KR100875829B1 - Method and system for measuring wireless quality of synchronous CDMA wireless network - Google Patents

Abstract

The present invention relates to a method and a system for measuring wireless quality of a synchronous CDMA network, and a method of measuring wireless quality of a wireless network using an idle subscriber station in an synchronous CDMA system according to the present invention, Transmitting a location registration command to the subscriber station; Receiving a location registration request from the subscriber station; Extracting data for radio quality measurement from the received location registration request; And analyzing the radio quality of the wireless network based on the extracted data. By measuring and analyzing the quality of the wireless network using the messages reported from the subscriber terminal to the system, it is possible to measure and analyze the wireless quality of the entire mobile communication network while greatly reducing the cost and manpower required for wireless network quality measurement. It works.

Description

METHOD AND SYSTEM FOR MEASURING QOS IN SYNCHRONOUS CDMA NETWORK}

1 is a diagram showing the network configuration of a synchronous CDMA wireless network quality measurement system according to an embodiment of the present invention.

2 is a flowchart illustrating a method for measuring synchronous CDMA wireless network quality according to an embodiment of the present invention.

3 is a flowchart illustrating a method for measuring synchronous CDMA radio network quality according to another embodiment of the present invention.

4 is a flowchart illustrating a method for measuring quality of a synchronous CDMA radio network according to another embodiment of the present invention.

5 is a flowchart illustrating a synchronous CDMA wireless network quality measuring method according to another embodiment of the present invention.

6A illustrates a handover state of a mobile communication terminal.

6B is a diagram illustrating a change in pilot signal strength of a mobile communication terminal in a handover state.

6C is a diagram illustrating a process of controlling handover using a pilot strength measurement message (PSMM) according to an embodiment of the present invention.

7 is a diagram illustrating an example of a periodic pilot measurement command (PPMRO) message.

8 is a diagram illustrating an example of a periodic pilot strength measurement message (PPSMM).

9 is a diagram illustrating an example of a pilot strength measurement message (PSMM).

10 is a diagram illustrating a radio quality measurement result message according to an embodiment of the present invention.

FIG. 11 is a diagram illustrating a result of analyzing a received field strength (RSSI) of a terminal by using a wireless quality measurement result message according to an embodiment of the present invention.

12 is a diagram illustrating a result of analyzing a pilot signal strength (Ec / Io) using a radio quality measurement result message according to an embodiment of the present invention.

FIG. 13 is a diagram illustrating a result of analyzing a received field strength (RSSI) of a terminal according to an RTD using a radio quality measurement result message according to an embodiment of the present invention.

14 is a diagram illustrating a result of analyzing a pilot signal strength (Ec / Io) according to a round trip delay (RTD) using a radio quality measurement result message according to an embodiment of the present invention.

FIG. 15 is a diagram illustrating a result of analyzing a radio quality of a handover overlap region by using a radio quality measurement result message according to an embodiment of the present invention.

16 is a functional block diagram of a wireless quality analysis apparatus according to an embodiment of the present invention.

<Explanation of symbols for main parts of the drawings>

10: base station 11: base station controller

12: exchange 13: operation server

200: wireless quality analysis device

The present invention relates to a synchronous CDMA (Code Division Multiple Access) system, and more particularly, to a method and system for measuring radio quality of a synchronous CDMA network.

A synchronous code division multiple access (CDMA) system is a system for providing a mobile communication service, and uses a GPS satellite to transmit data in time zones of a transmitter and a receiver. Generally, a synchronous code division multiple access system includes an exchange, a base station controller, and a base station.

In a synchronous CDMA system, an end system that performs a mobile communication service is a base station. The base station can maintain the call through the endless signaling with the terminal. For high quality of mobile communication service, many base stations should be designed organically and secure optimal wireless network quality. Each service operator has invested a lot to secure an optimal network, and it is necessary to continue to invest in the future.

In particular, in the early days of the communication service, a lot of investment was required to increase the capacity of the wireless network due to the continuous increase of subscribers, but as the subscriber growth is gradually saturated, the aspect of the quality of the mobile communication service is emphasized more. To this end, service operators are putting a lot of effort into collaborative optimization, such as relocating base stations and opening repeaters in shadowed areas.

Conventionally, in order to measure the quality of a wireless network, a vehicle routing measurement is performed mainly on a road, or an in-building meter has been developed to measure a building. However, these conventional wireless network quality measurement methods are required by the manpower because most of them are performed by manpower. In addition, since the conventional wireless network quality measurement methods are made through sampling, there is a limit that the measurement of the entire service area is impossible even if a lot of manpower and materials are mobilized.

Meanwhile, control signals are continuously transmitted and received between the terminal and the wireless network for continuity of the mobile service. In particular, the UE transmits its reception quality (RSSI, Ec / Io, etc.) to the wireless network for handover between base stations or sectors within the base station or to report its quality of service status. The wireless network performs handover or power control using the message received from the terminal.

Currently, these messages are used only as information for maintaining service continuity and quality of service between the wireless network and the subscriber station. If these messages are used to measure the overall radio quality of the wireless network, it will be possible to measure the quality of the entire service area while greatly reducing human and material resources.

