KR100560989B1 - Wireless environment analysis system and method in WCDMA network - Google Patents

Abstract

The present invention relates to a radio environment analysis system and method in a WCDMA network that can be used to manage the radio environment conditions by periodically measuring the parameters of the mobile communication terminal and the base station in the WCDMA network.

The configuration of the present invention transmits a parameter measurement request message for measuring parameters of the base station and the mobile communication terminal to the base station controller, and then receives and stores the parameter values measured by the base station and the mobile communication terminal from the base station controller, and stores the stored parameters. The parameter value analyzed in the wireless environment analysis system, including a wireless channel analysis server that analyzes the value and calculates the statistics based on a preset item, and transmits the statistics to the operator server, is determined from the operator side based on the collected wireless parameter. In addition, the wireless environment of the mobile communication terminal in every cell and the wireless environment for the forward and reverse directions can be identified and used in various ways in terms of wireless network optimization or cell planning.

Parameters, wireless, environment

Description

System and Method for Analyzing Radio Environment in Wideband Code Division Multiple Access Network in WCDMA Networks

1 is a diagram illustrating a procedure for performing resource management in a conventional WCDMA network;

2 is a diagram illustrating a connection relationship between a wireless environment analysis system and a communication network according to the present invention;

3 is a view showing in detail the configuration of a wireless channel analysis server according to the present invention;

4 is a flowchart for explaining an embodiment of a wireless environment analysis method according to the present invention;

5 is a flowchart illustrating another embodiment of a wireless environment analysis method according to the present invention;

6 is a flowchart for explaining another embodiment of a wireless environment analysis method according to the present invention.

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

100: mobile communication terminal 200: base station (Node B)

300: base station controller (RNC) 400: core network (Core Network)

500: home location register (HLR) 600: wireless channel analysis server

610: network connection unit 630: base station parameter management unit

650: terminal parameter management unit 670: parameter statistics calculation unit

690: wireless channel information transmission unit 710: control unit

730: database 731: base station parameter DB

733: terminal parameter DB 735: parameter statistics information DB

The present invention relates to a wireless environment analysis system and method, and to a wireless environment analysis system and method in a WCDMA network which can be used to manage the wireless environment state by periodically measuring parameters of a mobile communication terminal and a base station in a WCDMA network. It is about.

The call quality between mobile communication networks is mainly affected by the movement of the mobile communication terminal and the load of the base station. That is, when a mobile communication terminal subscriber is attracted to a specific base station, call quality is degraded due to channel interference, and a service radius of the base station is reduced. As a result, a call failure / call disconnection phenomenon occurs in a mobile communication terminal that has been making a call at a base station boundary point or performs a handoff to a neighbor base station. Here, a call drop phenomenon refers to a case in which a call is disconnected due to a bad wireless section before the mobile telephone subscriber completes a call during a call, and a call failure phenomenon is a call when a call is requested to a mobile communication network. It means that there is no connection.

1 is a diagram illustrating a procedure for performing resource management in a conventional WCDMA network.

The base station controller (RNC, 300) is a mobile communication network (base stations (Node B, 200) and the core network (Core Network, 400, etc.) handover, power control, resource allocation, call admission control, radio bearer setup It manages the system in the mobile communication network by performing various algorithms such as channel management and channel management.

For example, the base station controller 300 accepts all outgoing calls and provides the desired service when there is enough power, allocates all necessary resources, and limits outgoing calls in case of insufficient power. It also allocates limited radio resources. Since the base station controller 300 performs the wireless environment based on the wireless environment, the wireless environment measurement is an essential process.

Conventionally, in order to measure a wireless environment, a wireless environment measurement terminal DM (Diagnostic Monitor) is directly taken to a site where a wireless environment is to be measured, and the mobile communication terminal 100 measures a power level received from the base station 200 or wireless environment. The test call was generated from the measurement terminal DM, and the cause of the problem was analyzed and the problem was compensated for. However, the above method is inconvenient for the network operator to move directly with the network measurement equipment.

