JP2007104398A - Method for acquiring information related to position, exchange, and mobile communication terminal - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To acquire the positional information of a mobile communication terminal on the basis of a unified form even in 3G (third generation cellular phone) in which various kinds of forms are present in information on a base station or a radio zone, provided by the base station. <P>SOLUTION: When a base station receives from a mobile communication terminal a request about the information of a geographical position of a present station, the base station specifies a radio zone wherein the mobile communication terminal is present, and requests the geographical information of the radio zone to a radio network controller. The radio network controller adds format information indicative of an information format to the geographical information and transmits the information to the mobile communication terminal. The mobile communication terminal calculates a representative spot of the relevant radio zone from the geographical information on the basis of the received format information and defines the spot as its own latitude and longitude. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to a position related information acquisition method, an exchange, and a mobile communication terminal for estimating position information of a mobile communication terminal based on latitude and longitude information of a base station.

A mobile communication network is a service system that grasps where a mobile communication terminal is currently located and provides information on shops or facilities existing in the vicinity of the mobile communication terminal by using position information of the mobile communication terminal Various proposals have been made. In addition, as one method for detecting the position of the mobile communication terminal, there is a method that uses position information of a base station. In the mobile communication network, it is possible to grasp in which radio zone the mobile communication terminal currently exists, that is, to which base station is connected. As another method, a method of determining the position of a mobile communication terminal from the reception intensity of signals transmitted from a plurality of base stations. Alternatively, a system in which a GPS (Global Positioning System) is mounted on a mobile communication terminal and position information obtained thereby is proposed.
JP 2002-232933 A JP 2001-169355 A JP 2004-326454 A

  In the method of determining the position of a mobile communication terminal from the received strength of signals transmitted from a plurality of base stations, the mobile communication terminal receives signals from a plurality of base stations and determines the strength of each received signal and the position information of each base station. A means for calculating the position of is required. For this reason, the circuit means of the mobile communication terminal and the means for calculating the position become complicated, causing problems in terms of cost or terminal implementation. Further, although the method of obtaining the position information of the mobile communication terminal using GPS can know the exact position, it requires a circuit for GPS and has problems such as power consumption and mounting cost.

  As a method for identifying the position of a mobile communication terminal using information provided by a base station, a method for measuring the intensity of a plurality of received signals and calculating a difference, or a simple circuit without requiring a special circuit such as GPS is used. There is a method for identifying the position of a mobile communication terminal by configuration. In 2G (2nd generation mobile phone), the latitude and longitude information held by the base station is periodically notified using the control channel, and the mobile communication terminal recognizes the latitude and longitude information as peripheral information of the mobile communication terminal. It is possible to use a service such as obtaining a peripheral map from an information server via a mobile communication network.

However, in 3G (third generation mobile phone), there are many ambiguous specifications in the technical standard itself, and therefore there is no unified function on the mobile communication network for determining the location information of the mobile communication terminal. Generally, in a 3G mobile communication network, there is a radio network control unit (RNC) that controls a plurality of base stations. However, there are some that perform calculation by estimating the position of a mobile communication terminal in the RNC. Some RNCs do not have a calculation function. Even when the position of the former mobile communication terminal is estimated, the calculation method varies depending on the RNC.
For this reason, in many carriers, RNCs, and communication carriers having base stations, in order to provide services using the location information of mobile communication terminals, mobile stations such as base stations, RNCs, and switches Currently, the only option is to renovate the node or install the GPS function in the mobile communication terminal. The former has the disadvantage of enormous costs. In addition, the latter is not as costly as the former,
Moreover, because the GPS function is a third-party technology, there was a drawback that it was difficult to expand the function according to the company's service. The present invention has been made in order to solve such a problem, and position-related information that can be obtained in various formats from a mobile communication network is obtained by using a position composed of a single latitude and longitude in a mobile communication terminal. The present invention provides a method for acquiring position related information to be converted into information. In addition, another object of the present invention is to provide an exchange that transmits location related information to a mobile communication terminal. Furthermore, the present invention provides a mobile communication terminal that estimates its own position information by performing an operation according to the format of the position related information when the position related information is not an estimate of the position of the mobile communication terminal. Also aimed at.