The present invention has been proposed to solve the above problems, and in the synchronous code division multiple access system to measure and analyze the radio quality of the wireless network using messages transmitted and received for handover and service quality maintenance between the wireless network and the subscriber station An object of the present invention is to provide a method and system for measuring wireless quality of a synchronization code division multiple access network.

Other objects and advantages of the present invention can be understood by the following description, and will be more clearly understood by the embodiments of the present invention. Also, it will be readily appreciated that the objects and advantages of the present invention may be realized by the means and combinations thereof indicated in the claims.

According to a first aspect of the present invention, a method for measuring wireless quality of a wireless network using an idle subscriber station in a synchronous CDMA system includes: a location registration command to an idle subscriber station Transmitting; Receiving a location registration request from the subscriber station; Extracting data for radio quality measurement from the received location registration request; And analyzing the radio quality of the wireless network based on the extracted data.

In addition, the method for measuring the radio quality of the wireless network in a synchronous CDMA system according to a second aspect of the present invention for achieving the above object, (a) the base station controller, the signal strength measurement results from the call set-up subscriber station; Receiving; (b) generating, by the base station controller, a radio quality measurement result message by extracting data for radio quality measurement from the received signal strength measurement result; (c) a wireless quality analysis system, receiving and analyzing the wireless quality measurement result message from the base station controller.

Preferably, prior to the step (a), the wireless quality analysis system, setting the wireless quality analysis data collection range to transmit the relevant information to the base station controller; And requesting, by the base station controller, a signal strength measurement report to a subscriber station that has set up a call in the collection range.

Or, preferably, before the step (a), the wireless quality analysis system sending a radio quality measurement request command to the base station controller; And requesting, by the base station controller, a signal strength measurement report from a call setup subscriber station.

On the other hand, according to the third aspect of the present invention for achieving the above object, a method for measuring the radio quality of the wireless network using the subscriber station to handover in a synchronous CDMA system, the base station system enters the handover region subscribers Receiving a handover request message from a terminal; Transmitting, by the base station system, a handover indication message to the subscriber station; Generating, by the base station system, a radio quality measurement result message by extracting data for radio quality measurement from the handover request message; And receiving and analyzing, by the wireless quality analysis system, the wireless quality measurement result message.

In addition, a system for measuring radio quality of a wireless network in a synchronous CDMA system according to a fourth aspect of the present invention for achieving the above object, transmits a location registration command to the idle state subscriber station and A base station controller configured to receive a location registration request, extract data for radio quality measurement from the received location registration request, and generate a radio quality measurement result message; And a wireless quality analysis server controlling location registration of the idle subscriber station through an exchange and analyzing wireless quality of a wireless network based on the wireless quality measurement result received from the base station controller.

Preferably, the radio quality analysis server sets a radio quality analysis data collection range and transmits related information to the base station controller, and the base station controller collects signal strength measurement results from the subscriber station set up in the collection range. To generate a wireless quality measurement result message.

Preferably, the radio quality analysis server transmits a radio quality measurement request command to the base station controller, and the base station controller receives the signal strength measurement result from the subscriber station set up according to the command of the radio quality analysis server. Can be collected to generate a radio quality measurement result message.

The above objects, features and advantages will become more apparent from the following detailed description taken in conjunction with the accompanying drawings, whereby those skilled in the art may easily implement the technical idea of the present invention. There will be. In addition, in describing the present invention, when it is determined that the detailed description of the known technology related to the present invention may unnecessarily obscure the gist of the present invention, the detailed description thereof will be omitted. Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a diagram showing the network configuration of a synchronous CDMA wireless network quality measurement system according to an embodiment of the present invention.

As shown in FIG. 1, the synchronous CDMA wireless network quality measurement system includes a base station (BTS) 10, a base station controller (BSC) 11, an exchange (MSC) 12, an operation server (O & M server) Management) 13 and wireless quality analysis device 200.

The base station 10 performs radio signal transmission and reception, system synchronization (GPS), radio channel encoding and decoding, baseband signal processing, diversity (space), radio resource management, and self maintenance. The base station controller 11 performs functions such as matching with the base station 10, inter-cell handover processing, call control, and the like, and one base station controller 11 controls several base stations 10.

In particular, the base station controller 11 transmits a location registration command message to a mobile communication terminal in an idle state under the control of the radio quality analysis apparatus 200 and receives a response thereto. The base station controller 11 extracts data for radio quality measurement from the response received from the base station 10 and transmits the data to the operation server 13.

In addition, the base station controller 11 transmits a radio quality measurement request message to a mobile communication terminal in a traffic state (that is, a call setup state, for example, a voice call, an SMS, etc.) under the control of the operation server 13. The wireless quality measurement response message may be received once or periodically. The base station controller 11 extracts data for wireless quality measurement from the wireless quality measurement response message and transmits the data for the wireless quality measurement to the operation server 13 together with the RTD information transmitted from the base station 10.

Preferably, the base station controller 11 receives subcell information (MSC range, BTS range, FA range, etc.) from which the radio quality measurement is to be performed from the operation server 13, and the call is set up when the call is established in the corresponding subcell. The wireless quality measurement request message may be transmitted to the communication terminal and a response thereto may be received.