The present invention has been made to solve the above-described problem, and performs communication with the mobile communication terminal, the base station and the base station controller, and receives and analyzes the measured parameter values from the base station and the mobile communication terminal, for radio channel management There is a technical problem in providing a wireless environment analysis system and method in a WCDMA network that can be used as data.

The present invention for achieving the above object is an operator connected to a mobile communication network including a base station, a base station controller and a home location register to manage the radio quality by analyzing the radio quality based on the parameter values measured from the mobile communication terminal and the base station As a wireless environment analysis system to send to the server,

Transmits a parameter measurement request message for measuring parameters of the base station and the mobile communication terminal to the base station controller, and then receives and stores parameter values measured by the base station and the mobile communication terminal from the base station controller, Including a wireless channel analysis server for analyzing a parameter value and calculating statistics based on a preset item, and transmitting the statistics to the operator server, based on the parameter analysis information transmitted from the wireless channel analysis server by the operator server. Quality control.

Another embodiment of the present invention is a wireless environment analysis method connected to a mobile communication network including a base station, a base station controller and a home location register, and analyzing the radio quality based on parameter values measured from the base station and transmitting the radio quality to an operator server that manages the radio quality.

Transmitting a message requesting the base station controller to measure a parameter of the base station; A second step of the base station controller transmitting the base station parameter measurement request message sent in the first step to the base station; A third step of transmitting, by the base station, a signal for measuring a parameter to at least one mobile communication terminal in the base station, and then determining a parameter value based on a response transmitted from the mobile communication terminal and transmitting the signal to the base station controller; ; A fourth step of receiving and storing the parameter value transmitted from the base station from the base station controller; And analyzing the parameter values stored in the fourth step, calculating statistics according to a preset item, and transmitting the calculated parameter statistics information to the operator server, wherein the operator server receives the parameter statistics information. Based on this, the quality of the wireless network is managed.

In another aspect, the present invention is connected to a mobile communication network including a base station, a base station controller and a home location register to analyze the radio quality based on the parameter values measured from the mobile terminal to analyze the radio environment to transmit to the operator server for managing the radio quality As a method,

A first step of transmitting a message requesting the base station controller to measure a parameter of the mobile communication terminal; A second step of the base station transmitting the mobile communication terminal parameter measurement request message transmitted from a base station controller to the mobile communication terminal; When the mobile communication terminal receives the parameter measurement request message received from the base station, it checks the parameter item to be measured based on the received parameter measurement request, automatically measures the identified parameter item, and measures the measured parameter value. Transmitting to the base station; A fourth step of transmitting, by the base station, the parameter value transmitted from the mobile communication terminal to the base station controller; A fifth step of receiving and storing parameter values of the mobile communication terminal transmitted from the base station controller; And analyzing the parameter values stored in the fifth step, calculating statistics according to a preset item, and transmitting the calculated parameter statistical information to the operator server, wherein the operator server receives the parameter statistical information. Then, the quality of the wireless network is managed based on this.

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

2 is a diagram illustrating a connection relationship between a wireless environment analysis system and a communication network according to the present invention.

The wireless environment analysis system includes a base station (Node B, 200), a base station controller (Radio Network Controller; RNC, 300) and a home location register (HLR, 300), a core network (Core Network, 400) Receives the parameter values measured from the mobile communication terminal 100 and the base station 200 in connection with the communication network, analyzes the radio quality based on this, and the base station 200 and the mobile communication terminal 100 to the base station controller 300 The wireless channel analysis server 600 for requesting to measure the parameters of the, and then receives the parameter values transmitted from the base station controller 300, stores them in the database, analyzes the stored parameter values and calculates statistics based on the preset items. Include.

3 is a diagram showing in detail the configuration of a wireless channel analysis server 600 according to the present invention.

The wireless channel analysis server 600 includes a mobile communication network (Node B, 200), a base station controller (RNC, 300), a home location register (HLR, 300), and a core network (Core Network). 400)), the network connection unit 610 for transmitting and receiving information, the control unit 710 for controlling the overall operation of the wireless channel analysis server 600, the database 730 for storing the information, and requests the parameter measurement of the base station 200 The base station parameter management unit 630, the terminal parameter management unit 650 for requesting parameter measurement of the mobile communication terminal 100, the parameter statistics calculating unit 670 for analyzing and calculating parameter values, and the calculated wireless channel information. And a wireless channel information transmitter 690 for transmitting to the server 800.