  In order to solve the above-described problem, in the present invention, the mobile communication terminal is connected to the step of transmitting a request for acquiring location-related information from the mobile communication terminal to the switch in the mobile communication network. A request step of specifying a wireless network control unit and sending a location-related information acquisition request to the wireless network control unit, and the network control unit based on latitude and longitude information obtained from a base station to which the mobile communication terminal is connected The position related information creating step of creating the position related information in the switch and transmitting the position related information to the exchange, and the format information specified by the form of the network control unit together with the position related information are moved together with the position related information. A reply step for replying to the communication terminal, and the mobile communication terminal converting the position-related information based on the received format information Accordingly, characterized in that it comprises a conversion step of acquiring location information of the mobile communication terminal, and a providing position information acquisition method of the mobile communication terminal.

A mobile communication terminal is a device capable of wireless communication via a mobile communication network, and includes devices such as a PDA in addition to a mobile phone. In addition, the type of mobile communication network is not particularly limited. In the case of the present invention, the third generation mobile network is configured by a radio network controller called RNC (Radio Network Controller) and an exchange called MSC (Mobile Switching Center). A communication network is particularly suitable.
The RNC establishes a communication connection with a mobile communication terminal via a base station called Node-B (not shown), thereby forming a radio zone. The mobile communication terminal switches the RNC to be connected according to the movement of the terminal. However, the mobile communication terminal can connect to a plurality of RNCs, and this tendency is particularly remarkable in the case of the third generation mobile communication network. The MSC can grasp to which RNC the mobile communication terminal is connected through the RNC.

In the present invention, the position related information is information transmitted to the mobile communication terminal every time there is an acquisition request from the mobile communication terminal from the exchange. As described above, in the present invention, both the case where the position information of the mobile communication terminal is estimated by the RNC and the case where the position information of the mobile communication terminal is not estimated according to the format of the RNC or base station are collectively referred to as position related information. As an example of the former, there is position information of a mobile communication terminal estimated by RNC, and as an example of the latter, latitude and longitude information of a plurality of base stations connected to the mobile communication terminal is raised. Since each RNC is designed based on different specifications, and the method for estimating the position of the mobile device is different, both have a plurality of formats.
For example, in the RNC shown in FIG. 2, the RNC includes a latitude / longitude information (X ₀ , Y ₀ ) of the base station managed by the RNC, and a circle centered on a point away from the base station by a predetermined distance. The latitude and longitude information of the predetermined point is stored for each sector of the base station. In this case, the RNC determines the base station where the mobile station is located by a predetermined method, and further determines in which direction the mobile station exists in the base station by a predetermined routine. At least two points, for example, (X ₁ , Y ₁ ), (X ₂ , Y ₂ ), are extracted from the latitude and longitude information on the circumference of the sector to be operated. RNC calculates the latitude and longitude information of each mobile device by averaging each latitude and longitude information as ((X ₀ , + X _1, + X ₂ ) / 3, (Y ₀ + Y ₁ + Y ₂ ) / 3). Information B (X, Y) is estimated. As another example, as shown in FIG. 3, the location of the mobile device is estimated on the assumption that there is one base station connected to the mobile communication terminal and the mobile communication terminal exists in a range indicated by hatching. A method is mentioned. More specifically, the straight line distance r1 between the mobile device and the RNC can be estimated within the range of the error r2 from the RTT (Round Trip Time) value in the communication between the mobile device and the base station. Thus, even when the position of the mobile device is estimated by RNC, there are various formats such as latitude / longitude information and linear distance.
There are various RNC formats other than those described above, and there are a plurality of methods for estimating the position of a mobile device.