The exchange 12 provides an interface function with the base station controller 11, and provides an exchange function (interworking function) between mobile communication subscribers and a fixed network subscriber such as PSTN and ISDN. In particular, in the case of wireless quality measurement using an idle mobile communication terminal, the exchange 12 receives a location registration command for the idle mobile communication terminals from the wireless quality analysis apparatus 200, and accordingly The location registration command is transmitted to the base station controller 11 in which the corresponding mobile communication terminal is located. The exchange 12 receives the location registration request of the mobile communication terminal through the base station controller 11 and registers it with the home location register.

The operation server (O & M server) 13 manages the base station 10 and the base station controller 11 and collects wireless quality measurement data generated in the wireless network at the request of the wireless quality analysis apparatus 200. Preferably, the radio quality measurement data is collected from the base station controller 11. In addition, the operation server 13 receives information on the subcells (MSC, BSC, BTS, FA, etc.) to perform radio quality measurement from the radio quality analysis apparatus 200, and transmits the corresponding subcell information to the base station controller 11. send. Collecting all the measurement data generated in the wireless network in the operation server 13 may cause an overload of the wireless network and the operation server (13). Therefore, to solve this problem, it is necessary to select a range in which radio quality data can be collected. However, it should be clear that this is not necessarily the case.

The wireless quality analysis apparatus 200 requests collection of wireless quality measurement data from a plurality of operation servers (O & M servers) 13, and analyzes the quality of the entire wireless network using the collected data. And, the analysis result is output through the GUI (Graphic User Interface). The wireless quality analysis apparatus 200 activates the mobile communication terminal in the idle state through the switch 12 when analyzing the quality of the wireless network using the mobile communication terminal in the idle state, and received from the activated mobile communication terminal. Radio quality measurement data is collected from the operational server 13 and analyzed. On the other hand, when analyzing the quality of the wireless network using the mobile communication terminal in the traffic state, the wireless quality analysis device 200 collects and analyzes the wireless quality measurement data from the mobile communication terminal through the operation server (13).

The wireless quality analysis apparatus 200 may be implemented in a form included in the operation server (O & M server) 13 according to the embodiment, or may be implemented as an independent device as shown in the embodiment shown in FIG. In the following claims, the wireless quality analysis server should be understood to include the wireless quality analysis device 200 and operation server 13 of FIG. Preferably, the wireless quality analysis device 200 is implemented independently of the operation server 13, and the wireless quality analysis device 200 periodically requests and collects the wireless quality data stored in all the operation servers 13. Analyze and display with GUI.

Hereinafter, a method for analyzing wireless network quality in a synchronous CDMA wireless network quality measuring system according to the present invention will be described in detail with reference to the accompanying drawings.

2 is a flowchart illustrating a method for measuring synchronous CDMA wireless network quality according to an embodiment of the present invention, which is a method for measuring wireless network quality using a mobile communication terminal in an idle state. It is based on Location Service (LCS).

As shown in FIG. 2, first, the wireless quality analysis apparatus 200 registers a position registration command for the mobile communication terminal in the idle state with the switch 12 in order to activate the mobile communication terminal MS in the idle state. (Ordered Registration) is transmitted (S201).

The switch 12 that receives the location registration command from the radio quality analysis apparatus 200 transmits a registration request order message to the base station controller 11 (S203), and the base station controller 11 A position registration command (Ordered Registration) is transmitted to an idle mobile communication terminal (S205).

The mobile communication terminal receiving the location registration command transmits a registration message to the base station controller 11 (S207), and the base station controller 11 sends a location update request message to the switch 12. Message) (S209). The exchange 12 updates the location information of the mobile communication terminal with the home location register.

Meanwhile, the base station controller 11 receiving the location registration message from the mobile communication terminal extracts wireless quality measurement data (for example, Ec / Io, PN_Phase) from the location registration message received from the mobile communication terminal, and then the wireless quality measurement result message. Generate and transmit to the operation server 13 (S211).

The operation server 13 transmits the radio quality measurement result message received from the base station controller 11 to the radio quality analysis apparatus 200 in real time (S213). The wireless quality analysis apparatus 200 calculates and displays the wireless quality of the wireless network by analyzing the wireless quality measurement result message.

Alternatively, in step S211, the base station controller 11 transmits the location registration message received from the mobile communication terminal directly to the operation server 13 without generating a radio quality measurement result message, and the operation server 13 wirelessly. It is possible to generate a quality measurement result message.

According to the wireless quality measuring method of the present invention with reference to FIG. 2, when wireless quality measurement of the wireless network is required, the wireless quality of the wireless network can be measured once according to an administrator's command.

3 is a flowchart illustrating a synchronous CDMA wireless network quality measuring method according to another embodiment of the present invention, which is a method of measuring wireless network quality using a mobile communication terminal in a traffic state.

As shown in FIG. 3, first, the wireless quality analysis apparatus 200 transmits a wireless quality measurement request command to the operation server 13 to measure the quality of a wireless network using a mobile communication terminal in a traffic state. (S301). At this time, the radio number measurement request command is set to the segment number and the radio quality measurement period of the specific mobile communication terminal. The operation server 13 transmits a radio quality measurement request command to the base station controller 11 (S303).

