KR101419274B1 - Positioning Apparatus for Using WLAN Information and Positioning Method Thereby, and Positioning Server for Using WLAN Information and Driving Method Thereof - Google Patents

Abstract

The present invention relates to a positioning apparatus that uses wireless LAN information to improve positioning accuracy of a communication terminal using available time information of a mobile access point, a positioning method of the apparatus, a positioning server that uses wireless LAN information, Driving method. A positioning apparatus using wireless LAN information according to an embodiment of the present invention includes a stationary first access point performing short-range communication with a communication terminal; A mobile second access point for performing short-range communication with the communication terminal; The wireless LAN information for the first access point and the second access point, and the valid time information for whether or not the second access point utilizes the positioning by time zone, and the positioning result based on the WLAN information and the valid time information A wireless local area network (WLAN) server; And access point information of the first and second access points as positioning information provided when a positioning of the communication terminal is requested, and transmitting, by using the AP information, the wireless LAN information, When the second access point can utilize the positioning by time zone, the WLAN server receives the positioning result based on the WLAN information and the valid time information, And a positioning server provided to the requester.

Description

TECHNICAL FIELD [0001] The present invention relates to a positioning apparatus using wireless LAN information, a positioning method of the positioning apparatus, a positioning server using the wireless LAN information, and a driving method of the server. Thereof}

An embodiment of the present invention relates to a positioning apparatus using wireless LAN information, a positioning method of the positioning apparatus, a positioning server using wireless LAN information, and a driving method of the server. And more particularly, to a positioning apparatus that uses wireless LAN information to improve positioning accuracy of a communication terminal using available time information of the mobile access point, a positioning method of the apparatus, a positioning server that uses wireless LAN information, and a method of driving the server .

2. Description of the Related Art [0002] With the rapid development of electronic and communication technologies, various wireless communication services using a wireless network have been provided. Accordingly, a service provided in a mobile communication system using a wireless communication network is being developed as a multimedia communication service for transmitting data such as packet data as well as voice service.

Among various wireless Internet services using a communication terminal, a location based service (LBS) has attracted a lot of attention due to its wide applicability and convenience. The location-based service refers to a communication service that grasps the location of a communication terminal such as a mobile phone and a PDA (Personal Digital Assistant), and provides additional information related to the identified location.

A positioning technique for providing a location-based service includes a network-based method of confirming a position by software using a propagation environment which is a cell radius of a base station of a wireless communication network to measure a position of the communication terminal, A handset-based method using a GPS receiver, and a hybrid method in which these two methods are mixed.

Among these methods, network-based positioning technology has been widely used in shaded areas where the propagation of GPS is insufficient. However, the network-based positioning technique has a problem that the positioning performance may be degraded due to a repeater environment or the like. In addition, the network-based positioning technique has a disadvantage in that the base station itself can not be precisely positioned since it is not closely installed.

The embodiment of the present invention obtains the available time information of the mobile access point using the usage pattern information of the users possessing the mobile access point by time zone and uses the available time information of the mobile access point at the positioning of the communication terminal, And a positioning method using the wireless LAN information, and a method of operating the server.

A positioning apparatus using wireless LAN information according to an embodiment of the present invention includes a stationary first access point performing short-range communication with a communication terminal; A mobile second access point for performing short-range communication with the communication terminal; The wireless LAN information for the first access point and the second access point, and the valid time information for whether or not the second access point utilizes the positioning by time zone, and the positioning result based on the WLAN information and the valid time information A wireless local area network (WLAN) server; And access point information of the first and second access points as positioning information provided when a positioning of the communication terminal is requested, and transmitting, by using the AP information, the wireless LAN information, When the second access point can utilize the positioning by time zone, the WLAN server receives the positioning result based on the WLAN information and the valid time information, And a positioning server provided to the requester.

Also, the positioning server using the wireless LAN information according to the embodiment of the present invention receives and stores the AP information for the fixed first access point and the mobile second access point as the positioning information provided when the positioning of the communication terminal is requested, A memory unit for storing WLAN information on the first access point and the second access point, and valid time information on whether the second access point utilizes time-based positioning; And determining whether to utilize the positioning of the second access point by time zone by using the AP information, the wireless LAN information, and the available time information, and when it is determined that the second access point can utilize the positioning by time zone, And a validity time determiner for requesting a positioning result based on the information and the validity time information.