The format information is identification information representing an acquisition format of position-related information that differs for each RNC.
The position related information acquisition means is a function of the exchange that instructs the RNC to notify the exchange of the position related information that each has when the exchange receives a request for acquisition of position related information from the mobile communication terminal. . After receiving this instruction, the RNC collects information necessary for creating location-related information for the base station to which the mobile communication terminal is currently connected.
If the RNC stocks location-related information regularly, the latest location-related information may be transmitted.

Further, in the present invention, an exchange located on a mobile communication network, which specifies a wireless network control unit to which the mobile communication terminal is connected when receiving a request for acquisition of position related information from the mobile communication terminal. Requesting means for sending a location-related information acquisition request to the wireless network control unit, and after receiving the location-related information created by the network control unit, format information that differs depending on the format of the network control unit, And a reply means for replying to the mobile communication terminal.

Furthermore, in the present invention, a mobile communication terminal that can be communicably connected via a mobile communication network, a transmission means for transmitting a request for acquiring location-related information to an exchange on the mobile communication network, and a reply from the exchange In addition, the present invention provides a mobile communication terminal comprising receiving means for receiving the position related information and format information, and conversion means for converting the position related information based on the format information.

The conversion means is a function on the mobile communication terminal that converts position-related information into latitude and longitude information of the mobile communication terminal based on the format information, and is often realized by software.
If the position-related information is an approximation of the position information of the mobile communication terminal, the converted position-related information is used as it is as the position information (latitude / longitude information) of the mobile communication terminal, but simply the latitude held by the base station If the longitude information has been sent, the necessary calculation is performed to obtain the latitude / longitude information of the mobile communication terminal itself. There are a plurality of types of calculation methods. One is to average the latitude / longitude information (at least two points of latitude / longitude information located on a circle centered on a point at a predetermined distance from the base station) included in the position-related information. Is the method. That is, if the three latitude / longitude information are (X ₀ , Y ₀ ), (X ₁ , Y ₁ ), (X ₂ , Y ₂ ), the latitude / longitude information of the mobile device itself is ((X ₀ , + X _{1 ,} + X ₂ )) / 3, (Y ₀ + Y ₁ + Y ₂ ) / 3).

As yet another conversion means, in the present invention, the latitude information of the network control unit included in the position-related information is added with an angle formed by the true north of the network control unit and the antenna angle, and half of the antenna angle. Then, a sine of an angle obtained by subtracting 90 degrees is obtained, and the distance between the network control unit and the mobile communication terminal is multiplied by the distance obtained by adding half of the error component, and the latitude per distance is further multiplied. The latitude difference of the mobile device can be obtained by obtaining the latitude difference and adding or subtracting the latitude difference to the latitude information of the network. Similarly, in the longitude information, an angle formed by the true north of the network control unit and the antenna angle and half of the antenna angle are added to the longitude information of the network control unit included in the position related information, and 90 degrees Is obtained by multiplying the distance between the network control unit and the mobile communication terminal by a distance obtained by adding half of the error component, and further multiplying by the longitude per distance. Then, the longitude information of the mobile device can be obtained by adding or subtracting the longitude difference to the longitude information of the network.

In this conversion method, as shown in FIG. 3, a straight line distance r1 between the mobile device and the RNC is estimated in the range of the error component r2 from an RTT (Round Trip Time) value in communication between the mobile device and the base station. This is the case.
In this case, it is assumed that the mobile device is located on a line that bisects the position antenna angle β of the mobile device, and further, it is assumed that the distance between the RNC and the mobile device is r1 + 1 / 2r2. Since the position of the mobile device is a point shifted by ΔX in the longitude and ΔY in the latitude direction from the latitude and longitude information (X0, Y0) of the RNC (ΔX and ΔY are both distances), the mobile device is obtained by obtaining ΔX and ΔY. A distance shift from the RNC can be obtained. However, since most of the location information contents are provided based on the latitude and longitude information, ΔX is converted into longitude and ΔY is converted into latitude, and this is added to or subtracted from the latitude and longitude information of the RNC to obtain the latitude and longitude information of the mobile device. Can be obtained. For distance and latitude / longitude conversion, a given method can be used.
When this is specifically calculated on the mobile device, if the angle from the true north of RNC to the antenna angle is θ,
ΔX = (r1 + 1/2 · r2) · Cos (θ + 1 / 2β−90 °)
ΔY = (r1 + 1/2 · r2) · Sin (θ + 1 / 2β−90 °)
The position information of the mobile device can be obtained by performing conversion according to the following formula, further converting this into latitude / longitude information, and performing plus / minus with the latitude / longitude information of the RNC.

