KR100695102B1 - System and method for controlling quality of electric wave - Google Patents

Abstract

A propagation quality management system and a method thereof are provided to perceive propagation quality information of a mobile communication network on the basis of a propagation quality-related message generated when location detection of a particular mobile communication terminal is requested, thereby saving time and manpower consumed for measuring propagation quality. When location detection of a particular mobile communication terminal(10) is requested, a position determination entity(210) transmits a location response message and a pilot phase measurement message matched by ID information generated during position determination of the terminal through communication with the terminal, to a preset server. When the pilot phase measurement message and the location response message are received, a propagation quality management server(300) matches location information included in the location response message with propagation quality information included in the pilot phase measurement message to store the matched information, based on the pre-stored ID information. A location detector server(230) transmits the pilot phase measurement message and the location response message to the management server(300).

Description

System and Method for Controlling Quality of electric wave}

1 is a diagram showing a connection relationship between a radio wave quality management system and a communication network according to the present invention;

2 is a diagram showing in detail the configuration of a radio wave quality management server according to the present invention;

3 is a flowchart illustrating a radio wave quality management method according to the present invention.

<Description of the symbols for the main parts of the drawings>

10: mobile communication terminal 100: mobile communication network

210: location positioning server 230: location navigation server

300: radio wave quality management server 310: control unit

330: information collecting unit 350: radio wave quality grasping unit

370: map display unit 390: database

The present invention relates to a radio wave quality management system, and more particularly, to a radio wave quality control system and method for managing radio wave quality of a mobile communication network by location based on a message generated when a location search of a specific mobile communication terminal is requested. will be.

The friend finder service is a technology for searching for and finding a position of a mobile communication terminal requested by a friend when a friend finder service is requested from a counterpart who has previously set the user's location.

Meanwhile, in order to measure the radio wave quality of a mobile communication network, a radio wave quality measurer connects a device (DM) capable of measuring radio wave quality to a mobile communication terminal of his or her own and moves it up and down to measure radio wave quality through a test call. Doing.

However, the above-mentioned radio wave quality measuring method takes a lot of time to measure radio wave quality and has a problem of being limited to quality measurement in some areas around major roads.

The present invention has been made to solve the above-described problem, and provides a radio wave quality management system and method for grasping the message generated when a location search of a specific mobile communication terminal is requested, to determine the radio wave quality for each location. There is a technical problem.

The present invention for achieving the above object is a radio wave quality management system that is connected to a mobile communication network, and manages the radio wave quality of the mobile communication network based on information generated when a location search of a specific mobile communication terminal is requested,

When a location search of a specific mobile communication terminal is requested, a pilot phase measurement message and a location response matched with identification information generated when the location of the specific mobile communication terminal is located through communication with the mobile communication network. Location location server for transmitting a message to a preset server; When receiving a pilot phase measurement message and a location response message of a specific mobile communication terminal transmitted from the positioning server, the radio wave quality information included in the pilot phase measurement message and the position response message are included on the basis of preset identification information. A radio wave quality management server for matching and storing location information; And a location search server for transmitting a pilot phase measurement message and a location response message transmitted from the location server to the radio wave quality management server.

Another embodiment of the present invention is a radio wave quality management method using a radio wave quality management system that is connected to a mobile communication network and manages radio wave quality of a mobile communication network based on information generated when a location search of a specific mobile communication terminal is requested.

a) receiving a pilot phase measurement message and a location response message matched with identification information generated when positioning the mobile communication terminal when a location search of the specific mobile communication terminal is requested; And b) extracting propagation quality information from the pilot phase measurement message and extracting location information from the location response message, and then matching based on identification information assigned to each to identify propagation quality information generated at a specific location. It includes;

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a diagram showing a connection relationship between a radio wave quality management system and a communication network according to the present invention.

When the radio wave quality management system requests a location search of a specific mobile communication terminal, the pilot phase measurement matched with identification information generated when positioning the specific mobile communication terminal 10 through communication with the mobile communication network 100 (Pilot Phase) A Position Determination Entity (PDE) 210 that transmits a Measurement: PPM) message and a Location Response (LR) message to a predetermined server (210), and a specific mobile communication terminal transmitted from the Location Server (210). When receiving the pilot phase measurement message and the position response message of 10), on the basis of the predetermined identification information, the radio wave to match and store the radio wave quality information included in the pilot phase measurement message and the position information included in the position response message Propagates pilot phase measurement messages and location response messages sent from the quality control server (RANO Server) 300 and the location server 210 And a location search server (230) (Detector Location Server) sending a quality management server 300.

Here, the location server 210 automatically transmits a message (including a pilot phase measurement message and a location response message) generated during the location search to the location search server 230 and transmits the message to the radio wave quality management server 300. .

2 is a diagram showing in detail the configuration of a radio wave quality management server according to the present invention.

As shown, the radio wave quality management server 300 includes a control unit 310, a database 390, an information collecting unit 330, a radio wave quality grasping unit 350, and a map display unit 370.

The database 390 includes a collection information DB 391 storing a pilot phase measurement message and a location response message collected under the control of the controller 310, and a map information DB storing map information. 393 and radio wave quality information DB 395 for storing radio wave quality information for each position.