The positioning method of the positioning apparatus using the wireless LAN information according to the embodiment of the present invention is a positioning method of a positioning apparatus using a fixed access point and a wireless access point for a mobile access point, Storing valid time information on availability of positioning by time zone; Wherein the first access point receives AP information about the first and second access points which are provided as positioning information by requesting the communication terminal to perform positioning, and transmits the AP information, the WLAN information, Requesting a positioning result based on the wireless LAN information and the available time information when the second access point can utilize the positioning by time slot; And providing the positioning result to the service requester.

A method of driving a positioning server using wireless LAN information according to an exemplary embodiment of the present invention includes a first wireless LAN access point and a second wireless access point, Storing effective time information on whether or not a point can be used for positioning by time zone; Requesting a positioning to the communication terminal and receiving AP information for the first and second access points provided as positioning information; Comparing AP information of the first and second access points with the WLAN information to determine whether AP information is at least n in the first access point; Comparing the radio environment information of the second access point provided as the positioning information with the WLAN information if the AP information is less than n in the first access point; Determining whether the valid time information of the second access point is in a time available for positioning when the wireless environment information and the wireless LAN information match each other; And providing the service requestor with a positioning result according to the valid time information of the second access point when the valid time information is in a time available for positioning.

According to the embodiment of the present invention, the available time information of the mobile access point is obtained through the usage pattern information of the users possessing the mobile access point by time, and the available time information of the mobile access point is utilized at the positioning of the communication terminal, The positioning accuracy of the terminal can be increased.

1 is a diagram showing a structure of a positioning apparatus using wireless LAN information according to an embodiment of the present invention;
Fig. 2 is an exemplary diagram of the wireless communication network of Fig. 1,
3 is a diagram showing the structure of the positioning server of Fig. 1,
FIG. 4 is a diagram showing a DB structure of the WLAN server of FIG. 1;
Fig. 5 is a diagram showing a positioning method of the positioning apparatus shown in Fig. 1,
6 is a diagram illustrating a driving process of the positioning server shown in FIG.

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 symbols as 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 is to be understood that the elements may be "connected "," some embodiments of the present invention will now be described in detail with reference to the accompanying drawings, "

FIG. 1 is a diagram showing a structure of a positioning apparatus using wireless LAN information according to an embodiment of the present invention, and FIG. 2 is an exemplary view of the mobile communication network of FIG. FIG. 3 is a diagram showing the structure of the positioning server of FIG. 1, and FIG. 4 is a diagram showing a DB structure of the WLAN server of FIG.

1 to 4, a positioning apparatus using wireless LAN information according to an embodiment of the present invention includes an access point 110 (hereinafter, referred to as an AP) A positioning server 140, and a WLAN server 150. [ Further, the positioning apparatus may further include a part or all of the GPS satellite 120, the wired / wireless communication network 130, the AP usage pattern analysis server 160, and the LBSP 170.

In the embodiment of the present invention, the communication terminal 100 can be applied to various wired and wireless environments, and can be classified into a personal digital assistant (PDA), a cellular phone, a smart phone, and the like, A Global System for Mobile (GSM) phone, a Wideband CDMA (W-CDMA) phone, a CDMA-2000 phone, and a Mobile Broadband System (MBS) phone. Here, the MBS phone represents the communication terminal 100 to be used in the next generation system currently being discussed. Further, the communication terminal 100 according to the embodiment of the present invention may further include a desktop computer, a laptop computer 103, and the like.

The communication terminal 100 includes a wireless communication module, a wireless LAN module, and may further include a GPS module. The communication terminal 100 connects to the wired / wireless communication network 130 and performs normal voice communication and data communication with the other party. In addition, the communication terminal 100 can receive various web page data by accessing the wired / wireless communication network 130 via the AP 110 which is perceived as being surrounding by the wireless LAN module. The communication terminal 100 may be divided into a GPS terminal 101 and a non-GPS terminal 102 depending on whether a GPS module is provided or not. If the communication terminal 100 includes a GPS module, data .

The communication terminal 100 may be a wireless Internet protocol (WAP), a Microsoft Internet Explorer (MIE) based on HTML using the HTTP protocol, a Handheld Device Transport Protocol (HDPT) The user accesses the Internet via the wired / wireless communication network 130 using the i-mode of NTT DoKoMo or a browser for wireless Internet access of a specific communication company. Among the Internet access protocols used by the communication terminal 100, the MIE uses m-HTML, which slightly reduces and modifies the HTML, and the language called compact HTML (c-HTML), which is a subset of HTML in the case of i- use.