  According to the present invention, even in a mobile communication network for 3G (third generation mobile phone) in which various types of RNC exist, mobile communication terminals can perform mobile communication by performing conversion processing according to the format on each mobile communication terminal. The terminal can obtain unified location information. As a result, a service based on the location information of the mobile communication terminal (for example, provision of surrounding map information) similar to the service performed by 2G (second generation mobile phone) is not equipped with GPS. It can also be received at the terminal.

DESCRIPTION OF EXEMPLARY EMBODIMENTS Hereinafter, preferred embodiments of the invention will be described with reference to the drawings.
FIG. 1 shows an outline of a sequence in which the mobile communication terminal 101 requests content using a map from the information server 102 of the information providing service system. A mobile communication terminal (mobile device) 101 moves with an information server 102 via an RNC (RNC: Radio Network Controller) 104, an exchange (MSC: Mobile Switching Center) 105, and a Node-B (base station) 103 not shown in FIG. It is assumed that communication connection is made via a body communication network. The information server 102 displays a screen to the mobile device 101 indicating that the location information needs to be acquired when the mobile device 101 requests browsing or using content that requires the location information of the mobile device 101. (S101). This is because acquisition of position information requires a new communication connection, and it is necessary to ask the operator whether or not to make a new communication connection. When the operator operates the mobile device 101 and agrees to acquire the location information (S102), a request for acquiring location information is issued from the information server 102 to the mobile device 101 (S103).

After receiving the above-described position information acquisition request from the information server 102, the mobile device 101 establishes a session necessary for acquiring position-related information from the exchange 105. Since the communication connection between the exchange 105 and the mobile device 101 needs to be protected by security, authentication processing for security communication connection (not shown) may be performed.

The mobile device 101 requests the wireless network control unit 104 via the Node-B 103 to transmit location related information necessary for the mobile device 101 to calculate its location information. Receiving this, the RNC 104 similarly requests the MSC 105 to transmit location related information (S104).

The MSC 05 determines the RNC 104 where the requesting mobile device 101 is located and requests the RNC 104 to acquire location related information (S105). The RNC 104 performs the following processing when generating and transmitting location-related information.
First, when the RNC 104 estimates the position of the mobile device 101 by calculation, the RNC 104 performs this calculation and returns the calculation result to the MSC 105 as position related information (S106).
As a calculation method, as will be described later, a method of averaging the latitude and longitude information of a plurality of Node-B 103 to which the mobile device 101 is connected, and the distance between the mobile device 101 and the RNC 104 based on the transmission power value to the mobile device 101 There is a method to calculate

FIG. 2 is a conceptual diagram showing the positional relationship between the Node-B and the mobile device.
The mobile device 101 manages the connection by the RNC 104 existing in the center while establishing a session with the Node-B 103. In the RNC, the latitude and longitude information of the Node-B 103 is held inside each Node-B. In addition, the latitude and longitude information of a predetermined point located on the circumference centered on a point that is a predetermined distance away from Node-B for each Node-Bno antenna angle is similarly held in the RNC for each Node-B. ing. The RNC selects the Node-B connected to the mobile device, the latitude-longitude information (X ₀ , Y ₀ ) of the Node-B, and the antenna angle of the Node where the mobile device 101 is located at the Node-B , At least two (X ₀ , Y ₀ ), (X ₁ , Y ₁ ), (X ₂ , Y ₂ ) are collected and averaged ((X ₀ , + X _1, + X ₂ )) / 3, (Y ₀ + Y ₁ + Y ₂ ) / 3)), the position of the mobile device 101 is estimated.