In more detail, the database 730 includes a base station parameter database 731 for storing base station parameter values transmitted from the base station controller 300, a terminal parameter database 733 for storing parameter values of a mobile communication terminal, and a base station parameter value. And a parameter statistical information database 735 for storing information on which the terminal parameter values are statistically calculated.

The base station parameter management unit 630 transmits a base station parameter measurement request message for measuring a parameter of the base station 200 to the base station controller 300, and then the parameter measured by the base station 200 transmitted from the base station controller 300. The value is received and stored in the base station parameter database 731.

Here, the base station parameter measurement request message includes a common parameter request message requesting to measure a parameter applied to all mobile communication terminals 100 located in the base station 200 and a mobile communication terminal 100 located in the base station 200. It is divided into a dedicated parameter measurement request message requesting to measure a parameter applied only to a specific mobile communication terminal 100 preset.

In this case, the common parameter item is randomly accessed for a transmitted value of the carrier transmitted by the base station 200, a received total wide band power received by the base station 200, and a random access channel (RACH). The number of preambles received by the base station 200 (Acknowledged PRACH Preamble), the number of preambles received by the base station 200 by random access for the Common Packet Channel (CPCH) (Acknowledged Physical Common Packet Channel (PCPCH) Access Preambles), the base station ( Detected PCPCH Access Preambles of CPCH detected in 200, values measured by the base station 200 for GPS reception function (TUTRAN-GPS Measurement Value Information), system frame number related measurement information (SFN-SFN Measurement Value) Information) and combinations thereof.

In addition, the dedicated parameter item may include a signal and noise ratio (SIR), a signal-to-interference ratio (SIR) error, and a specific CDMA code that are changed while performing power control with the specific mobile communication terminal 100. Transmitted Code Power, Received Signal Code Power (RSCP) for a specific CDMA code, Rx Timing Deviation, Rx Timing Deviation, Mobile Communication Terminal 100 and Base Station Any one of a round trip time and a combination thereof is transmitted and received between the frames 200.

The terminal parameter management unit 630 transmits a terminal parameter measurement request message for measuring a parameter of the mobile communication terminal 100 to the base station controller 300, and then of the mobile communication terminal 100 transmitted from the base station controller 300. The parameter value is received and stored in the terminal parameter database 733.

In this case, the terminal parameter items include an ID (Cell ID) for identifying a cell, a timing offset differently set for each cell, a unique CDMA code for each cell for identifying a cell, and a mobile communication terminal ( Pilot channel strength (receive energy and interference ratio; CPICH (Common Pilot Channel) Ec / Io) of the cell received by 100), power strength transmitted by the mobile communication terminal 100 (Tx Power), mobile communication terminal 100 CPDMA RSCP, Path Loss of Received Signal, Frequency Info Transmitted / Received by Mobile Communication Terminal 100, and Difference of System Frame Number between Cells (SFN (System Frame) Number) -SFN observed time difference) and a combination thereof.

The parameter statistic calculator 670 sets a parameter value measured by the base station 200 stored in the database 730 and a parameter value measured by the mobile communication terminal 100 in advance (eg, for each parameter, Location, area, priority, etc.), and then calculate the statistics and store them in the parameter statistical information database 735.

The radio channel information transmitter 690 extracts the parameter statistics information calculated by the parameter statistics calculator 670 from the parameter statistics information database 735 at predetermined intervals and transmits them to the operator server 800.

4 is a flowchart illustrating an embodiment of a radio channel analysis method according to the present invention.

The base station parameter manager 630 of the wireless channel analysis server 600 measures a parameter applied only to a specific mobile communication terminal 100 preset among mobile communication terminals 100 located in the base station 200. ) And transmits a dedicated parameter request message including the information to the base station controller 300 (S101).

