 through S332 in parallel And therefore, Fig. 3 is not limited to the time-series order.

As described above, the positional information providing method using the error range according to the embodiment of the present invention described in FIG. 3 can be implemented by a program and recorded on a computer readable recording medium. A program for implementing the method of providing location information using an error range according to an embodiment of the present invention is recorded and a computer readable recording medium includes all kinds of recording devices for storing data that can be read by a computer system do. Examples of such computer-readable recording media include ROM, RAM, CD-ROM, magnetic tape, floppy disk, optical data storage, etc., and also implemented in the form of a carrier wave (e.g., transmission over the Internet) . The computer readable recording medium may also be distributed over a networked computer system so that computer readable code is stored and executed in a distributed manner. In addition, functional programs, code, and code segments for implementing an embodiment of the present invention may be easily inferred by programmers skilled in the art to which an embodiment of the present invention belongs.

4 is a flowchart illustrating an optimal POI selection method according to an embodiment of the present invention.

More specifically, the location information providing device 140 selects an optimal POI corresponding to at least one of the user orientation information and the movement pattern information for the user of the mobile communication terminal 110 among all the POIs, S440.

The location information providing device 140 selects the latest POI corresponding to the most recent visited area among the user's visit records based on the movement pattern information (S410). The location information providing device 140 collects location registration information of the mobile communication terminal 110 from the mobile communication network 120. The location information providing device 140 generates movement pattern information based on the collected location registration information. The location information providing device 140 collects POI information of the moving area based on the GPS propagation information received from the mobile communication terminal 110. The location information providing device 140 cumulatively stores destination information received from the mobile communication terminal 110. The location information providing device 140 generates movement pattern information based on POI information and destination information of the moving area.

In operation S420, the location information providing device 140 selects a main path POI corresponding to the frequently visited area of the user's visited record more than a preset number of times based on the movement pattern information as an optimal POI. When there is no user's visit record on the route information as a result of checking at least one of the user orientation information and the movement pattern information, the location information providing device 140 transmits a representative POI set as default to the pre- (S430).

The location information providing device 140 extracts at least one or more pieces of information from consumption pattern information, interest item information, and life behavior information corresponding to user propensity information, and selects a preferred POI corresponding to information extracted from all POIs as an optimal POI (S440). Here, the preferred POI is information obtained by extracting a POI corresponding to user propensity information. Meanwhile, the location information providing apparatus 140 receives user personal information from the interworking mobile communication network 120, and collects trend information matching the personal information. Here, the personal information is information including at least one of the user age information, gender information, and job information. The location information providing device 140 is connected to at least one server of the mobile communication use record providing server, the crisis-based service use record providing server, the shopping service providing server, and the card payment server to generate consumption pattern information matching the personal information, Item information, and life behavior information. The location information providing device 140 updates the user preference information at a preset period. The location information providing device 140 collects the collected propensity information and generates user propensity information. That is, the location information providing device 140 provides the selected optimal POI to the mobile communication terminal 110 through steps S410 to S440.

4, steps S410 to S440 are sequentially performed. However, this is merely illustrative of the technical idea of an embodiment of the present invention, and it is not intended to limit the scope of the present invention to the general knowledge in the technical field to which an embodiment of the present invention belongs. Those skilled in the art will appreciate that various modifications and adaptations may be made to those skilled in the art without departing from the essential characteristics of one embodiment of the present invention by changing the order described in Figure 4 or by executing one or more of steps S410 through S440 in parallel And therefore, it is not limited to the time-series order in Fig.

As described above, the optimum POI selection method according to an embodiment of the present invention illustrated in FIG. 4 can be implemented by a program and recorded on a computer-readable recording medium. A program for implementing an optimum POI selection method according to an embodiment of the present invention is recorded and a computer-readable recording medium includes all kinds of recording devices for storing data that can be read by a computer system. Examples of such computer-readable recording media include ROM, RAM, CD-ROM, magnetic tape, floppy disk, optical data storage, etc., and also implemented in the form of a carrier wave (e.g., transmission over the Internet) . The computer readable recording medium may also be distributed over a networked computer system so that computer readable code is stored and executed in a distributed manner. In addition, functional programs, code, and code segments for implementing an embodiment of the present invention may be easily inferred by programmers skilled in the art to which an embodiment of the present invention belongs.