Depending on the format of the RNC 104, a method of calculating the distance between the mobile device 101 and the RNC 104 based on the transmission power value to the mobile device 101, the position of the mobile device 101 is not calculated multilaterally, and only one Node-B is calculated. There is also a method of transmitting information to the exchange as position related information.
In these cases, since the position related information is information that can be equated with the position information of the mobile device, the mobile device 101 treats the position related information as the position information of the mobile device 101 as it is.

Next, a case where the position related information generated by the RNC 104 cannot be identified with the position of the mobile device 101 will be described. Specifically, the RNC 104 does not perform the latitude / longitude information of the mobile device itself based on the latitude / longitude information of the Node-B 103 to which the mobile device 101 is connected or the latitude / longitude information of the predetermined point described above. There are cases where it is performed on the machine 101. In this case, the latitude-longitude information (X ₀ , Y ₀ ) of Node-B included in the position-related information acquired by the mobile device 101, the latitude / longitude information (X ₁ , Y ₁ ) of the predetermined point described above, ( Calculation is performed based on X ₂ , Y ₂ ). The latitude / longitude information B (X, Y) of the mobile device 101 is estimated. That is, the latitude and longitude information of the mobile device itself is calculated by averaging each latitude and longitude information as ((X ₀ , + X _1, + X ₂ ) / 3, (Y ₀ + Y ₁ + Y ₂ ) / 3). Estimate B (X, Y).

In some cases, the RNC 104 holds the antenna angle of the sector where the mobile device 101 is located and the approximate distance to the area where the mobile device 101 exists. FIG. 3 shows the relationship between the RNC 104 and the mobile device 101 in this case. Although it can be determined that the mobile device is located in the area displayed at 320, the RNC 104 does not have a function for obtaining the location information of the mobile device, so the parameters necessary for the mobile device to calculate the location information are set. Send. Specifically, as shown in FIG. 4, the antenna angle β of the RNC 104, the angle from the true north of the RNC 104 to the sector of the RNC 104 is θ, the radius to the inner arc of the sector is r1, and the arc of the outer circumference of the sector The radius up to r2 is set as r2, and these four parameters are generated as position related information.
Also in this case, as described later, the mobile device 101 performs the calculation based on the position related information, and generates the position information inside the mobile device 101.

After the location-related information is generated, the RNC 104 assigns an identifier associated with the format of the RNC 104 to the location-related information as format information, based on the format of the location-related information generated by itself, as shown in FIG. .
In the present embodiment, when the position-related information generated by the RNC 104 can be equated with the position information, the format information is defined as TYPE-A (FIG. 5A). Further, TYPE-B (FIG. 5 (b)) is the format information when sending the latitude / longitude information of Node-B as the position related information, and TYPE-C (FIG. 5 (c)) is the case where the antenna angle of the RNC 104 is transmitted. ) Respectively.
The RNC 104 transmits the format information defined in this way to the exchange 105 together with the position related information. (S106)

The MSC 105 returns the position related information acquired from the RNC 104 and the format information added thereto to the mobile communication terminal 101 via the RNC 104 and the base station 103. (S107)
The mobile device 101 performs processing for converting the received position related information into position information in accordance with the contents of the format information. Even if the position-related information and the position information are substantially the same, they are recognized as position information only through this conversion process. FIG. 5 is a schematic diagram showing format information and a data format of position-related information corresponding to the format information. Neither format information nor position related information is limited to this format.