In order to provide a faster wireless Internet, the communication terminal 100 such as a recent smart phone uses a browser for wireless Internet access of a specific communication company such as Opera Mini for iPhone, WiFi and WiBro, which are local area networks, are also used to provide wireless broadband internet.

The communication terminal 100 performs a network-based positioning or a handset-based positioning in accordance with a positioning request from the positioning server 140. For example, the communication terminal 100 may provide GPS information, base station information, and AP information to the positioning server 140 via the wired / wireless communication network 130 in order to perform network-based positioning. When the network-based positioning is performed as described above, a positioning protocol message of a specific standard is used between the communication terminal 100 and the positioning server 140. Here, the positioning protocol is a standard that standardizes the application layer specification for positioning the communication terminal 100.

For example, when the wired / wireless communication network 130 is an asynchronous (WCDMA) network as shown in FIG. 2, the GPS terminal 101 capable of receiving GPS signals transmits the positioning information requested by the positioning server 140, And the non-GPS terminal 102 which can not receive the GPS signal use the SUPL (Secure User Plane Location) message to provide the AP information and the positioning information requested by the positioning server 140, for example, the base station information and the AP information (Positioning Calculation Application Part) message. In the case of a synchronous (CDMA) network, the GPS terminal 101 provides positioning information to the positioning server 140 using an IS-801 (Interim Standard-801) Pilot Strength Measurement) message to the positioning server 140. In this case, the GPS terminal 101 may use various positioning protocols such as RRLP (Radio Resource Location Services Protocol) and RRC (Radio Resource Control) in addition to SUPL and IS-801.

In the case of the synchronous type, the positioning information provided by the GPS terminal 101 to the positioning server 140 through the IS-801 message includes the system information currently being serviced, the pilot signal of the adjacent base station, and the signal strength (Ec / lo). Here, the system information includes, for example, a SID (System ID), a NID (Network ID), a BSID (Base Station ID), a currently serving base station sector number Ref_PN, a pilot phase and a signal strength in Ref_PN. Also, the pilot signal of the adjacent base station includes a neighbor base station sector number (Measurement PN) collected from the GPS terminal 101, a pilot phase in each adjacent base station sector number, and a signal strength. If it is an asynchronous type, the positioning information provided by the GPS terminal 101 through the SUPL message includes a mobile country code (MCC), a mobile network code (MNC), a UC-ID, a primary scrambling code (PSC) ), The signal intensity (Ec / No), the observed time difference between the system frame numbers (SFN), or the time difference between the transmission / reception (RX-TX) of the GPS terminal 101 and the like. But the present invention is not limited thereto and may include positioning related data used in all other communication systems. Of course, the non-GPS terminal 102 also provides the positioning server 140 with positioning information substantially the same as the positioning information provided by the GPS terminal 101 to the positioning server 140 through the PCAP message or the PSM message.

When the GPS terminal 101 performs positioning using the SUPL or IS-801 message in response to a request from the positioning server 140, a positioning message (hereinafter referred to as a first positioning message) such as a SUPL message The non-GPS terminal 102 transmits a PCAP message or a PSM message to the wireless terminal 100. The non-GPS terminal 102 transmits the PCAP message or the PSM message to the network node 130, (Hereinafter referred to as a second positioning message) is processed through all of the network nodes, the first positioning message is compared with the second positioning message It may be processed quickly.

The AP 110 includes a small base station such as a femto or pico base station, which is installed in a large number of buildings. Here, the femto or pico base station is classified according to the maximum number of communication terminals 100 that can be connected due to the classification of the small base stations. The AP 110 also includes a short-range communication module for performing short-range communication such as Wi-Fi with the communication terminal 100. In the exemplary embodiment of the present invention, the short-range communication may include a radio frequency (RF) and ultra-wideband communication such as Bluetooth communication, zigbee communication, IrDA, UHF and VHF (UWB), and the like. Accordingly, the AP 110 can extract the location of the data packet, specify the best communication path to the extracted location, and forward the data packet to the next device, e.g., the communication terminal 100, along the designated communication path. The AP 110 may share a plurality of lines in a general network environment and may include, for example, a router, a repeater, and a repeater. In addition, a particular manufacturer's bridge product, such as the KT Egg or the US Verizon MiFi, may be included in the AP 110. [

The AP 110 is divided into a fixed AP 111 and a mobile AP 112. The fixed AP 111 may include a router, a repeater and a repeater, and the movable AP 112 may include a bridge product of a specific manufacturer such as MiFi of Verizon, USA. The mobile AP 112 can read the reception side address of the communication terminal 100 or the like from the transmission side information transmitted through the wired / wireless communication network 130 while ensuring free mobility, and can designate the most appropriate communication route and transmit the same.

