KR20090057832A - Method and system for measuring the wireless qos of mobile station using oma dm - Google Patents

Abstract

A radio quality measurement method of a mobile terminal and a system thereof using an OMA- DM(Open Mobile Alliance-Device Management) are provided to acquire radio quality measurement information about entire radio network and make database. A wireless interface(310) decodes radio signal received from a base station and generates radio quality information. A wireless quality agent(320) collects radio quality information and transmits the radio quality information to a DM client according to the control signal. A DM client(350) transmits obile terminal and wireless quality information to a DM server through a predetermined DM transfer protocol. The DM client is operated in the background mode.

Description

Method and system for measuring wireless quality of mobile terminal using OMA DM TECHNICAL FIELD

The present invention relates to a terminal wireless quality measurement method, and more specifically, by adding a function for measuring the wireless quality in OMA DM, to measure the wireless quality in real time without using a separate wireless quality measurement tool, The present invention relates to a mobile terminal wireless quality measurement method and system using OMA DM that can be collected and managed.

With the development of mobile communication technology, various wireless communication services are provided, and mobile communication system developers and service providers are actively conducting various technical studies to maintain a certain level of call service quality.

In order to maintain a high level of service quality in a mobile communication network, an optimal cell design needs to be made using various simulations and measured quality data.

In particular, in the early stage of service commercialization, a lot of investment is made to increase the capacity of the wireless network due to the continuous increase of subscribers, but when the subscribers are saturated to some extent, the aspect of service quality management is emphasized more.

To this end, service operators are putting a lot of effort into optimizing wireless networks, such as relocating base stations and establishing 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, since these conventional wireless network quality measurement methods are performed mostly by dedicated tools and personnel for measuring wireless quality, enormous manpower and materials are required.

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.

In particular, a dedicated terminal DM (Diagnostic and Monitoring) tool (DM) used for wireless quality measurement and terminal and system debugging (debugging) not only requires a skilled professional who can handle the tool but also has an expensive disadvantage.

In addition, the dedicated tool cannot be mounted inside the mobile terminal and has a disadvantage in that it cannot be linked with a mobile communication system.

Therefore, since the statistics and database functions are not provided in the existing dedicated terminal DM tool, there is a limit in collecting the obtained wireless quality information as data for overall wireless network quality management and managing it as a database.

An object of the present invention for solving the problems of the prior art as described above is to provide a method and system for measuring the wireless terminal quality using OMA DM.

Another object of the present invention is to provide a client-server based wireless quality measurement method and system.

It is also an object of the present invention to provide a mobile communication system capable of obtaining statistical analysis and database of wireless quality measurement information for the entire wireless network in a faster and more convenient manner in real time.

Another object of the present invention is to provide a mobile terminal capable of performing radio quality measurement through the OMA-DM protocol.

It is also an object of the present invention to provide a mobile terminal equipped with a radio parameter agent for measuring and collecting radio quality data in a protocol stack structure of an existing terminal OMA DM agent.

Other objects of the present invention will be readily understood through the following description of the embodiments.

According to an embodiment of the present invention, a method of measuring radio quality in a mobile terminal equipped with a device management (DM) function is disclosed.

According to an aspect of the present invention, there is provided a method for measuring wireless quality of a mobile terminal, the method comprising: measuring and decoding wireless signals received from a base station according to a call start to generate wireless quality information; A radio quality information transmission step of transmitting the generated radio quality information and the current location information of the mobile terminal to the base station using a predetermined DM transmission protocol at a predetermined period; And a radio quality measurement ending step of terminating the radio quality measurement for the radio signal according to the termination of the call.

According to another embodiment of the present invention, a method for managing radio quality in a radio quality management server connected to a mobile communication system and a DM server is disclosed.

A method for managing wireless quality in a wireless quality management server according to an embodiment of the present invention includes: receiving wireless quality information and location information generated by a DM client through a DM server; Generating wireless quality statistics information for each base station by using the received wireless quality information and location information; And a wireless quality analysis step of generating wireless quality analysis information for each base station by comparing predetermined wireless quality reference information with the wireless quality statistics information, wherein the mobile communication system uses the wireless quality statistics information and the wireless quality analysis information. It characterized in that to control the radio quality parameters of.

According to another embodiment of the present invention, a mobile terminal equipped with a client-server based DM function is disclosed.

According to an aspect of the present invention, there is provided a mobile terminal comprising: a wireless interface unit for measuring and decoding wireless signals received from a base station to generate wireless quality information; A wireless quality agent which collects and processes the generated wireless quality information at a predetermined period and delivers the processed wireless quality information to a DM client according to a predetermined control signal; And a DM client for transmitting the processed radio quality information and current location information of the mobile terminal to a DM server using a predetermined DM transmission protocol.

According to another embodiment of the present invention, a wireless quality management server for managing wireless network quality in association with a mobile communication system and a DM server is disclosed.

A wireless quality management server according to an embodiment of the present invention comprises: wireless quality information obtaining means for receiving wireless quality information and location information generated by a DM client through the DM server; Radio quality statistics information generating means for generating radio quality statistics information for each base station by using the received radio quality information and location information; And wireless quality analysis means for generating wireless quality analysis information for each base station by comparing predetermined wireless quality reference information with the wireless quality statistical information, wherein the mobile communication system uses the wireless quality statistical information and the wireless quality analysis information. It characterized in that to control the radio quality parameters of.