Herein, the dedicated parameter item is a signal and noise ratio (SIR) changed while performing power control with a specific mobile communication terminal 100, an SIR error, and a power value transmitted using a specific CDMA code. Code Power), Received Power Value (RSCP) for a Specific CDMA Code, Rx Timing Deviation Received by the Base Station, Round Trip Time between Frames between the Mobile Terminal 100 and the Base Station 200 (Round Trip) Time) and a combination thereof.

The base station controller 300 receives a base station parameter measurement request message from the wireless channel analysis server 600 and transmits it to the base station 200 (S103).

The base station 200 extracts / detects a specific mobile communication terminal 100 to be a parameter measurement target (S105), and transmits a signal for measuring a parameter to the specific mobile communication terminal 100 (S107). In this case, in order to receive information related to the radio wave environment of the specific mobile communication terminal 100, the corresponding mobile communication terminal 100 must be in a connected mode.

Thereafter, the base station 200 grasps the parameter value based on the response transmitted from the specific mobile communication terminal 100 and transmits the parameter value to the base station controller 300 (S109 ˜ S111).

When the base station controller 300 receives the base station parameter value transmitted from the base station 200, the base station controller 300 transmits the base station parameter value to the wireless channel analysis server 600 (S113).

The base station parameter management unit 630 of the wireless channel analysis server 600 receives the base station parameter value transmitted from the base station controller 300 and transmits the mobile communication terminal 100 included in the base station parameter value to the home location register 500. Request / receive subscriber information (for example, the number of the mobile communication terminal) of (S115 to S117). In this case, the wireless channel analysis server 600 may omit steps S115 to S117 of requesting subscriber information of the mobile communication terminal 100 to the home location register 500 according to a parameter to be analyzed.

The base station parameter manager 630 receives the base station 200 parameter values transmitted from the base station controller 300 and the subscriber information of the mobile communication terminal 100 transmitted from the home location register 500 and transmits them to the base station parameter database 731. The data is analyzed and calculated based on a preset item (for example, for each parameter, location, region, priority, etc.) and then stored in the parameter statistical information database 735 (S119).

The wireless channel information transmitting unit 690 extracts the parameter statistical information calculated and calculated in step S119 from the parameter statistical information database 735 on the basis of a preset period and transmits the extracted parameter statistical information to the operator server 800 for the operator to check ( S121).

5 is a flowchart illustrating another embodiment of a wireless environment analysis method according to the present invention.

The base station parameter management unit 630 of the wireless channel analysis server 600 transmits a common parameter measurement request message for measuring parameters applied to all mobile communication terminals 100 in the base station 200 to the base station controller 300 ( S201).

In this case, the common parameter item is randomly accessed for a power value transmitted from the base station 200, a received total wide band power received from the base station 200, and a RACH, so that the base station 200 Number of Preambles Received by the Acknowledgmented PRACH Preamble, Number of Preambles Randomly Accessed for the CPCH and Received by the Base Station 200 Received PCPCH Access Preambles Detected PCPCH Access Preambles , TUTRAN-GPS Measurement Value Information, a system frame number related measurement information (SFN-SFN Measurement Value Information), and a combination thereof.

The base station controller 300 receives the base station parameter measurement request message from the wireless channel analysis server 600 and transmits it to the base station 200 (S203).

The base station 200 transmits a signal for measuring a parameter to all mobile communication terminals 100 in the cell of the base station 200 (S205). In this case, the base station 200 requests / receives information of all the mobile communication terminals 100 located in the cell of the base station 200 to the home location register 500, and then transmits the mobile communication terminal transmitted from the home location register 500. 100) It is also possible to designate all mobile communication terminals 100 and transmit a signal for measuring a parameter based on the information.

Thereafter, the base station 200 grasps the parameter value based on the response transmitted from all mobile communication terminals 100 in the cell of the base station 200 and transmits the parameter value to the base station controller 300 (S207 to S209).

The base station controller 300 receives the base station parameter value transmitted from the base station 200 and transmits it to the wireless channel analysis server 600 (S211).

