KR100880253B1 - Method and System for Automatically Adjusting Voice Quality of Wireless Communication Network - Google Patents

Abstract

The present invention relates to a method and system for automatically adjusting the call quality of a wireless communication network.

The present invention provides a parameter control server (PCS) for providing optimal reception propagation quality, which is a measure of optimal parameters for each wireless environment and corresponding reception radio waves, transmission power, antenna adjustment, neighbor list, and handoff for each base station. A base station that outputs a radio wave by setting a base station system environment including parameters as the optimum parameter, and when receiving the radio wave from the base station, the radio environment changes in the proper reception radio wave quality corresponding to the optimum parameter Claims [1] A method for automatically adjusting the call quality of a wireless communication network in a system including a test terminal for measuring haptic quality of which radio wave quality is changed and an OPC (Optimum Parameter Controller) for adjusting the environment of the base station system. Quality of experience message, which is a message containing the quality of experience in the terminal Receiving the haptic quality message at the OPC when generating and transmitting a message; (b) comparing the haptic quality with the proper reception propagation quality; (c) adjusting a specific parameter of the base station system environment so that the haptic quality is the proper received radio wave quality if the haptic quality is not equal to the proper received radio wave quality; And (d) stopping the adjustment of the specific parameter when the haptic quality is equal to or equal to the appropriate received radio wave quality. To provide.

According to the present invention, the OPC receives the haptic quality measured by the test terminal, and automatically compares the neighbor list, antenna adjustment, and handoff in real time so that the haptic quality is the appropriate received radio wave quality compared to the optimum received radio wave quality, which is the optimum radio wave quality. By adjusting the base station system environment including the parameters, manpower and time for on-site inspection of the base station can be saved, and the customer has an effect of preventing customer complaints in advance by ensuring optimal call quality.

Base station, call quality, wireless network, parameters

Description

Method and System for Automatically Adjusting Voice Quality of Wireless Communication Network

1 is a block diagram schematically illustrating a system for automatically adjusting a call quality of a wireless communication network according to a preferred embodiment of the present invention;

2 is a flowchart illustrating a process of automatically adjusting a call quality of a wireless communication network according to a preferred embodiment of the present invention.

<Description of Symbols for Main Parts of Drawings>

110: test terminal 120: base station

130: base station manager 140: parameter control server

150: titration parameter regulator

The present invention relates to a method and system for automatically adjusting the call quality of a wireless communication network. More specifically, transmit power, antenna adjustment, neighbor list, and handoff parameters are stored as parameters stored in a Parameter Control Server (PCS) to provide system quality for optimal call quality. When the radio wave is transmitted from the set base station to the test terminal, an SMS (Short Message) including the quality of the radio wave received from the test terminal, that is, the haptic quality, is received by an optimum parameter controller (OPC). Receives the service at the test terminal and compares the received radio wave quality and the sense of quality that is stored in the PCS, and provides the optimum call quality by adjusting the deviation between the system quality and the experienced quality so that the proper received radio wave quality and the sense quality are the same level. To a method and system.

As computer, electronic, and communication technologies have made rapid progress, various wireless communication services using a wireless network have been provided. Accordingly, a service provided by a mobile communication system using a wireless communication network is developing into a multimedia communication service that transmits data such as circuit data, packet data, and the like, as well as a voice service.

Recently, due to the development of information and communication, IMT-2000 (International Mobile Telecommunication 2000), which is a third generation mobile communication system established as a standard in ITU-R, has been commercialized. IMT-2000 is a Code Division Multiple Access (CDMA) 2000 1X, 3X, Evolution Data Only (EV-DO), Wideband CDMA (WCDMA), etc., which is an IS-95C network that has evolved from existing IS-95A and IS-95B networks. It is a service that can provide wireless communication by using.