5 is an exemplary diagram of a POI included within an error range according to an embodiment of the present invention.

The position information providing apparatus 140 extracts an average error distance corresponding to the positioning method of the position measurement result value. At this time, the position information providing apparatus 140 may calculate the position measurement result value in a separate database And stores the error distance of at least one of the GPS positioning mean error distance, the wireless LAN positioning mean error distance, the pCell positioning mean error distance, and the base station-based positioning mean error distance.

For example, as shown in FIG. 5, '★' represents the position measurement result value, 'X' represents the GPS positioning method error distance, 'Y' represents the wireless LAN positioning method error distance, and 'Z 'Represents the pCell positioning method error distance, the position information providing device 140 extracts all the POIs that are the POIs included in the error distance range. Here, the POI is information including at least one of name information, telephone number information, and advertisement information for the area. The location information providing device 140 generates an imaginary circle having an average error distance with a radius centered on the location measurement result value, and extracts all the POIs included in the imaginary circle.

More specifically, it is assumed that the error distance of the GPS positioning method of 'X' is' 30 m ', the error distance of the wireless LAN positioning method of' Y 'is '50 m' It can be assumed that the error distance of the positioning method is '250 m'. That is, the position information providing apparatus 140 generates an imaginary circle having an average error distance with a radius centering on the position measurement result value '★', extracts all the POIs included in the virtual circle, If the positioning method is the GPS positioning method, 'a, b' included in the 'X' radius '30 m' can be extracted as a whole POI. On the other hand, in the case where the location positioning result value is positioned in the wireless LAN positioning system, the location information providing apparatus 140 extracts 'ⓒ, ⓓ, ⓔ' included in 'Y' radius '50 m' You can do it. On the other hand, in the case of the pCell positioning method in which the position measurement result value is positioned, the position information providing device 140 transmits all of the 'x', 'x', 'x', and ' It can be extracted by POI. The location information providing device 140 selects the optimal POI corresponding to at least one of the user orientation information and the movement pattern information of the user of the mobile communication terminal 110 among the entire POIs and transmits the selected POI to the mobile communication terminal 110 .

While the present invention has been described in connection with what is presently considered to be the most practical and preferred embodiments, it is to be understood that the invention is not limited to the disclosed embodiments. That is, within the scope of the present invention, all of the components may be selectively coupled to one or more of them. In addition, although all of the components may be implemented as one independent hardware, some or all of the components may be selectively combined to perform a part or all of the functions in one or a plurality of hardware. As shown in FIG. The codes and code segments constituting the computer program may be easily deduced by those skilled in the art. Such a computer program can be stored in a computer-readable storage medium, readable and executed by a computer, thereby realizing an embodiment of the present invention. As the storage medium of the computer program, a magnetic recording medium, an optical recording medium, a carrier wave medium, or the like may be included.

It is also to be understood that the terms such as " comprises, "" comprising," or "having ", as used herein, mean that a component can be implanted unless specifically stated to the contrary. But should be construed as including other elements. All terms, including technical and scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs, unless otherwise defined. Commonly used terms, such as predefined terms, should be interpreted to be consistent with the contextual meanings of the related art, and are not to be construed as ideal or overly formal, unless expressly defined to the contrary.

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 scope of protection of the present invention should be construed according to the following claims, and all technical ideas within the scope of equivalents should be construed as falling within the scope of the present invention.

As described above, the present invention can be applied to various fields for selecting and providing optimum information corresponding to at least one of information collected from user included information and movement pattern information included in the average error distance corresponding to the positioned system To provide an optimal location in accordance with user preference information and movement pattern information, the user is a useful invention for generating an effect of perceiving the periphery more easily when using the location-based service.