The base station parameter management unit 630 of the wireless channel analysis server 600 receives the base station parameter value transmitted from the base station controller 300 and transmits the mobile communication terminal 100 included in the base station parameter value to the home location register 500. Request / receive subscriber information (for example, the number of the mobile communication terminal) of (S213 to S215). In this case, the wireless channel analysis server 600 may omit the information request process (S213 ˜ S215) for the subscriber of the mobile communication terminal 100 to the home location register 500 according to a parameter to be analyzed.

The base station parameter manager 630 receives the base station 200 parameter values transmitted from the base station controller 300 and the subscriber information of the mobile communication terminal 100 transmitted from the home location register 500 and transmits them to the base station parameter database 731. The data is analyzed and calculated based on a preset item (for example, for each parameter, location, region, priority, etc.), and then stored in the parameter statistical information database 735 (S217).

The wireless channel information transmitter 690 extracts the parameter information calculated in step S217 from the parameter statistical information database 735 based on a preset period and transmits the stored parameter information to the operator server 800 for the operator to check (S219). ).

6 is a flowchart illustrating another embodiment of a method for analyzing a wireless environment according to the present invention. A process of performing the wireless channel analysis server 600 to analyze parameters of the mobile communication terminal 100 will be described. do.

The terminal parameter management unit 650 of the wireless channel analysis server 600 transmits a terminal parameter measurement request message for measuring a parameter of the mobile communication terminal 100 to the base station controller 300 (S301).

In this case, the terminal parameter items include an ID for identifying a cell, a cell offset for setting a different cell, a unique primary Cram code for each cell for identifying a cell, and a mobile communication terminal. Pilot channel strength (receive energy and interference ratio; CPICH Ec / Io) of the cell received by 100, power strength transmitted by the mobile communication terminal 100 (Tx Power), all received by the mobile communication terminal 100 CPDMA RSCP, Path Loss of Received Signal, Frequency Info Transmitted / Received by Mobile Communication Terminal 100, System Frame Number (SFN-SFN Observed Time Difference) Between Cells, and Any combination of these.

The base station controller 300 receives the terminal parameter measurement request message from the wireless channel analysis server 600 and transmits it to the base station 200 (S303).

The base station 200 receives the mobile station terminal 100 parameter measurement request message transmitted from the base station controller 300 and transmits it to the mobile communication terminal 100 (S305).

When the mobile communication terminal 100 receives the terminal parameter measurement request message transmitted from the base station 200, the mobile communication terminal 100 checks the parameter item to be measured based on the received parameter measurement request, and automatically measures and measures the identified parameter item. The transmitted parameter value is transmitted to the base station 200 (S307 to S309).

The base station 200 transmits the parameter value transmitted from the mobile communication terminal 100 to the base station controller 300 (S311).

The base station controller 300 receives the terminal parameter value transmitted from the base station 200 and transmits it to the radio channel analysis server 600 (S313).

The terminal parameter management unit 650 of the wireless channel analysis server 600 receives the terminal parameter value transmitted from the base station controller 300 and the mobile communication terminal 100 included in the terminal parameter value to the home location register 500. Request / receive subscriber information (for example, the number of the mobile communication terminal) of (S315 to S317). In this case, the wireless channel analysis server 600 may omit the information request process (S315 to S317) for the subscriber of the mobile communication terminal 100 to the home location register 500 according to the parameter to be analyzed.

The terminal parameter manager 650 receives the mobile communication 100 parameter value transmitted from the base station controller 300 and the subscriber information of the mobile communication terminal 100 transmitted from the home location register 500, thereby receiving a terminal parameter database 733. The data is stored in the controller, and the statistics are calculated based on a preset item (for example, for each parameter, for each location, for each region, and for each priority), and then stored in the parameter statistical information database 735 (S319).

The wireless channel information transmitter 690 extracts the parameter information, which is calculated in step S319 from the parameter statistical information database 735 based on a preset period, and transmits the stored parameter information to the operator server 800 so that the operator can check it (S321). ).

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 parameter value analyzed in the radio environment analysis system of the present invention is based on the operator's point of view, and the radio environment of the mobile communication terminal in a specific cell and all cells based on the collected radio parameters and the radio environment for forward and reverse directions. It can be used for various purposes in terms of wireless network optimization or cell planning.