In the mobile communication system, the wireless environment is changing in real time due to increase of users, parameter change of neighboring base stations, system expansion and relocation, etc. However, various parameters to operate the system are fixed so that the system quality and system quality, which are the quality of radio waves transmitted from the base station In the system, the quality of the radio wave is changed due to the increase of users, the parameter change of the neighboring base station, and the expansion / relocation of the base station system. Conventionally, in order to adjust this, the operating personnel always had to adjust the transmit power of each base station, antenna adjustment, neighbor list change and handoff parameter through field inspection. Here, the radio wave includes a pilot channel, a synchronization channel, a call channel, and a call channel.

In the conventional wireless network management method, it is difficult to maintain optimal call quality suitable for a wireless environment that changes in real time because the operating personnel must visit the site in person and check, and it is optimal for a wireless environment that changes in real time. Frequent site checks to maintain call quality can lead to excessive spending on site checks. In order to overcome this problem, there is a demand for a method for securing optimal call quality by automatically adjusting a parameter suitable for a wireless environment that changes in real time using an optimal parameter database accumulated through various tests.

In order to solve the above-mentioned problems, the present invention provides a radio wave from the base station to which the transmission power, antenna adjustment, neighbor list and handoff parameters are set as parameters stored in the PCS to provide system quality for optimal call quality. When transmitting, the OPC receives SMS at the test terminal, that is, the quality of the radio wave received at the test terminal, that is, the quality of the received radio wave, and compares the quality of the received radio wave with the received quality stored in the PCS. It is an object of the present invention to provide a method and system for adjusting the deviation between system quality and haptic quality so as to be at the same level to provide an optimal call quality.

Therefore, according to the first object of the present invention, each base station provides a PCS (Parameter Control Server), a transmission output, an antenna that provides an optimal reception radio wave quality, which is a measure of an optimal parameter for a wireless environment and a corresponding reception radio wave. A base station that outputs a radio wave by setting a base station system environment including adjustment, neighbor list, and handoff parameters as the optimum parameter, and when receiving the radio wave from the base station, the appropriate reception radio wave quality corresponding to the optimum parameter. A method for automatically adjusting the call quality of a wireless communication network in a system including a test terminal for measuring the haptic quality of which the quality of the radio wave is changed due to a change in the wireless environment and an OPC (Optimum Parameter Controller) for adjusting the environment of the base station system. (A) including the haptic quality at the test terminal; Receiving the haptic quality message at the OPC when the haptic quality message is generated and transmitted; (b) comparing the haptic quality with the proper reception propagation quality; (c) adjusting a specific parameter of the base station system environment so that the haptic quality is the proper received radio wave quality if the haptic quality is not equal to the proper received radio wave quality; And (d) stopping the adjustment of the specific parameter when the haptic quality is equal to or equal to the appropriate received radio wave quality. to provide.

Further, according to a second object of the present invention, in a system for automatically adjusting the call quality of a wireless communication network, appropriate reception, which is a measurement value of a base station system configuration parameter accumulated through various tests and a corresponding optimal reception radio wave, is received. A Parameter Control Server (PCS) for databaseing radio wave quality and providing an optimum parameter for each base station among the base station system configuration parameters; A base station for outputting radio waves by setting a base station system environment as the optimum parameter; A base station manager (BSM) responsible for operating and maintaining the base station and the base station controller and storing system management information and performing various processing operations; When receiving the radio wave from the base station, the haptic quality of which the quality of the radio wave is changed due to the radio environment change in the appropriate reception radio wave quality corresponding to the optimum parameter is measured, and a haptic quality message including the haptic quality is generated. A test terminal; And receiving the haptic quality message from the test terminal and comparing the haptic reception propagation quality with the haptic quality so that the haptic quality is not equal to the proper reception propagation quality. It provides a system for automatically adjusting the call quality of a wireless communication network comprising an OPC (Optimum Parameter Controller) for adjusting to be equal to the level.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. First of all, in adding reference numerals to the components of each drawing, it should be noted that the same reference numerals are designated as much as possible even if displayed on different drawings. In addition, in describing the present invention, when it is determined that the detailed description of the related well-known configuration or function may obscure the gist of the present invention, the detailed description thereof will be omitted.

1 is a block diagram schematically illustrating a system for automatically adjusting a call quality of a wireless communication network according to a preferred embodiment of the present invention.