1, the APs 110 may be included in the wired / wireless communication network 130, so that the present invention is not limited thereto. I will not.

The wired / wireless communication network 130 includes a synchronous (CDMA) network, an asynchronous (WCDMA) network, a GSM network and an LTE (Long Term Evolution) network as a wireless communication network. The wired communication network 130 includes a public switched telephone network (PSTN) . In the embodiment of the present invention, any communication network can be used as long as it can transmit the positioning information from the communication terminal 100 to the positioning server 140, so that the above communication network is not particularly limited.

2, a WCDMA network includes a NodeB 200, an RNC (Radio Network Controller) 210, a Mobile Switching Center (MSC) 220, a Serving GPRS Support Node (SGSN) (250). The WCDMA network may further include a Home Location Register (HLR) 230 and a Visitors Location Register (VLR) 240. The RNC 210 relays voice or data calls between the Node B 200 and the MSC 220 or between the Node B 200 and the SGSN 250. Of course, the NodeB 200 and the RNC 210 in the WCDMA network can be replaced with a BTS (Base Station Transmission System) and a BSC (Base Station Controller), respectively, in the case of a CDMA network. The MME can be replaced with an evolved base station (e-NodeB) and a mobility management entity (MME) in an EPC (Evolved Packet Core) network. The MME is an integrated form of an RNC 210 and an MSC 220 in a WCDMA network RNC 210 and MSC 220 perform substantially the same functions.

The NodeB 200 is arranged for each cell and receives a call request signal from the communication terminal 100 through a traffic channel among the signal channels and transmits the received call request signal to the RNC The mobile terminal 100 performs location registration to transmit the location information to the mobile terminal 210 or to determine the location of the communication terminal 100 existing in the cell area to which the mobile terminal 100 belongs. The NodeB 200 is a network endpoint device directly connected to the communication terminal 100, and performs baseband signal processing, wired / wireless conversion, and wireless signal transmission / reception. The NodeB 200 determines the location of the communication terminal 100 if the communication terminal 100 existing in its own cell area corresponds to the receiving side and then determines the location of the communication terminal 100 from the MSC 220 through the RNC 210 Request signal.

In addition, the NodeB 200 can obtain information such as the location and latitude of the NodeB 200 using signals from the GPS satellites 120, and transmits the position information of the NodeB 200 to the Node B 200 through the system parameter message of the forward link paging channel To the communication terminal (100). The communication terminal 100 may register the new location information by calculating the movement distance of the communication terminal 100 using the location information of the NodeB 200 of the cell to which the communication terminal 100 belongs. The location registration is a processing procedure for notifying the MSC 220 of a location, a state, an identifier, a slot period, and other characteristics of the communication terminal 100 through the NodeB 200, The communication terminal 100 can be effectively called. The location registration of the communication terminal 100 is performed when the communication terminal 100 moves between the MSCs 220 when the communication terminal 100 is powered on or off and when the communication terminal 100 ) May be changed.

The RNC 210 controls the NodeB 200 and allocates and releases radio channels to and from the communication terminal 100 and controls transmission power of the communication terminal 100 and the NodeB 200, Performs hard handoff determination, transcoding and vocoding, GPS clock distribution, and operation and maintenance functions for NodeB 200. The RNC 210 also transmits the subscriber information of the location-registered communication terminal 100 to the MSC 220. The RNC 210 transmits a call request signal transmitted from the communication terminal 100 through the NodeB 200 to the MSC 220. The RNC 210 transmits the call request signal transmitted from the MSC 220 to the NodeB 200 200 to the communication terminal 100 through the network.

The MSC 220 performs base and supplementary service processing, subscriber's reception and origination call processing, location registration and handoff procedure processing, and interworking with other networks. For example, the MSC 220 of the IS-95 / A / B / C system includes an Access Switching Subsystem (ASS) functioning as a distributed call processing function, an Interconnection Network Subsystem (INS) A Central Control Subsystem (CCS) for centralizing the operation and maintenance, and a Location Registration Subsystem (LRS) for storing and managing information on the mobile subscriber. An MS (Asynchronous Transfer Mode) switch may be included in the MSC 220 for the third and fourth generations. The ATM switch increases the transmission rate and the efficiency of line use by packet transmission per cell. The MSC 220 temporarily stores the subscriber information of the communication terminal 100 in the VLR 240 when the location registration of the communication terminal 100 is performed through the NodeB 200 and the RNC 210, 230 to request the location registration of the communication terminal 100.