The base station controller 11 receiving the radio quality measurement request command from the operation server 13 sends a periodic pilot measurement report (PPMRO) message to the base station 10 where the mobile communication terminal in the traffic state is located. It transmits (S305). Then, the base station 10 transmits a periodic pilot measurement command (PPMRO) message to the mobile communication terminal in the traffic state (S307). In this case, the periodic pilot measurement command message may be set to a radio quality measurement period (eg, ORDQ: 0xFA), or a code indicating that it is one-time (eg, ORDQ: 0xFF). An example of a periodic pilot measurement command (PPMRO) message is shown in FIG.

The mobile communication terminal receiving the periodic pilot measurement command message transmits a periodic pilot strength measurement message (PPSMM) to the base station controller 11 via the base station 10 (S309). Here, the periodic pilot strength measurement message (PPSMM) includes a pilot strength (PILOT_STREMGTH) field, a PN phase (PN_Phase) field, a PN strength (PN Strength, Ec / Io) field, and an SF_RX_PWR field indicating a received field strength (RSSI) value. do. An example of a periodic pilot strength measurement message (PPSMM) is shown in FIG. 8.

The base station controller 11 receiving the periodic pilot strength measurement message (PPSMM) extracts the radio quality measurement information in the periodic pilot strength measurement message (PPSMM) (for example, SF_RX_PWR, Ec / Io, PN_Phase, etc.), and extracts the radio quality. The quality measurement information and the latest RTD information among the RTDs (Round Trip Delay) periodically received from the base station 10 are synthesized to generate a wireless quality measurement result message and transmitted to the operation server 13 (S311).

The operation server 13 transmits the radio quality measurement result message received from the base station controller 11 to the radio quality analysis apparatus 200 in real time (S313). The wireless quality analysis apparatus 200 calculates and displays the wireless quality of the wireless network by analyzing the wireless quality measurement result message.

Alternatively, in step S311, the base station controller 11 directly transmits the periodic pilot strength measurement message (PPSMM) and the RTD information received from the mobile communication terminal to the operation server 13 without generating a radio quality measurement result message. In addition, the operation server 13 may cause the radio quality measurement result message to be generated.

Meanwhile, when the radio quality measurement period is set in the periodic pilot measurement report (PPMRO) message received from the base station 10 in step S307, the mobile communication terminal in the traffic state performs a periodic pilot according to the set period. The strength measurement message PPSMM is transmitted to the base station controller 11. The base station controller 11 extracts radio quality measurement information in a periodic pilot strength measurement message (PPSMM) that is periodically received, and extracts the latest RTD information among the extracted quality measurement information and the RTD periodically received from the base station 10. In total, the wireless quality measurement result message is generated and transmitted to the operation server 13. The operation server 13 transmits a wireless quality measurement result message to the wireless quality analysis apparatus 200 in real time or at a predetermined cycle.

In addition, in the radio quality measurement method of the present invention with reference to FIG. 3, the base station controller 11 which has received the radio quality measurement request command from the operation server 13, is the base station 10 in which the mobile communication terminal in the traffic state is located. The pilot measurement command (PMRO: Pilot Measurement Report Order) message can be transmitted, in this case, the mobile communication terminal transmits a pilot strength measurement message (PSMM: Pilot Strength Measurement Msg) to the base station controller 11. An example of a pilot strength measurement message (PSMM) is shown in FIG. 9. However, since the periodic pilot strength measurement message (PPSMM) further includes the SF_RX_PWR field indicating the received field strength (RSSI) value, unlike the pilot strength measurement message (PSMM), the base station controller 11 measures the periodic pilot by the mobile communication terminal. It is desirable to send a PPMRO message.

According to the wireless quality measuring method of the present invention with reference to FIG. 3, when wireless quality measurement of the wireless network is required, the wireless quality of the wireless network may be measured once or periodically according to an administrator's command.

4 is a flowchart illustrating a synchronous CDMA wireless network quality measuring method according to another embodiment of the present invention, in which a mobile communication is performed by a wireless quality analyzing apparatus 200 in a state in which a subcell to measure wireless quality is set. A method of measuring radio quality when a terminal enters a traffic state.

As shown in FIG. 4, first, the wireless quality analysis apparatus 200 sets a subcell (MSC, BSC, BTS, FA, etc.) to measure wireless quality in order to automatically measure wireless quality of a specific area. In operation S401, the corresponding subcell information is transmitted to the operation server 13. That is, to set the range to collect data for measuring radio quality.

The operation server 13 receiving the subcell information transmits the subcell information to the base station controller 11 belonging to the corresponding subcell (S403). The base station controller 11 activates or deactivates a subcell designated by the radio quality analysis apparatus 200 and performs radio quality measurement when the mobile communication terminal enters a traffic state in the activated subcell.

That is, when any mobile communication terminal is in a traffic state in the activated subcell, the base station controller 11 transmits a periodic pilot measurement command (PPMRO) message to the mobile communication terminal via the base station 10 (S405). . Here, the radio quality measurement period is set in the periodic pilot measurement command message (eg, ORDQ: 0xFA, that is, 20 sec). An example of a periodic pilot measurement command (PPMRO) message is shown in FIG.