FIG. 6 is a flowchart showing a determination procedure inside the mobile device 101 that has received the format information and the position related information.
In STEP601, it is checked in a loop whether or not the mobile device 101 has received a combination of format information and position related information. When the combination of the format information and the position related information is received, the process proceeds to STEP 602, and it is first determined whether or not it corresponds to TYPE-A. When it corresponds to TYPE-A, it progresses to STEP603 and the conversion process according to TYPE-A mentioned later is performed. If it does not correspond to TYPE-A, the process proceeds to STEP 604 and it is determined whether or not it corresponds to TYPE-B. When it corresponds to TYPE-B, it progresses to STEP605 and the conversion process according to TYPE-B mentioned later is performed. If it does not correspond to TYPE-B, the process proceeds to STEP 606 to determine whether or not it corresponds to TYPE-C. When it corresponds to TYPE-C, it progresses to STEP607 and the conversion process according to TYPE-C mentioned later is performed. If it does not correspond to TYPE-C, the process proceeds to STEP 608, where it is determined that the conversion method is not prepared in advance in the conversion means, and error processing is performed.

If the position related information is already a calculation result for estimating the position of the mobile device 101, for example, in the case of TYPE-A in FIG. 4A, the mobile device 101 directly uses the position related information as its own position information. Hold.
Further, there is a case where the RNC 104 does not have a configuration for acquiring the latitude / longitude information of the Node-B, and the position-related information transmitted is only the latitude / longitude information of the RNC 104 in which the mobile station is located. . In this case, the mobile device 101 holds the latitude / longitude information of the RNC 104 as its own position information.

When the position-related information is a collection of the latitude / longitude information of the Node-B 103 to which the mobile device 101 is connected or the predetermined latitude / longitude information described above, for example, when it is TYPE-B in FIG. Performs the process of averaging the latitude and longitude information. That is, if the three latitude and longitude information are (X ₀ , Y ₀ ), (X ₁ , Y ₁ ), and (X ₂ , Y ₂ ), the latitude / longitude information of the mobile device itself is ((X ₀ , + X _1. + X ₂ )) / 3, (Y ₀ + Y ₁ + Y ₂ ) / 3)

When the position related information is that of TYPE-3 defined in FIG. 4C, a special calculation is required on the mobile device.
As described above, in this case, the RNC 104 is connected to the mobile device 101 in the state shown in FIG. In this case, the mobile device 101 is present in the hatched range, that is, when the antenna angle is β, it is only notified that it is somewhere in the antenna angle and somewhere between r1 and r2. Exists. In this case, the mobile communication terminal is located at the middle of the circle of radius r1 and the circle of r2 on the X position, that is, on the line drawn toward the circumference at the angle of 1 / 2β. Assuming that, the following calculation is performed.
If the XY component of the distance to the center of the RNC 104 located at the center of the circle is (ΔX, ΔY), ΔX = (r1 + 1/2 · r2) · Cos (θ + 1 / 2β−90 °) and ΔY = (r1 + 1) / 2 · r2) · Sin (θ + 1 / 2β−90 °) can be obtained for the respective calculation results.
Since ΔX and ΔY are distance-based information based on r1 and r2, it is necessary to convert them into latitude and longitude information.
For example, an existing method such as 1/100 second = 0.3 m can be given as the conversion method of distance and latitude / longitude. Thus, after ΔX and ΔY are converted into latitude and longitude, ΔX is added to or subtracted from the longitude of the RNC position information, and ΔY is added to or subtracted from the latitude of the RNC position information.
Whether to add or subtract varies depending on whether the latitude / longitude information is east longitude, west longitude, north latitude, or south latitude.

The mobile station 101 receives the position related information, obtains the position information, terminates the communication connection with the exchange 105, and reconnects to the information server 102.

As described above, the mobile device 101 can obtain position information corresponding to each format by converting the position related information based on the format information.
By transmitting such location information to the information server 102 (S108), the mobile device 101 can be provided with various information services that require the location information of the mobile device 101, such as providing surrounding map information. The information server 102 transmits the content to the mobile device 101 (S109).