The HLR 230 receives the location information of the communication terminal 100 from the VLR 240 and performs functions such as registration recognition, registration deletion, and location confirmation. The HLR 230 also stores profile information of the communication terminal 100 waiting for a call. Here, the profile information refers to MIN (Mobile Identification Number), ESN (Electronic Serial Number) and / or mobile communication service information of the communication terminal 100.

The VLR 240 receives and stores the location information of the visited subscriber from which the location information registration is performed, from the MSC 220. The VLR 240 temporarily stores the subscriber information and notifies the HLR 230 when the communication terminal 100 performs the location information registration and informs the HLR 230 of the terminal identification number of the communication terminal 100, And performs functions such as position control, call processing, and external operation processing of the communication terminal 100, while taking over and receiving a copy of the unique number and service information.

The SGSN 250 may include a Gateway GPRS Support Node (GGSN). The SGSN 250 performs session management, authentication and billing functions for processing mobility management, outgoing / incoming call processing procedures and packet data transmission / reception of the communication terminal 100 for a general packet radio service (GPRS) . It also has routing function of packet data. Here, the GGSN is a Serving Node of an IP-based packet network that provides a high-speed packet data service for GPRS, performs session management for packet data service and routing processing of packet data and connects the wired / GPRS is an asynchronous communication system that supports a data transmission rate of 384 Kbps, provides multimedia mail, and maximizes transmission line efficiency by packet-based data transmission.

The positioning server 140 is interlocked with the wired / wireless communication network 130 and may further be linked to the LBSP 170. The positioning server 140 requests the positioning for the communication terminal 100 for the handset-based positioning or the network-based positioning when there is a positioning instruction from the LBSP 170, AP information, and base station information, and determines whether or not the mobile AP 112 can utilize the positioning by utilizing the received positioning information and the wireless LAN information provided by the WLAN server 150. In other words, when the AP information about the stationary AP 111 is sufficiently provided as the positioning information, the positioning server 140 may provide the positioning result using only the stationary APs 111, 111) is not sufficient or only the AP information for the mobile AP 112 is provided, it is determined whether or not there is available time zone information for utilizing the AP information for the mobile AP 112 in positioning, The AP information of the mobile AP 112 is utilized when the time point is included in the available time zone.

Table 1 will be useful for checking the available time zone information for the mobile AP 112 as the wireless LAN information and usage pattern information stored in the secondary DB of the WLAN server 150. Referring to Table 1, the MAC address (MAC addr) of the mobile AP 112 indicates that the same subscriber has two or more behavior patterns. In this case, the subscriber is in a clear pattern of going from company to house, from 10:00 am to 20:00 pm, and from 24:00 pm to 6:00 am at home. In addition, the subscriber information (or MIN information) in Table 1 is for identifying the management subject of the mobile AP 112. For example, the subscriber information (or MIN information) may be obtained from the subscriber information of the user carrying the mobile AP 112, The movement pattern of the mobile AP 112 can be considered at the time of positioning.

The positioning server 140 searches the DB 150a of the WLAN server 150 based on the AP information about the fixed AP 111 when the AP information about the fixed AP 111 is sufficiently provided as the positioning information The mobile AP 112 provides the positioning result to the service requester and when the AP information for the fixed AP 111 is insufficient or only the AP information for the mobile AP 112 is provided, The DB 150a of the WLAN server 150 is searched based on the AP information about the mobile AP 112 and the positioning result is provided to thereby provide more accurate information as a positioning result when a service subscriber requests a service, It will be possible. In other words, although it is desirable that the mobile AP 112 does not utilize the positioning information for the mobile AP 112 as much as possible in order not to cause a positioning error because the location is changed, conversely, as in the embodiment of the present invention, By utilizing information on the effective time period of the AP 112, it is possible to obtain a more accurate positioning result as compared with the case of using only the fixed AP 112.

For example, the positioning server 140 may include a call processing unit 300 and a mobile AP positioning utilization determination unit 310. The mobile AP positioning utilization determination unit 310 may include a memory Unit 311 and a validity time determination unit 313. The validity period determination unit 313 may include a validity period determination unit 313, Here, the call processing unit 300 performs call processing in conjunction with the wired / wireless communication network 130 and the LBSP 170. The memory unit 311 may receive the wireless LAN information stored in the DB 150a of the WLAN server 150 via the call processing unit 300 and temporarily store the wireless LAN information. The memory unit 311 may store a comparison value for determining whether AP information for the fixed AP 111 determined by the validity time determiner 313 is n or more.