When the information collecting unit 330 receives the pilot phase measurement message and the position response message matched with the identification information transmitted from the positioning server 210, the information collecting unit 330 stores the information in the collection information DB 391 under the control of the controller 310. do.

Here, the pilot phase measurement message includes any one of exchange ID, base station ID, PN information, pilot signal strength, received power, or a combination thereof, and the location response message includes latitude and longitude information.

The radio wave quality determining unit 350 extracts the radio wave quality information from the pilot phase measurement message under the control of the control unit 310 and extracts the positional information from the position response message, and then matches and specifies based on the identification information assigned to each. Identify the radio wave quality information occurring at the location.

The map display unit 370 displays the radio wave quality information for each location identified by the radio wave quality determining unit 350 on a map previously stored in the map information DB 393 under the control of the controller 310.

3 is a flowchart illustrating a radio wave quality management method according to the present invention.

First, the information collection unit 330 of the radio wave quality management server 300 is matched with the identification information generated when positioning the location of the mobile communication terminal 10 as the location search of the specific mobile communication terminal 10 is requested. A Phase Phase Measurement message and a Location Response message are received (S101).

Here, the pilot phase measurement message includes any one of exchange ID, base station ID, PN information, pilot signal strength, received power, or a combination thereof, and the location response message includes latitude and longitude information.

Subsequently, the radio wave quality determining unit 350 extracts radio wave quality information from the pilot phase measurement message received in step S101, extracts the positional information from the position response message, and matches and specifies based on the identification information assigned to each. The radio wave quality information occurring at the position is grasped (S103).

Thereafter, the map display unit 370 displays the radio wave quality information for each location identified in step S103 on a map previously stored in the map information DB 393 (S105).

As such, those skilled in the art will appreciate that the present invention can be implemented in other specific forms without changing the technical spirit or essential features thereof. Therefore, the above-described embodiments are to be understood as illustrative in all respects and not as restrictive. The scope of the present invention is shown by the following claims rather than the detailed description, and all changes or modifications derived from the meaning and scope of the claims and their equivalents should be construed as being included in the scope of the present invention. do.

As described above, the radio wave quality management system and method of the present invention grasp radio wave quality information of the mobile communication network based on the radio wave quality related message generated when a location search request of a specific mobile communication terminal is performed. It has the advantage of saving manpower and time.

In addition, the present invention has the advantage that it is possible to secure the radio wave quality data of a wider area, such as back roads, hiking trails, away from the existing radio wave quality measurement of the main road center of a specific region.

Claims (9)

A radio wave quality management system connected to a mobile communication network and managing radio wave quality of a mobile communication network based on information generated when a location search of a specific mobile communication terminal is requested, When a location search of a specific mobile communication terminal is requested, a pilot phase measurement message and a location response matched with identification information generated when the location of the specific mobile communication terminal is located through communication with the mobile communication network. Location location server for transmitting a message to a preset server; When receiving a pilot phase measurement message and a location response message of a specific mobile communication terminal transmitted from the positioning server, the radio wave quality information included in the pilot phase measurement message and the position response message are included on the basis of preset identification information. A radio wave quality management server for matching and storing location information; And A location search server for transmitting a pilot phase measurement message and a location response message transmitted from the location server to the radio wave quality management server; Radio wave quality management system comprising a. The method of claim 1, The radio wave quality management server, A control unit controlling an overall operation of the radio wave quality management server; A database storing information related to a radio wave quality management server under control of the controller; An information collector configured to receive a pilot phase measurement message and a location response message matched with identification information transmitted from the location server, and store them in the database under control of the controller; And Under the control of the controller, the radio wave quality information is extracted from the pilot phase measurement message and the location information is extracted from the location response message, and then the radio wave quality information generated at a specific location is matched based on the identification information assigned to each. A radio wave quality grasping unit to grasp; Radio wave quality management system comprising a. The method of claim 2, The radio wave quality management server, A map display unit displaying, on a map previously stored in the database, radio wave quality information for each location identified by the radio wave quality determining unit under control of the controller; Radio wave quality management system further comprising. The method according to any one of claims 1 to 3, And wherein the pilot phase measurement message includes any one of an exchange ID, a base station ID, PN information, pilot signal strength, received power, or a combination thereof. The method according to any one of claims 1 to 3, The location response message includes latitude and longitude information. A radio wave quality management method using a radio wave quality management system connected to a mobile communication network and managing radio wave quality of a mobile communication network based on information generated when a location search of a specific mobile communication terminal is requested, a) receiving a pilot phase measurement message and a location response message matched with identification information generated when positioning the mobile communication terminal when a location search of the specific mobile communication terminal is requested; And b) extracting propagation quality information from the pilot phase measurement message and extracting location information from the location response message, and then matching based on identification information assigned to each to identify propagation quality information generated at a specific location; Radio wave quality control method comprising a. The method of claim 6, After step b) above, c) displaying the radio wave quality information for each location determined in the step b) on a pre-stored map; Radio wave quality control method further comprising. The method according to claim 6 or 7, And the pilot phase measurement message includes any one of an exchanger ID, a base station ID, PN information, pilot signal strength, received power, or a combination thereof. The method according to claim 6 or 7, The location response message includes latitude and longitude information.

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