A system for automatically adjusting the call quality of a wireless communication network according to a preferred embodiment of the present invention includes a test terminal 110, a base station 120, and a base station manager (BSM: 130). , Parameter Control Server (PCS) 140, Optimal Parameter Controller (OPC) 150, and the like.

The test terminal 110 connects a CDMA 2000 network, a Wibro network, a wideband code division multiple access (W-CDMA) network, an IS-95 network, and a global system for mobile communication (GSM) network through the base station 120. A mobile communication terminal connected to a mobile communication network including a mobile communication terminal for performing a normal voice call through a wireless communication with different mobile communication terminals, including a PDA (Personal Digital Assistant), a cellular phone, a PCS (Personal Communication Service) phone, and a GSM (Global System). for Mobile (W-CDMA) phone, Wideband CDMA (W-CDMA) phone, CDMA-2000 phone, Mobile Broadband System (MBS) phone, Digital Multimedia Broadcasting (DMB) phone and the like.

In the present invention, the quality of the radio wave received from the base station 120, that is, the quality of the radio wave is changed due to the change in the wireless environment including the increase of users in the appropriate reception radio wave quality, the change of parameters of the neighboring base station and the expansion / relocation of the base station system. It measures and generates a haptic quality message, which is a message including haptic quality, and transmits the haptic quality message to the OPC 150. Here, the haptic quality message includes a haptic quality SMS which is a short message service (SMS) including haptic quality. In addition, the quality of the radio wave includes a reception level which is the strength at which the test terminal 110 receives the radio wave, a base station identifier (PN: Pseudo Noise), a load and a signal-to-noise ratio (Ec / Io) between the neighboring base station and the test terminal 110, and the like. Include.

The base station 120 is arranged in units of cells, and receives a call request signal from a mobile communication terminal through a traffic channel among signal channels, and transmits the received call request signal to a base station controller (not shown). A location registration is performed to determine the location of a mobile communication terminal which is transmitted to or transmitted to a cell area under its control. In addition, the base station 120 is an endpoint device that is directly connected to the mobile communication terminal by performing baseband signal processing, wired and wireless conversion, and transmission and reception of wireless signals.

The base station 120 in the present invention includes a transmission output, antenna adjustment, neighbor list and handoff parameters to output radio waves in a system quality for providing the optimum call quality to a mobile communication terminal including the test terminal 110. A base station system environment including a transmission power, an antenna adjustment, a neighbor list, and a handoff parameter is set as an optimal parameter that is a base station system configuration parameter for setting a base station system environment according to a wireless environment in which the base station 120 is located. Here, the system quality refers to the quality of radio waves output from the base station 120.

The BSM 130 is responsible for the operation and maintenance of a plurality of base stations 120 and a base station controller (not shown), and performs system management information storage and various processing operations. Here, the system management information is a message inputted from each base station controller, configuration information of the system such as an error occurrence, current status, and the like, statistical data such as the number of call connections, the usage time, the number of handoffs, etc. And the like.

The PCS 140 databases the base station system configuration parameters accumulated through various tests and the appropriate reception radio wave quality, which is a measure of the optimum reception radio wave, corresponding to the base station system configuration parameters. To provide. Here, the proper reception radio wave quality refers to the test terminal 110 when the radio environment between the base station 120 and the test terminal 110 is a wireless environment that meets the optimum parameters. As a value obtained by measuring the quality, the mobile communication terminal provides an optimal call quality to the user when the radio wave received by the mobile communication terminal including the test terminal 110 is an appropriate reception radio wave quality. In addition, the appropriate reception propagation quality is a proper reception level, the appropriate base station identifier, the appropriate load level and the proper signal-to-noise ratio between the neighboring base station and the test terminal 110, which is the reception strength of the radio wave for the test terminal 110 to receive the optimal call quality. It includes.

The PCS 140 provides the OPC 150 with an appropriate reception propagation quality corresponding to the optimal parameter provided to the base station 120 so that the OPC 150 compares the haptic quality with the appropriate reception propagation quality.