The validity time determiner 313 compares the AP information of the fixed AP 111 and the mobile AP 112 provided as the positioning information with the wireless LAN information stored in the memory unit 311 to determine AP information about the fixed AP 111 n or more. For example, the validity time determination unit 313 compares the MAC address of the fixed AP 111 and the mobile AP 112 provided as the positioning information with the MAC address of the wireless LAN information, 112, and compares the number of AP information for the fixed AP 111 with the comparison value of the memory unit 311 to determine whether it is n or more.

If the number of AP information for the fixed AP 111 is less than n, the reliability of the corresponding AP 110, for example, the mobile AP 112, is utilized by using wireless environment information such as the NodeB 200 provided as positioning information If the base station Node B information provided as the positioning information and the base station information of the wireless LAN information stored in the memory unit 311 coincide with each other, it is determined that the reliability has been verified and then the reliability of the mobile AP 112, It is determined whether or not there is a mobile AP 112 in a time zone available for medium-sized positioning. If the base station information does not coincide with each other, it will lead to a positioning failure. However, if the reliability is verified through the matching of the base station information and the mobile AP 112 exists in a time zone available for positioning, Searches the DB 150a of the WLAN server 150 based on the information, and provides the positioning result to the service requester.

The WLAN server 150 includes a DB 150a in which wireless LAN information for the AP 110 of FIG. 1 is stored. Here, the DB 150a may be divided into a primary DB and a secondary DB as shown in FIG. The primary DB collects wireless LAN information such as the location of the APs 110 installed over the entire area using a mobile vehicle or the like, without discriminating between fixed and mobile types, and then matches the wireless LAN information with the grid cells classified by the pCell ID And the secondary DB represents the DB arranged in a table form by dividing the wireless LAN information of the primary DB into MAC addresses. As described above, the wireless LAN information for the AP 110 constructed in the primary DB and the secondary DB can be adjusted in accordance with the time of building the wireless LAN information. Also, the WLAN server 150 receives the usage pattern information of the AP 110 provided by the AP usage pattern analysis server 160 according to the time zone, and additionally stores the information in accordance with the MAC address. In this manner, the WLAN server 150 establishes the DB 150a of the WLAN server 150, and upon receiving a request from the positioning server 140, Matches the grid cells based on the AP information of the AP 111, provides the information as positioning results, or provides positioning results based on the AP information of the mobile AP 112.

The AP usage pattern analysis server 160 manages usage pattern information by time of a user using a tethering service or a user having an AP 110 (hereinafter, referred to as A user). Here, the tethering is a function that can utilize the communication terminal 100 as a modem. The tethering is to connect an IT device such as a notebook computer to the communication terminal 110 so that the wireless Internet can be used. Such statistical data can be used to obtain valid data by, for example, tracking the use of the A-user to the communication terminal 100. In other words, the user A requests the positioning of the communication terminal 100 and analyzes the AP information about the same AP 110 from the provided positioning information to calculate the statistical data. If you are working in a Gangnam office by noon, and you are living in Guro at night, you can see that the pattern of A-user is clear when going from company to house. Of course, the actual data for the A-user can be calculated through a method of requesting the A-user to perform the positioning with a predetermined period of time. The usage pattern information for each time period calculated through this process is provided from the AP usage pattern analysis server 160 when there is a request from the WLAN server 150.

Fig. 5 is a diagram showing a positioning method of the positioning apparatus shown in Fig. 1. Fig.

Referring to FIG. 5 together with FIG. 1 and FIG. 3, the WLAN server 150 receives AP usage pattern information for the APs 110 from the AP usage pattern analysis server 160, (Step S501). Here, the AP usage pattern information is data that can identify the usage pattern of the user who owns the AP 100, and includes the usage place of the AP 110 and available time information by time zone. For example, the DB 150a of the WLAN server 150 processes the wireless LAN information of the primary DB and the primary DB storing the wireless LAN information acquired through the mobile vehicle or the like for each grid cell, It is possible to store the AP usage pattern information together with the wireless LAN information in the secondary DB.

The positioning server 140 requests the communication terminal 100 to perform positioning in accordance with an instruction from the LBSP 170 (S503).

Thereafter, the positioning server 140 performs short-range communication with the AP 110, which the communication terminal 100 recognizes in the vicinity, and receives the provided AP information as positioning information (S505). Here, the positioning information may further include some or all of GPS information, base station information, and the like.