Claims (17)

An information receiving unit for receiving a position measurement result value for the terminal;
An error distance extracting unit for extracting an average error distance corresponding to a method of positioning the position measurement result value;
A POI extracting unit for extracting all POIs which are POIs included in the error distance range;
A POI selection unit for extracting at least one or more pieces of information on consumption pattern information and interest item information corresponding to user tendency information of a user of the terminal and selecting an optimal POI corresponding to the extracted information among all the POIs; And
And providing the optimal POI to the terminal
Wherein the position information generating unit generates the position information using the error range. The method according to claim 1,
The POI extracting unit,
Generating an imaginary circle having the average error distance with a radius centered on the position measurement result value, and extracting the entire POI included in the imaginary circle. The method according to claim 1,
The information receiver
And receives the position measurement result value with the highest accuracy among the positioning capabilities supported by the terminal from the interworking position calculation server. The method according to claim 1,
The POI selection unit,
Wherein the optimal POI is selected from a representative POI set as a default in pre-stored map data when there is no user's visit record on the movement route information as a result of checking the user propensity information. Information providing device. The method according to claim 1,
A base station-based incentive information collecting unit for receiving user incentive information from an interworking mobile communication network and collecting incentive information matched to the incentive information; And
A propensity information generating unit for collecting the propensity information and generating the user propensity information;
Wherein the position information generating unit further includes a position information generating unit that generates position information based on the error information. The apparatus of claim 1, wherein the POI selector
Wherein the optimal POI is selected considering further the movement pattern information. The method according to claim 6,
The POI selection unit,
And selects the latest POI corresponding to the most recent visited area among the user's visit records based on the movement pattern information, using the optimal POI. The method according to claim 6,
A base station-based incentive information collecting unit for receiving user incentive information from an interworking mobile communication network and collecting incentive information matched to the incentive information;
A propensity information generating unit for collecting the propensity information and generating the user propensity information;
A base station-based location information collection unit for collecting location registration information of the terminal from the mobile communication network; And
A movement pattern generation unit for generating the movement pattern information based on the collected location registration information,
Wherein the position information generating unit further includes a position information generating unit that generates position information based on the error information. The method according to claim 6,
A base station-based location information collection unit for collecting location registration information of the terminal from a mobile communication network; And
A movement pattern generation unit for generating the movement pattern information based on the collected location registration information,
Wherein the position information generating unit further includes a position information generating unit that generates position information based on the error information. 10. The method of claim 9,
A GPS-based location information collecting unit for collecting POI information of a moving area based on GPS propagation information received from the terminal; And
A terminal-based location information collecting unit for cumulatively storing destination information received from the terminal,
Wherein the movement pattern generator generates the movement pattern information based on the POI information of the movement area and the destination information. The method according to claim 1,
The POI includes:
Wherein the information includes at least one of name information, telephone number information, and advertisement information for the area. The method according to claim 1,
The positional measurement resultant value is a value
Wherein the positioning information is a positioning value for any one of a GPS positioning, a wireless LAN positioning, a pCell positioning, and a base station based positioning. The method according to claim 1,
Further comprising an error database including at least one error distance between the GPS positioning mean error distance, the wireless LAN positioning mean error distance, the pCell positioning mean error distance, and the base station-based positioning mean error distance in accordance with the positioning method of the position measurement result value Wherein the position information is obtained by using the error range. delete delete delete Receiving a position measurement result value for the terminal;
Extracting an average error distance corresponding to a method of locating the position measurement result value;
Extracting an entire POI that is a POI (Point of Interest) included in the error distance range;
Extracting at least one or more pieces of information of consumption pattern information and information of interest items corresponding to user propensity information for the user of the terminal, and selecting an optimal POI corresponding to the extracted information among all the POIs; And
Providing the optimal POI to the terminal
The method of claim 1, further comprising:

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