The mobile communication terminal receiving the periodic pilot measurement command message PPMRO transmits the periodic pilot strength measurement message PPSMM to the base station controller 11 via the base station 10 according to the period set in the periodic pilot measurement command message. (S407). Here, the periodic pilot strength measurement message (PPSMM) includes a pilot strength (PILOT_STREMGTH) field, a PN phase (PN_Phase) field, a PN strength (PN Strength, Ec / Io) field, and an SF_RX_PWR field indicating a received field strength (RSSI) value. do. An example of a periodic pilot strength measurement message (PPSMM) is shown in FIG. 8.

The base station controller 11 receiving the periodic pilot strength measurement message (PPSMM) extracts the quality measurement information in the periodic pilot strength measurement message (PPSMM) (for example, SF_RX_PWR, Ec / Io, PN_Phase, etc.), and extracts the quality measurement. Information and the latest RTD information among the RTDs periodically received from the base station 10 are synthesized to generate a radio quality measurement result message and transmitted to the operation server 13 (S409).

In addition, the mobile communication terminal in a traffic state transmits a periodic pilot strength measurement message (PPSMM) according to a radio quality measurement cycle in a periodic pilot measurement command (PPMRO) message received from the base station controller 11 in step S405. Transfer to (S411). The base station controller 11 extracts radio quality measurement information in the periodic pilot strength measurement message (PPSMM), and extracts the latest RTD information among the extracted radio quality measurement information and the RTD periodically received from the base station 10. In operation, the wireless quality measurement result message is generated and transmitted to the operation server 13 (S413).

As described above, the operation server 13 stores the wireless quality measurement result message periodically received from the base station controller 11 and aggregates the result of the wireless quality measurement result message to the wireless quality analysis apparatus 200 (S415). That is, the operation server 130 periodically transmits a radio quality measurement result message to the radio quality analysis apparatus 200. Preferably, FTP can be used. The wireless quality analysis apparatus 200 calculates and displays the wireless quality of the wireless network by analyzing the wireless quality measurement result message.

Alternatively, in step S409 and step S413, the base station controller 11 does not generate a radio quality measurement result message, but directly outputs the periodic pilot strength measurement message (PPSMM) and RTD information received from the mobile communication terminal. ), And cause the primary server 13 to generate a radio quality measurement result message.

In operation S415, the operation server 13 stores the wireless quality measurement result message periodically received from the base station controller 11 and transmits the result to the wireless quality analysis apparatus 200. The server 13 may transmit the radio quality measurement result message from the base station controller 11 to the radio quality analysis apparatus 200 in real time. However, when the wireless quality measurement result message is transmitted to the wireless quality analysis apparatus 200 in real time, the load is added to the operation server 13, and thus, the wireless quality measurement result message is preferably transmitted in a predetermined cycle.

According to the wireless quality measuring method of the present invention with reference to FIG. The operational efficiency of the measurement can be improved.

Meanwhile, in the radio quality measurement method of FIG. 4, radio quality measurement from the radio quality measurement apparatus 200 to the base station controller 11 while the radio quality measurement is automatically performed using the mobile communication terminal belonging to the activated subcell. A request command can be sent. In this case, regardless of the automatic radio quality measurement, the base station controller 11 transmits a periodic pilot measurement command (PPMRO) message without setting a period to the mobile communication terminal to measure periodic pilot strength, as described with reference to FIG. 3. Receive a message (PPSMM). The wireless quality measurement result message is generated and transmitted to the operation server 13. That is, one-time wireless quality measurement may be performed while automatic wireless quality measurement is being performed.

5 is a flowchart illustrating a method for measuring synchronous CDMA wireless network quality according to another embodiment of the present invention, in which a mobile communication is performed by a wireless quality analysis apparatus 200 in a state in which a subcell to measure wireless quality is set. Another method of measuring radio quality when the terminal is in a traffic state. Here, the steps having the same reference numerals as those of FIG. 4 are the same operations, and detailed description thereof will be omitted and only differences will be described.

In FIG. 4, the base station controller 11 transmits a periodic pilot measurement command (PPMRO) message having a predetermined period to the mobile communication terminal, and the mobile communication terminal measures the periodic pilot strength according to the period set in the periodic pilot measurement command message. The message PPSMM is transmitted to the base station controller 11. In this case, although a mobile communication service is provided to a mobile communication terminal through a traffic channel, when all traffic services are completed within the reference period, wireless network quality measurement data may not be collected. Therefore, call processing may be required to receive a wireless network quality measurement message immediately after call setup.

As shown in FIG. 5, when any mobile communication terminal is in a traffic state in an activated subcell, the base station controller 11 sends a periodic pilot measurement command (PPMRO) message to the mobile communication terminal via the base station 10. Transmit (S501). Here, the radio quality measurement cycle is not set in the periodic pilot measurement command message (eg, ORDQ: 0xFF).