In addition, the positioning server 140 requests the WLAN server 150 for the WLAN information and the AP usage pattern information for the APs 110, and then receives the WLAN information and the AP usage pattern information from the WLAN server 150 (S507 ). Such a process may be performed prior to receiving the above positioning information, so that the present invention is not particularly limited to such a procedure.

The positioning server 140 compares the AP information provided as the positioning information with the WLAN information and the AP usage pattern information provided from the WLAN server 150 and analyzes whether there is availability for the mobile AP 112 by time slot (S509 ). For example, the positioning server 140 may utilize the effective time information of the mobile AP 112 if the provided positioning information does not include enough AP information for the fixed AP 111 or includes only the AP information for the mobile AP 112 It may be desirable to analyze whether it is possible.

The positioning server 140 determines whether the AP information for the fixed AP 111 is n or more before analyzing whether there is valid time information of the mobile AP 112. If the AP information is less than n, 112 may be performed to further verify the reliability of the mobile AP 112. [

As a result, if the reliability of the mobile AP 112 is verified, if the base station information matches, the location server 140 provides the WLAN server 150 with the valid time information for the mobile AP 112, And requests the provision of the positioning result on the basis of S511.

After the positioning server 140 receives the positioning result provided to the WLAN server 150, the positioning server 140 provides the service request to the WLAN server 150 (S513).

6 is a diagram illustrating a driving process of the positioning server shown in FIG.

Referring to FIG. 6 together with FIG. 1 and FIG. 3, the positioning server 140 receives positioning information provided when a positioning of the communication terminal 100 is requested (S601). At this time, the positioning information includes AP information about the AP 110 performing short-distance communication with the communication terminal 100, and may further include GPS information and base station information.

After receiving the positioning information, the positioning server 140 requests the wireless LAN information and the AP usage pattern information from the WLAN server 150 to additionally receive the wireless LAN information and the AP usage pattern information and transmits the wireless LAN information and the AP usage pattern information to a separate memory unit 311 Can be stored.

This process may be different depending on whether the positioning server 140 or the WLAN server 150 performs the analysis to utilize the effective time information for the mobile AP 112 actually included in the positioning information. In the embodiment of the present invention, the location server 140 performs an example.

Thereafter, the positioning server 140 compares the AP information provided as the positioning information with the wireless LAN information stored in the memory unit 311 to determine whether the number of AP information for the fixed AP 111 is n or more (S603).

If there are n or more APs, the positioning server 140 performs a positioning algorithm using at least n AP information (S605). For example, assuming that n is 3, and that the three AP information have different location information, the positioning algorithm can provide the positioning result to the service requester after performing the positioning algorithm using the triangulation technique . Of course, in the embodiment of the present invention, the application of the triangulation technique to the positioning algorithm is presented as an example, but the present invention is not limited thereto.

On the other hand, when the number is less than n, the positioning server 140 compares the base station information about the mobile AP 112 with the base station information provided as the wireless LAN information in order to verify the reliability of whether the mobile AP 112 can be used for positioning (S607).

If the two base station information do not coincide with each other, the positioning server 140 determines that the mobile AP 112 can not be utilized for positioning, and leads to a positioning failure (S609). In other words, if the positioning server 140 provides the positioning result based on the AP information of the mobile AP 112 provided as the current positioning information, the positioning accuracy becomes very poor.

However, if there is a mobile AP 112 whose two base station information coincide with each other, the positioning server 140 further determines whether the mobile AP 112 can utilize the information of the mobile AP 112 for positioning (S611).

As a result of the determination, if the time zone information is available, the positioning server 140 uses the time zone information for positioning to calculate the positioning (S613).

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 falling within the scope of the same shall be construed as falling within the scope of the present invention.

The terms "include", "comprise", or "have" in the specification do not exclude other components, unless the context clearly indicates otherwise. But should be construed to include 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 embodiments of the present invention are applicable to a positioning apparatus using wireless LAN information, a positioning method of the apparatus, a positioning server using wireless LAN information, and a driving method of the server. According to an embodiment of the present invention, The available time information of the mobile access point can be obtained through the use pattern information of the users having the mobile terminal in the time zone and the available time information of the mobile access point can be utilized during positioning of the mobile access point to increase the positioning accuracy with respect to the communication terminal.