Claims (20)

delete A wireless environment analysis system connected to a mobile communication network including a base station, a base station controller, and a home location register, which analyzes the radio quality based on parameter values measured from the mobile communication terminal and the base station and transmits the radio quality to an operator server that manages the radio quality. A database for storing a base station parameter value transmitted from the base station controller and a parameter value of a mobile communication terminal; A base station parameter management unit which transmits a base station parameter measurement request message for measuring a parameter of the base station to the base station controller, and then receives and stores a parameter value of the base station transmitted from the base station controller in the database; A terminal parameter management unit configured to transmit a terminal parameter measurement request message for measuring a parameter of the mobile communication terminal to the base station controller, and then receive and store parameter values of the mobile communication terminal transmitted from the base station controller in the database; And A parameter statistic calculator configured to analyze the parameter values stored in the database and calculate statistics based on a preset item; Wireless environment analysis system comprising a. The method of claim 2, The database further stores parameter statistical information calculated by the parameter statistics calculating unit statistically, The wireless environment analysis system, A wireless channel information transmitter for extracting the parameter statistics information calculated by the parameter statistics calculator from the database at predetermined intervals and transmitting them to the operator server; Wireless environment analysis system further comprising. The method of claim 2, The base station parameter management unit, And transmitting a common parameter measurement request message to the base station controller for requesting the base station to measure a parameter applied to all mobile communication terminals located in the base station. The method of claim 4, wherein The common parameter item measured by the base station includes a power value transmitted by the base station, a total power value received by the base station, a number of preambles randomly accessed for the RACH and received by the base station, randomly accessed for the CPCH, and received by the base station. And a number of one preamble, an access preamble of the CPCH detected by the base station, a value measured by the base station for a GPS reception function, system frame number related measurement information, and a combination thereof. The method of claim 2, The base station parameter management unit, A wireless environment analysis comprising transmitting a dedicated parameter measurement request message including the specific mobile communication terminal information to measure a parameter applied only to a specific mobile communication terminal set in advance among the mobile communication terminals located in the base station. system. The method of claim 6, Dedicated parameter items measured by the base station include a signal and noise ratio changed while performing power control with the specific mobile communication terminal, an SIR error, a power value transmitted using a specific CDMA code, and a received power value for a specific CDMA code. And a variation in timing received from the base station, a time at which a frame is round-trip transmitted between the mobile communication terminal and the base station, and a combination thereof. The method of claim 2, The base station parameter management unit and the terminal parameter management unit, And receiving / receiving the parameter value transmitted from the base station controller, requesting / receiving the information of the mobile communication terminal subscriber included in the parameter value to the home location register and storing it in the database. The method of claim 2, The terminal parameter item transmitted by the terminal parameter manager to the base station controller includes an identifier for identifying a cell, a timing offset for setting a different cell for each cell, a unique CDMA code for each cell for identifying a cell, and received at the mobile communication terminal. Pilot channel strength of a cell, power strength transmitted by the mobile communication terminal, power of all CDMA codes received by the mobile communication terminal, path loss of a received signal, frequency information transmitted and received by the mobile communication terminal, system frame number between cells Wireless environment analysis system, characterized in that any one of the difference and combinations thereof. A wireless environment analysis method which is connected to a mobile communication network including a base station, a base station controller, and a home location register, analyzes the radio quality based on parameter values measured from the base station, and transmits the radio quality to an operator server that manages the radio quality. Transmitting a message requesting the base station controller to measure a parameter of the base station; A second step of the base station controller transmitting the base station parameter measurement request message sent in the first step to the base station; A third step of transmitting, by the base station, a signal for measuring a parameter to at least one mobile communication terminal in the base station, and then determining a parameter value based on a response transmitted from the mobile communication terminal and transmitting the signal to the base station controller; ; A fourth step of receiving and storing the parameter value transmitted from the base station from the base station controller; And A fifth step of analyzing the parameter values stored in the fourth step, calculating statistics according to a preset item, and transmitting the calculated parameter statistics information to the operator server; And the operator server receives the parameter statistical