The mobile communication terminal receiving the periodic pilot measurement command message PPMRO transmits the periodic pilot strength measurement message PPSMM to the base station controller 11 via the base station 10 (S503). Here, the periodic pilot strength measurement message (PPSMM) includes a pilot strength (PILOT_STREMGTH) field, a PN phase (PN_Phase) field, a PN strength (PN Strength, Ec / Io) field, and an SF_RX_PWR field indicating a received field strength (RSSI) value. do.

The base station controller 11 receiving the periodic pilot strength measurement message (PPSMM) extracts the radio quality measurement information in the periodic pilot strength measurement message (PPSMM) (for example, SF_RX_PWR, Ec / Io, PN_Phase, etc.), and extracts the radio quality. The quality measurement information and the latest RTD information among the RTDs periodically received from the base station 10 are synthesized to generate a wireless quality measurement result message and transmitted to the operation server 13 (S505).

Thereafter, the base station controller 11 transmits a periodic pilot measurement command (PPMRO) message to the mobile communication terminal via the base station 10 (S405). Then, the following procedure shown in FIG. 4 is performed to collect radio quality measurement data.

According to the wireless network quality measurement method, even if the call ends in a short period such as SMS or data, the wireless network quality measurement message can be received.

Meanwhile, a handover between a sector and a sector or a base station and a base station is performed for continuity of mobile service in a synchronous CDMA wireless network. Handover allows a mobile station to automatically tune to a new call channel of a neighboring base station and maintain a call when the busy mobile station moves out of its cell boundary to the neighboring base station service area. Means that.

For this handover, the subscriber station generally transmits the wireless network quality information measured by the subscriber station to the base station. Wireless network quality measurement is performed periodically or at a specific time. Then, the base station 10 receiving the wireless network quality information from the terminal transmits this signal to the base station controller 11, the base station controller 11 analyzes the signal transmitted through the base station 10 whether to perform a handover Determine. Then, the determined message is transmitted to the mobile terminal to perform a handover procedure.

 In addition, in a synchronous CDMA wireless network, power control is performed to ensure quality of service. That is, the CDMA scheme in which multiple subscriber stations and base stations simultaneously use the same frequency band causes interference between simultaneous callers or between base stations. Accordingly, power control is performed for maximizing the call capacity of the source base station and the adjacent base station, for extending the battery life of the mobile terminal and for uniform call quality. For this power control, the mobile terminal may transmit a radio quality measurement message (pilot strength measurement message) to the wireless network at a specific time point, and the wireless network side that receives the power control performs power control using this signal.

As such, the mobile station transmits a message related to radio quality to the radio network during the handover process. Therefore, the quality of the wireless network can be measured by using the message transmitted from the mobile terminal to the wireless network in this handover process. It will be described below in more detail with reference to the drawings.

FIG. 6A shows a state in which the mobile terminal 60 in a call moves from the A base station 61 service area to the B base station 62 service area, which is an adjacent base station, and FIG. 6B shows a pilot of the mobile terminal 60 in this state. A graph showing a change in signal strength (Ec / Io).

In the graph of FIG. 6B, when the mobile terminal 60 moves from the A base station 61 to the B base station 62, a pilot strength measurement message (PSMM: Pilot Strength) is transmitted to the wireless network when Ec / Io is above a certain level or below a certain level. Measurement Message). Here, the pilot strength measurement message (PSMM) includes a pilot strength (PILOT_STREMGTH) field, a PN phase field, and a PN strength (Ec / Io) field indicating radio quality.

FIG. 6C shows that when the Ec / Io of the B base station 62 is above the preset level, the mobile terminal 60 sends a pilot strength measurement message (PSMM) to the radio network side to add the B base station 62 (ADD). The wireless network side shows a series of processing procedures for receiving a pilot strength measurement message (PSMM) from the mobile terminal 60 to control handover.

First, as the handover condition (T_Add) is satisfied while the mobile terminal 60 is busy, a pilot strength measurement message (PSMM) is transmitted to the wireless network to include the B base station 62. That is, the base station system (BSS) including the base station controller (BSC) is transmitted (S601).

Then, the base station system (BSS) checks whether the B base station 62, which has been requested to add (ADD) from the mobile terminal 60 is in the neighbor list. If the B base station 62 is included in the neighbor list, after allocating the resources of the B base station 62, a handover direction message (HDM: Handover Direction Msg) is transmitted to the mobile terminal 60 (S603). In addition, the base station system extracts data for wireless quality measurement from the pilot strength measurement message (PSMM) received from the mobile terminal 60, generates a wireless quality measurement result message, and transmits the result to the operation server (O & M server) 13. (S605). The operation server 13 transmits the received wireless quality measurement result message to the wireless quality analysis apparatus 200, and the wireless quality analysis apparatus 200 analyzes the wireless quality measurement result message to locate the corresponding mobile terminal 60. Measure your local wireless quality.

After receiving the handover indication message (HDM) from the base station system, the mobile terminal 60 acquires the channel of the base station B 62 and transmits a handover completion message (HCM: Handover Completion Msg) to the base station system (S607). .

10 is a diagram illustrating an example of a wireless quality measurement result message generated by the operation server 13.