100: communication terminal 110: access point
111: fixed AP 112: movable AP
120: GPS satellite 130: wired / wireless communication network
140: positioning server 150: WLAN server
160: AP usage pattern analysis server 170: LBSP
200: NodeB 210: RNC
220: MSC 230: HLR
240: VLR 250: SGSN
300: a call processing unit 310: a mobile AP positioning utilization determination unit
311: memory unit 313: valid time determining unit

Claims (11)

A fixed first access point for performing short-range communication with the communication terminal;
A mobile second access point for performing short-range communication with the communication terminal;
The wireless LAN information for the first access point and the second access point, and the valid time information for whether or not the second access point utilizes the positioning by time zone, and the positioning result based on the WLAN information and the valid time information A wireless local area network (WLAN) server; And
(AP) information of the first and second access points as positioning information provided when a positioning of the communication terminal is requested, and when the number of AP information of the first access point is smaller than a previously stored comparison value And determines whether the second access point utilizes the positioning by time slot using the wireless LAN information and the valid time information of the second access point in cooperation with the wireless LAN server, And a positioning server for receiving the positioning result based on the wireless LAN information and the valid time information from the wireless LAN server and providing the positioning result to the service requestor
Wherein the wireless LAN information includes at least one wireless LAN information. The method according to claim 1,
Wherein the AP information and the WLAN information include a part or all of an identification number, a MAC address, a received signal strength, a frequency, a stiffness value, and a base station information of the first and second access points. A positioning apparatus using LAN information. The method according to claim 1,
And the valid time information is time information on whether the second access point is used in different places in each time slot. (AP) information for a stationary first access point and a mobile second access point as positioning information provided when a positioning request of the communication terminal is received, and transmits the AP information to the first access point and the second access point (WLAN) information of the first access point and valid time information of whether or not the second access point utilizes the positioning by time zone; And
Determining whether the second access point utilizes time-based positioning using the wireless LAN information and the valid time information of the second access point when the number of AP information of the first access point is smaller than a previously stored comparison value And when it is determined that the second access point can utilize the positioning by time zone, the validity time determiner may request the positioning result based on the wireless LAN information and the valid time information
And transmits the wireless LAN information to the positioning server. 5. The method of claim 4,
Wherein the memory unit and the validity time determination unit are interlocked with a WLAN server,
Wherein the WLAN server stores the WLAN information and the valid time information, and provides the positioning result. 5. The method of claim 4,
Wherein the memory unit further stores a comparison value for comparing the number of AP information with respect to the first access point. The method according to claim 6,
The validity time determination unit may determine,
Comparing the AP information of the second access point and the base station information of the wireless LAN information when the number of AP information for the first access point is smaller than the comparison value,
And when the base station information matches with each other, the second access point can utilize the positioning by time zone. The method comprising the steps of: storing WLAN information for a fixed first access point and a mobile second access point performing short-range communication with a communication terminal; and valid time information about availability of positioning by time zone of the second access point;
(AP) information for the first and second access points, which are provided as positioning information, by requesting the communication terminal to perform positioning, and wherein the AP information of the first access point is less than a previously stored comparison value Determining whether the second access point can utilize the positioning by time zone using the wireless LAN information and the valid time information for the second access point, and if the positioning utilization of the second access point is time- Requesting a positioning result based on the WLAN information and the valid time information if possible; And
And providing the result of the positioning to the service requester
And transmitting the wireless LAN information to the positioning apparatus. The method comprising the steps of: storing WLAN information for a fixed first access point and a mobile second access point performing short-range communication with a communication terminal; and valid time information about availability of positioning by time zone of the second access point;
Receiving AP (Access Point) information for the first and second access points, which are provided as positioning information, by requesting a positioning from the communication terminal;
Comparing the number of AP information of the first access point with a previously stored comparison value;
Comparing the radio environment information of the second access point provided as the positioning information with the WLAN information and determining whether the AP information matches with the WLAN information if the number of AP information of the first access point is smaller than a previously stored comparison value;
Determining whether the valid time information of the second access point is in a time available for positioning when the wireless environment information and the wireless LAN information match each other;
Providing the service requestor with a positioning result according to the valid time information of the second access point when the valid time information is in a time available for positioning;
Wherein the wireless LAN information includes at least one wireless LAN information. 10. The method of claim 9,
The step of comparing the pre-stored comparison value with
Further comprising the step of performing a positioning algorithm using the AP information of the first access point when the number of AP information of the first access point is equal to or greater than the previously stored comparison value How to run the server. 10. The method of claim 9,
Comparing the wireless environment information of the second access point with the wireless LAN information and determining whether they coincide with each other,
And comparing the base station information for the second access point with each other.

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