information, and manages the quality of a wireless network based on the parameter statistics information. The method of claim 10, The fifth step, Transmitting the statistically calculated parameter statistics information to the operator server based on a preset period for the operator to check; Wireless environment analysis method characterized in that. The method of claim 10, After the fourth step and before the fifth step, Requesting / receiving and storing subscriber information of the mobile communication terminal included in the parameter value to the home location register; Wireless environment analysis method comprising a. The method of claim 10, The parameter measurement request message in the second step is a common parameter measurement request message for measuring a parameter applied to all mobile communication terminals located in the base station. The third step, Transmitting, by the base station, a signal for measuring a parameter to all mobile communication terminals in the base station, and then determining a parameter value based on a response transmitted from the mobile communication terminal and transmitting the signal to the base station controller; Wireless environment analysis method comprising a. The method of claim 13, The common parameter measurement item includes a power value transmitted by the base station, a total power value received by the base station, a number of preambles randomly accessed for the RACH and received by the base station, and a number of preambles randomly accessed for the CPCH and received by the base station. And an access preamble of the CPCH detected by the base station, a value measured by the base station for a GPS reception function, system frame number related measurement information, and a combination thereof. The method of claim 10, The parameter measurement request message in the second step is a dedicated parameter measurement request message for requesting to measure a parameter applied to a specific mobile communication terminal preset in a mobile communication terminal located in the base station. The third step, The base station extracts a specific mobile communication terminal for parameter measurement, transmits a signal for measuring a parameter to the specific mobile communication terminal, and then sets a parameter value based on a response transmitted from the specific mobile communication terminal. Identifying and transmitting to the base station controller; Wireless environment analysis method comprising a. The method of claim 15, The dedicated parameter measurement item includes a signal and noise ratio changed while performing power control with the specific mobile communication terminal, an error of the SIR, a power value transmitted using a specific CDMA code, a received power value for a specific CDMA code, and the base station. The timing variation received from the wireless environment analysis method, characterized in that any one of the time and the combination of the time frame is round-trip transmission between the mobile communication terminal and the base station. A wireless environment analysis method which is connected to a mobile communication network including a base station, a base station controller and a home location register, analyzes the radio quality based on parameter values measured from the mobile communication terminal, and transmits the radio quality to an operator server that manages the radio quality. A first step of transmitting a message requesting the base station controller to measure a parameter of the mobile communication terminal; A second step of the base station transmitting the mobile communication terminal parameter measurement request message transmitted from a base station controller to the mobile communication terminal; When the mobile communication terminal receives the parameter measurement request message received from the base station, it checks the parameter item to be measured based on the received parameter measurement request, automatically measures the identified parameter item, and measures the measured parameter value. Transmitting to the base station; A fourth step of transmitting, by the base station, the parameter value transmitted from the mobile communication terminal to the base station controller; A fifth step of receiving and storing parameter values of the mobile communication terminal transmitted from the base station controller; And A sixth step of analyzing the parameter values stored in the fifth step, calculating statistics according to a preset item, and transmitting the calculated parameter statistical information to the operator server; And the operator server receives the parameter statistical information, and manages the quality of a wireless network based on the parameter statistics information. The method of claim 17, The sixth step, Transmitting the statistically calculated parameter statistics information to the operator server based on a preset period for the operator to check; Wireless environment analysis method characterized in that. The method of claim 17, The terminal parameter measurement item includes an identifier for identifying a cell, a timing offset that is set differently for each cell, a unique CDMA code for each cell for identifying a cell, a pilot channel strength of a cell received by the mobile communication terminal, and the mobile communication terminal. Is one of the power strength transmitted, the power of all CDMA codes received by the mobile communication terminal, the path loss of the received signal, the frequency information transmitted and received by the mobile communication terminal, the difference in system frame numbers between cells, and a combination thereof. Wireless environment analysis method, characterized in that. The method of claim 17, After the fifth step and before the sixth step, Requesting / receiving and storing subscriber information of the mobile communication terminal included in the parameter value of the mobile communication terminal stored in the fifth step to the home location register; Wireless environment analysis method comprising a.

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