The OPC 150 receives the haptic quality message transmitted from the test terminal 110, compares the haptic quality included in the haptic quality message with the appropriate received radio wave quality, and corrects the deviation between the haptic quality and the appropriate received radio wave quality. The specific parameters of the base station system environment set as parameters are increased or decreased in real time. In more detail, the OPC 150 increases the transmission output parameter for adjusting the transmission output of the base station 120 in a predetermined step if the reception level included in the perceived quality is less than the appropriate reception level included in the proper reception radio wave quality. That is, the transmission power is increased in a predetermined step so that the reception level included in the haptic quality and the appropriate reception level correspond. Here, the correspondence means that the reference value and the comparison value match or the comparison value is within the valid range of the reference value. In the present invention, the reference value is the appropriate reception level, the appropriate base station identifier, the appropriate base station identifier, the appropriate load and the proper signal-to-noise ratio between the neighboring base station and the test terminal 110, the comparison value is the reception level, base station identifier, It becomes the load and signal to noise ratio between the neighboring base station and the test terminal 110.

The OPC 150 increases or decreases the neighbor list parameter that adjusts the neighbor list of the base station system environment if the base station identifier included in the haptic quality is smaller or greater than the appropriate base station identifier included in the proper reception propagation quality, that is, if it does not correspond. Ensure that the base station identifier included in the quality corresponds to the appropriate base station identifier.

The OPC 150 increases or decreases the handoff parameter of the base station system environment to be included in the haptic quality if the load between the neighboring base station included in the haptic quality and the test terminal 110 does not correspond to the proper load included in the proper received radio wave quality. The load between the neighboring base station and the test terminal 110 corresponds to the appropriate load.

The OPC 150 increases or decreases the antenna tilt / swing parameter that adjusts the antenna tilt / swing in the base station system environment if the signal-to-noise ratio included in the haptic quality is not equal to the proper signal-to-noise ratio included in the proper reception propagation quality. The signal-to-noise ratio included in the haptic quality corresponds to the appropriate signal-to-noise ratio.

2 is a flowchart illustrating a process of automatically adjusting a call quality of a wireless communication network according to a preferred embodiment of the present invention.

In the process of automatically adjusting the call quality of the wireless communication network according to the preferred embodiment of the present invention, the base station 120 receives the optimal parameters from the PCS 140, sets the base station system environment, outputs radio waves, and the test terminal 110. ) Is based on the premise that when receiving a radio wave from the base station 120, the haptic quality of which the radio wave quality is changed due to a change in the radio environment is measured. Here, the base station 120 outputs a radio wave as a system quality for providing a mobile communication terminal including the test terminal 110 with an optimal call quality, that is, an appropriate reception radio wave quality corresponding to an optimal parameter. In addition, changes in the wireless environment include increasing users in proper reception propagation quality, changing parameters of nearby base stations, and expanding / relocating base station systems.

The test terminal 110 receives a haptic quality message, which is a message including a haptic quality obtained by measuring a reception level, a base station identifier, a load and a signal-to-noise ratio between a neighboring base station and the test terminal 110, and the like, at which the test terminal 110 receives radio waves. ) Generates and transmits it, the OPC 150 receives it (S210). Here, the haptic quality message includes a haptic quality SMS, which is an SMS including haptic quality, the haptic quality SMS includes an identification tag for distinguishing a reception level, a base station identifier, a load and a signal-to-noise ratio between the neighboring base station and the test terminal 110, and the like. Includes a measurement corresponding to each identification tag and does not exceed 40 characters.

The OPC 150 compares the haptic quality included in the haptic quality message with the proper received radio wave quality stored in the PCS 140 and determines that the haptic quality and the appropriate received radio wave quality are the same or equivalent level, so that the haptic quality is equal to the appropriate received radio wave quality. The process of adjusting the base station 120 system environment to be the same or equal level ends (S220, S230). Here, the equivalent level means that the reference value and the comparison value match or the comparison value is within the valid range of the reference value. In the present invention, the reference value is an appropriate reception radio wave quality, and the comparison value is a haptic quality.