As shown in FIG. 10, the wireless quality measurement result message generated by the operation server 13 is a message identifier (Msg ID) field indicating the type of message, and a series indicating a serial number of messages generated in each job. Number ID (Seq ID) field, Time field indicating when the message occurred, Mobile ID uniquely identifying the terminal, SF_RX_PWR field indicating the received field strength (RSSI) extracted from the PPSMM message of the terminal, Terminal FA field indicating service frequency, REF_PN field indicating reference PN, Number of Pn field indicating number of measured PNs, NID field indicating NID number of system, BSC field indicating base station controller number of system, base station which system has A BTS field indicating a number, a SEC field indicating a sector number of the system, a PN field indicating a PN of the system, PN_PHASE field indicating the PN phase information obtained from the terminal, PN_STR field, RTD field indicating the Round Trip Delay (RTD) value extracted as internal information of the system (base station and base station controller) when the PSMM message or PPSMM message of the terminal occurs do.

FIG. 11 is a diagram illustrating a result of analyzing a received electric field strength (RSSI) of a terminal by using a wireless quality measurement result message, according to an embodiment of the present invention.

As shown in FIG. 11, generation of a received electric field strength (RSSI) of a terminal for each switch 12, base station controller 11, base station 10, sector (SEC), and frequency allocation (FA) every 5 minutes. The results of analyzing the frequency and percentage are shown.

12 is a diagram illustrating a result of analyzing a pilot signal strength (Ec / Io) by a wireless quality measuring apparatus according to an embodiment of the present invention using a wireless quality measurement result message.

As shown in FIG. 12, generation of pilot signal strength (Ec / Io) for each switch 12, base station controller 11, base station 10, sector SEC, and frequency allocation FA in units of 5 minutes. The results of analyzing the frequency and percentage are shown.

FIG. 13 is a diagram illustrating a result of analyzing a received field strength (RSSI) of a terminal according to a round trip delay (RTD) using a wireless quality measurement result message, according to an embodiment of the present invention.

As shown in FIG. 13, when MSC = 1, BSC = 1, BTS = 2, SEC = 0 (alpha), and FA = 0, the received field strength (RSSI) according to the Round Trip Delay (RTD) was analyzed. The results are shown.

FIG. 14 is a diagram illustrating a result of analyzing a pilot signal strength (Ec / Io) according to a round trip delay (RTD) by using a wireless quality measurement result message according to an embodiment of the present invention.

As shown in FIG. 14, when MSC = 1, BSC = 1, BTS = 2, SEC = 0 (alpha), and FA = 0, the pilot signal strength (Ec / Io) according to the round trip delay (RTD) is determined. The analysis results are shown.

FIG. 15 is a diagram illustrating a result of analyzing a radio quality of a handover overlap region by a radio quality measurement apparatus according to an embodiment of the present invention using a radio quality measurement result message.

As shown in FIG. 15, it shows a result of analyzing the radio quality for the handover overlap region based on MSC ID = 12, BSC = 1, BTS = 5, and SEC = 0 (Alpha). Here, the active set is a table of " Active Set " information included in each radio quality measurement result message, and is shown by counting each message. In this case, through the number of active sets, the corresponding sector is a single area (1 Way) = 34.8%, a dual area (2 Way) = 42%, a triple area (3 Way) = 14.5%, a quadruple area ( 4 Way) = 7.2%, 5 Way = 1.4%.

16 is a functional block diagram of a wireless quality analysis apparatus according to an embodiment of the present invention.

As illustrated in FIG. 16, the apparatus 200 for analyzing a wireless quality of a synchronous code division multiple access network according to an embodiment of the present invention includes a data collection setting unit 21, a data collection unit 22, and a wireless quality analysis. A unit 23 and an analysis result output unit 24 are included.

The data collection setting unit 21 controls the operation server (O & M server) 13 to collect the radio quality measurement data, the switch 12, the base station controller 11, the base station 10, the sector, and frequency allocation (FA) : Frequency Assignment) is activated.

Collecting all wireless quality measurement data generated by the wireless quality analysis apparatus 200 in the wireless network may cause an overload. In order to prevent such a problem, the data collection setting unit 21 may select a range for collecting the radio quality measurement message.

That is, the data collection setting unit 21 sets a switch 12, a base station controller 11, a base station 10, a sector, and a frequency assignment (FA) to collect radio quality measurement data, and sets the When the call is established in the subcell, the base station controller 11 requests the transmission of the pilot strength measurement message (PSMM, PPSMM) to the terminal, and causes the operation server 13 to collect the radio quality measurement message for the corresponding subcell. Do it.

In addition, the data collection setting unit 21 sets the type of radio quality measurement message to be transmitted from the terminal. For example, since the PSMM message is a signaling generated under a condition for performing a handover, the PSMM message is generated at an intercell boundary area, and the PPSMM message is a signaling reported periodically. Therefore, both PSMM messages and PPSMM messages can be collected or selectively collected in consideration of the system load.