  According to the present invention, even a mobile communication terminal that does not have a means for specifying its own position, such as GPS, can identify a point that can be regarded as the position of the mobile communication terminal. Further, even if the information regarding the position of the mobile communication terminal held by the radio network controller (RNC) is different, and as a result, the format of the information transmitted from the radio network controller to the mobile communication terminal is different, the mobile communication It is possible to convert information in different formats received by the terminal into a common format. According to this configuration of the present invention, the mobile communication terminal can access an information server of a service system that provides map information such as a store or a public facility based on its own location information.

Sequence diagram between mobile device, MSC, RNC, and content server First conceptual diagram showing the connection status between a mobile device and a specific type of RNC, Node-B A second conceptual diagram showing the connection status between a mobile device and a specific type of RNC, Node-B Reference diagram showing parameters for estimating the position of the mobile device in FIG. Conceptual diagram showing the structure of location-related information and the status of adding format information Flow chart showing processing procedure of position related information in mobile device

Claims (6)

Transmitting a request for acquiring location-related information from a mobile communication terminal to an exchange in the mobile communication network;
A request step in which the exchange specifies a wireless network control unit to which the mobile communication terminal is connected, and sends a location-related information acquisition request to the wireless network control unit;
The network control unit creates position related information based on the latitude and longitude information obtained from the base station to which the mobile communication terminal is connected, and the position related information creating step for transmitting the position related information to the exchange;
A reply step of returning the format information identified by the format of the network control unit to the mobile communication terminal together with the location related information;
The mobile communication terminal includes a conversion step of acquiring the position information of the mobile communication terminal by converting the position related information based on the received format information.
A method for acquiring location information of a mobile communication terminal. The converting step includes
Integrating the base station latitude information, the sine of the antenna angle of the base station, the distance between the mobile communication terminal and the base station, and the latitude around the distance;
Accumulating the cosine of the half of the antenna angle of the base station, the distance between the mobile communication terminal and the base station, and the longitude around the distance to the longitude information of the base station;
The position information acquisition method according to claim 1, further comprising: An exchange located on a mobile communication network,
Request means for identifying a wireless network control unit to which the mobile communication terminal is connected when receiving a request for acquiring location-related information from a mobile communication terminal, and sending a location-related information acquisition request to the wireless network control unit;
After receiving the location related information created by the network control unit, the reply means for returning the format information that differs depending on the format of the network control unit to the mobile communication terminal together with the location related information;
An exchange characterized by having. A mobile communication terminal capable of communication connection via a mobile communication network,
A transmission means for transmitting an acquisition request for position related information to an exchange on a mobile communication network;
Receiving means for receiving the location-related information and format information returned from the exchange;
A mobile communication terminal comprising: conversion means for converting the position related information based on the format information. The mobile communication terminal according to claim 4, wherein
The converting means includes
In the latitude information of the network control unit included in the position related information,
Add the angle formed by the true north of the network control unit and the antenna angle, and half of the antenna angle, and find the sine of the angle minus 90 degrees,
Multiply the distance between the network control unit and the mobile communication terminal by a distance obtained by adding half of the error component to this sine, and further calculate the latitude difference by multiplying the latitude per distance,
A mobile communication terminal characterized in that the latitude information of a mobile device is obtained by adding or subtracting the latitude difference to the latitude information of the network. The mobile communication terminal according to claim 4 and claim 5,
The converting means includes
In the longitude information of the network control unit included in the position related information,
The angle formed by the true north of the network control unit and the antenna angle, and half of the antenna angle are added, and the cosine of the angle obtained by subtracting 90 degrees is obtained.
Multiplying the distance between the network control unit and the mobile communication terminal by the distance obtained by adding half of the error component to the cosine, and further calculating the longitude difference by multiplying the longitude per distance,
A mobile communication terminal characterized in that longitude information of a mobile device is obtained by adding or subtracting the longitude difference to longitude information of the network.

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