If the level is not equal to the haptic quality and the proper reception radio wave quality in step S230, the OPC 150 tests the reception level included in the haptic quality and the base station identifier, the neighboring base station and the test to correct the deviation between the haptic quality and the proper reception radio wave quality. After adjusting the load, signal-to-noise ratio between the terminals 110 by a predetermined level that does not correspond to the appropriate reception radio wave quality, the same steps as S210, S220, and S230, S250, S260, and S270, are performed to perform the haptic quality and appropriateness. Corresponding reception radio wave quality (S240, S250, S260, S270). Here, when the reception level included in the perceived quality is less than the appropriate reception level included in the perceived reception radio wave quality, the OPC 150 increases the transmission output parameter for adjusting the transmission output of the base station 120 in a predetermined step, that is, the transmission output. Is increased to a certain level so that the reception level included in the haptic quality and the appropriate reception level correspond.

The OPC 150 increases or decreases the neighbor list parameter that adjusts the neighbor list of the base station system environment if the base station identifier included in the haptic quality is smaller or greater than the appropriate base station identifier included in the proper reception propagation quality, that is, if it does not correspond. Ensure that the base station identifier included in the quality corresponds to the appropriate base station identifier.

The OPC 150 increases or decreases the handoff parameter of the base station system environment to be included in the haptic quality if the load between the neighboring base station included in the haptic quality and the test terminal 110 does not correspond to the proper load included in the proper received radio wave quality. The load between the neighboring base station and the test terminal 110 corresponds to the appropriate load.

The OPC 150 increases or decreases the antenna tilt / swing parameter that adjusts the antenna tilt / swing in the base station system environment if the signal-to-noise ratio included in the haptic quality is not equal to the proper signal-to-noise ratio included in the proper reception propagation quality. The signal-to-noise ratio included in the haptic quality corresponds to the appropriate signal-to-noise ratio.

If the OPC 150 determines that the haptic quality and the appropriate reception radio wave quality are equal to or equal to each other, the OPC 150 stops adjusting parameters of the base station system environment (S280).

The above description is merely illustrative of the technical idea of the present invention, and those skilled in the art to which the present invention pertains may make various modifications and changes without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are not intended to limit the technical idea of the present invention but to describe the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. The protection scope of the present invention should be interpreted by the following claims, and all technical ideas within the equivalent scope should be interpreted as being included in the scope of the present invention.

As described above, according to the present invention, the OPC receives the haptic quality measured by the test terminal, and automatically compares the real-time neighbor list, so that the haptic quality is the proper received radio wave quality as compared with the appropriate received radio wave quality. By adjusting the base station system environment, including antenna adjustment and handoff parameters, manpower and time for on-site inspection of the base station is saved, and the customer has the effect of preventing customer complaints in advance by ensuring optimal call quality.

Claims (13)