The measurement data collection unit 22 receives, in real time, the radio quality measurement result message generated by the base station controller 11 or the operation server 13 based on the radio quality measurement messages PSMM and PPSMM from the operation server 13. Or it receives according to a predetermined period. As shown in FIG. 10, the wireless quality measurement result message includes a message identifier (Msg ID) field indicating the type of message, and a serial number identifier (Seq ID) field indicating a serial number of a message generated in each job. A time field indicating when a message is generated, a terminal identifier (Mobile ID) uniquely identifying a terminal, a SF_RX_PWR field indicating a received field strength (RSSI) extracted from a PPSMM message of a terminal, an FA field indicating a terminal service frequency, REF_PN field indicating the reference PN, Number of Pn field indicating the number of measured PNs, NID field indicating the NID number the system has, BSC field indicating the base station controller number the system has, BTS field indicating the base station number the system has, SEC field indicating the sector number, PN field indicating the PN the system has, and PN obtained from the terminal. When the PN_PHASE field, PN_STR field, or PSMM messages PPSMM message of the terminal information indicating the result includes a field indicating the RTD RTD (Round Trip Delay) values extracted in the system (base station and base station controller) information internally. The radio quality measurement result message is generated by combining a message (PSMM or PPSMM) received from the terminal and data managed internally by the system, and may be changed according to the system manufacturer.

The wireless quality analyzer 23 extracts various data for measuring wireless quality from the wireless quality measurement result message collected by the measurement data collector 22, and analyzes the wireless quality of the entire service area by using the same. The wireless quality analysis unit 23 uses the wireless quality for each exchange (MSC), base station controller (BSC) unit, base station (BTS) unit, sector unit, FA unit, FA and sector unit, and region unit using RTD. In addition, it can be analyzed by time zone.

The analysis result output unit 24 outputs the result analyzed by the wireless quality analyzer 23 through a Graphic User Interface (GUI).

As described above, the method of the present invention may be implemented as a program and stored in a recording medium (CD-ROM, RAM, ROM, floppy disk, hard disk, magneto-optical disk, etc.) in a computer-readable form. Since this process can be easily implemented by those skilled in the art will not be described in more detail.

The present invention described above is capable of various substitutions, modifications, and changes without departing from the technical spirit of the present invention for those skilled in the art to which the present invention pertains. It is not limited by the drawings.

The present invention as described above, by measuring and analyzing the quality of the wireless network using the message reported from the subscriber station to the system for handover and service quality maintenance, while significantly reducing the cost and manpower required for wireless network quality measurement It is effective to measure and analyze the radio quality of the entire mobile communication network.

Claims (15)

delete delete delete A method for measuring the radio quality of a wireless network in a synchronous CDMA system, (a) the wireless quality analysis system setting a wireless quality analysis data collection range and transmitting related information to a base station controller; And (b) requesting, by the base station controller, a signal strength measurement report to a subscriber station that has set up a call in the collection range; (c) receiving, by the base station controller, a signal strength measurement result from a call setup subscriber station; (d) generating, by the base station controller, a radio quality measurement result message by extracting data for radio quality measurement from the received signal strength measurement result; And and (e) receiving and analyzing the radio quality measurement result message from the base station controller, by the radio quality analysis system. delete delete The method of claim 4, wherein In the step (c), the base station controller, A method for measuring radio quality of a synchronous CDMA wireless network, characterized in that receiving either a periodic pilot strength measurement message (PPSMM) or a pilot strength measurement message (PSMM) from the subscriber station . The method of claim 4, wherein Step (d) is, Extracting, by the base station controller, data for radio quality measurement from the received signal strength measurement result; And Generating, by the base station controller, a radio quality measurement result message by synthesizing the most recent RTD and the extracted data among the round trip delays (RTDs) periodically received from the base station; and synchronous CDMA radios. How to measure wireless quality of network. A method for measuring radio quality of a wireless network using a subscriber station performing handover in a synchronous CDMA system, (a) the base station system receiving a handover request message from a subscriber station entering the handover area; (b) the base station system transmitting a handover indication message to the subscriber station; (c) the base station system extracting data for wireless quality measurement from the handover request message and generating a wireless quality measurement result message; And and (d) receiving and analyzing the wireless quality measurement result message by a wireless quality analysis system. The method of claim 9, In step (a), And the base station system receives a pilot strength measurement message (PSMM) from a subscriber station entering the handover area. delete A system for measuring the radio quality of a wireless network in a synchronous CDMA system, A base station controller which transmits a location registration command to an idle subscriber station and receives a location registration request, extracts data for wireless quality measurement from the received location registration request, and generates a wireless quality measurement result message. ; And And a wireless quality analysis server controlling location registration of the idle subscriber station through an exchange and analyzing wireless quality of a wireless network based on the wireless quality measurement result received from the base station controller. The wireless quality analysis server, Set the wireless quality analysis data collection range to transmit the relevant information to the base station controller, The base station controller, And generating a radio quality measurement result message by collecting signal strength measurement results from a subscriber station set up in the collection range. delete The method of claim 12, The signal strength measurement result, A wireless quality measurement system for a synchronous CDMA radio network, characterized in that either a periodic pilot strength measurement message (PPSMM) or a pilot strength measurement message (PSMM). The method of claim 12, The base station controller, A wireless quality measurement system of a synchronous CDMA wireless network, comprising: generating a wireless quality measurement result message by synthesizing the most recent RTD and data for wireless quality measurement among round trip delays (RTDs) periodically received from a base station;

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