Each base station includes a PCS (Parameter Control Server) which provides the optimal parameters for the wireless environment and the corresponding received radio wave quality, which is a measure of the optimal received radio waves, transmit power, antenna adjustment, neighbor list and handoff parameters. A base station that outputs a radio wave by setting a base station system environment to the optimum parameter, and when receiving the radio wave from the base station, the radio wave quality due to a change in the radio environment in the appropriate reception radio wave quality corresponding to the optimum parameter A method for automatically adjusting the call quality of a wireless communication network in a system including a test terminal for measuring the changed haptic quality and an OPC (Optimum Parameter Controller) for adjusting the base station system environment, (a) receiving the haptic quality message from the OPC when the test terminal generates and transmits a haptic quality message which is a message including the haptic quality; (b) comparing the haptic quality with the proper reception propagation quality; (c) adjusting a specific parameter of the base station system environment so that the haptic quality is the proper received radio wave quality if the haptic quality is not equal to the proper received radio wave quality; And (d) stopping the adjustment of the specific parameter when the haptic quality is equal to or equal to the appropriate received radio wave quality; Including, but in the step (c) If the load between the neighboring base station included in the haptic quality and the test terminal does not correspond to the appropriate load included in the proper reception propagation quality, the OPC increases or decreases the handoff parameter so that the load corresponds to the appropriate load. A method for automatically adjusting the call quality of a wireless communication network, characterized in that the. The method of claim 1, And the haptic quality message includes a haptic quality SMS, which is a short message service (SMS) including the haptic quality. The method of claim 1, The appropriate reception radio wave quality includes a proper reception level, an appropriate base station identifier, an appropriate load, and an appropriate signal-to-noise ratio, which are reception strengths of radio waves for the test terminal to receive an optimal call quality. How to automatically adjust The method of claim 1, The haptic quality includes a reception level which is the strength at which the test terminal receives the radio wave, a base station identifier (PN: Pseudo Noise), the load, and a signal-to-noise ratio (Ec / Io). How to adjust automatically. The method of claim 1, The specific parameter may be any one of a neighbor list parameter adjusting the neighbor list, the handoff parameter, an antenna tilt / swing parameter adjusting the antenna tilt / swing, and a transmission output parameter adjusting the transmission output. How to automatically adjust the call quality of your network. The method of claim 1, wherein in step (c) If the base station identifier included in the perceived quality is less than or greater than the appropriate base station identifier included in the proper reception propagation quality, the OPC increases or decreases a neighbor list parameter that adjusts the neighbor list so that the base station identifier is the appropriate base station identifier. And a call quality of the wireless network characterized in that it corresponds to. delete The method of claim 1, wherein in step (c) If the signal-to-noise ratio included in the haptic quality does not correspond to the appropriate signal-to-noise ratio included in the appropriate received propagation quality, the OPC increases or decreases the antenna tilt / swing parameter to adjust the antenna tilt / swing so that the signal-to-noise ratio is increased. A method for automatically adjusting the call quality of a wireless network characterized in that it corresponds to an appropriate signal to noise ratio. The method of claim 1, wherein in step (c) If the reception level included in the haptic quality is less than the proper reception level included in the proper reception propagation quality, the OPC increases the transmission output parameter for adjusting the transmission output of the base station in a predetermined step to be included in the haptic quality. A method for automatically adjusting the call quality of a wireless communication network, characterized in that the reception level and the appropriate reception level correspond. A system for automatically adjusting the call quality of a wireless communication network, The base station system configuration parameters accumulated through various tests and the appropriate reception propagation quality, which is a measurement value of the optimum reception radio waves, are databased and the optimal parameters for each base station are selected from the base station system configuration parameters. Providing a Parameter Control Server (PCS); A base station for outputting radio waves by setting a base station system environment as the optimum parameter; A base station manager (BSM) responsible for operating and maintaining the base station and the base station controller and storing system management information and performing various processing operations; When receiving the radio wave from the base station, the haptic quality of which the quality of the radio wave is changed due to the radio environment change in the appropriate reception radio wave quality corresponding to the optimum parameter is measured, and a haptic quality message including the haptic quality is generated. A test terminal; And The haptic quality message is received from the test terminal, and the haptic quality is compared with the haptic quality, and if the haptic quality is not equivalent to that of the proper received radio wave quality, the haptic quality is equal to the appropriate received radio wave quality. OPC (Optimum Parameter Controller) to adjust to equal level Wherein the OPC increases or decreases the handoff parameter of the base station if the load between the neighboring base station included in the haptic quality and the test terminal does not correspond to the appropriate load included in the proper received radio wave quality. And adjust the call quality of the wireless communication network so that the load corresponds to the appropriate load. The method of claim 10, And the base station system environment includes transmission power, antenna adjustment, neighbor list, and the handoff parameter. The method of claim 10, The wireless environment change is a system for automatically adjusting the call quality of the wireless communication network, characterized in that the user increase, the change of parameters of the neighboring base station and the base station system expansion / relocation. The method of claim 10, The OPC adjusts a neighbor list parameter for adjusting a neighbor list among the optimal parameters, the handoff parameter, and an antenna tilt / swing for adjusting the haptic quality to be equal to the appropriate reception propagation quality. A system for automatically adjusting the call quality of a wireless communication network, characterized in that one or more specific parameters are adjusted, which are one of a swing parameter and a transmission output parameter for adjusting a transmission output.

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