The present invention has the advantage of providing a method and system for measuring the wireless terminal quality using OMA DM.

In addition, the present invention provides a client-server based wireless quality measurement method and system therefor, and has the advantage of more effectively obtaining information necessary for wireless network optimization.

In addition, the present invention has the advantage of providing a mobile communication system capable of faster and more convenient to obtain the radio quality measurement information for the entire wireless network in real time, statistical analysis and database.

In addition, the present invention provides an mobile terminal capable of performing wireless quality measurement through the OMA-DM protocol, there is an advantage that does not require a separate dedicated terminal DM tool.

In addition, the present invention has an advantage of providing a mobile terminal equipped with a radio parameter agent for measuring and collecting radio quality data in the protocol stack structure of the existing terminal OMA DM agent (Agent).

In addition, the present invention has the effect of measuring and analyzing the wireless quality of the entire mobile communication network while significantly reducing the cost and manpower required for wireless network quality measurement.

As the invention allows for various changes and numerous embodiments, particular embodiments will be illustrated in the drawings and described in detail in the written description. However, this is not intended to limit the present invention to specific embodiments, it should be understood to include all modifications, equivalents, and substitutes included in the spirit and scope of the present invention.

The terms first, second, etc. may be used to describe various components, but the components should not be limited by the terms. The terms are used only for the purpose of distinguishing one component from another. For example, without departing from the scope of the present invention, the first component may be referred to as the second component, and similarly, the second component may also be referred to as the first component.

The term and / or includes a combination of a plurality of related items or any item of a plurality of related items. The terminology used herein is for the purpose of describing particular example embodiments only and is not intended to be limiting of the present invention. Singular expressions include plural expressions unless the context clearly indicates otherwise.

In this application, the terms "comprising" or "mounted" and "mounted" are intended to indicate that there is a feature, number, step, action, component, part, or combination thereof described on the specification, one Or other features or numbers, steps, operations, components, parts or combinations thereof in any way should not be excluded in advance.

Unless defined otherwise, all terms used herein, including technical or scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art. Terms such as those defined in the commonly used dictionaries should be construed as having meanings consistent with the meanings in the context of the related art, and are not construed in ideal or excessively formal meanings unless expressly defined in this application. Do not.

Other aspects, features, and advantages other than those described above will become apparent from the following drawings, claims, and detailed description of the invention.

Hereinafter, a preferred embodiment of a method and system for measuring a wireless terminal quality using OMA DM according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a block diagram of a wireless quality management system according to an embodiment of the present invention.

More specifically, the wireless quality management system according to an embodiment of the present invention provides wireless quality information obtained by a DM client mounted in a mobile terminal to a DM server through an OMA-DM (Open Mobile Alliance Device Management) protocol. In addition, the wireless quality management server performs statistical and analysis processing using the wireless quality information received from the DM server to perform continuous and effective wireless quality management for the corresponding wireless network.

As shown in Figure 1, the wireless quality management system according to an embodiment of the present invention DM client 110, DM server 130, wireless quality management server 140, wireless quality database 150, operation management The server 160 and the mobile communication system 170 may be included.

The DM client 110 controls the collection of radio quality parameters for the established call channel, where the radio quality parameters include Received Signal Strength Indicator (RSSI), Ec / Io, SNR, call quality, etc. The OMA-DM protocol collects the radio quality parameters collected at the time of occurrence, and transmits them to the DM server 130. Here, the DM client 110 may start or end the radio quality measurement for the corresponding call channel according to a predetermined radio quality measurement control signal received from the DM server 130.

The OMA-DM protocol may include a short message service (SMS), a multimedia message service (MMS), a hypertext transfer protocol (HTTP), a wireless protocol (WAP), and the like.

That is, the radio quality parameter collected by the DM client 110 may be configured in the form of a short message, a multimedia message, a web page, or the like and transmitted to the DM server 130. Of course, the radio quality parameters may be transmitted to the DM server 130 through the components of the mobile communication system 170 corresponding to the corresponding OMA-DM protocol.

The mobile communication system 170 includes a base station that provides a radio interface with a mobile terminal, a radio network controller that manages corresponding base station resources, sets / changes / releases radio resources, an exchange that performs call processing and mobility management functions, and short messages. Short Message Service Center (SMSC) for processing a message, Multimedia Message Service Center (MMSC) for processing a multimedia message, and the like.

For example, when the radio quality parameter is transmitted in the form of an MMS message, the MMS message may be delivered to the DM server 130 via a base station, a radio network controller, a switch, and an MMSC to which the mobile terminal is connected.

The DM server 130 is a device that issues a device management command to the DM client 110. The device management command changes and creates parameters of an application service installed in the device, manages information in the device, and installs application software. And the ability to remotely control their execution and reinstall the operating system (OS).

In particular, according to the present invention, the DM server 130 is a device for performing a diagnosis and monitoring function for the corresponding wireless network, a predetermined control signal received from the mobile communication system 170, for example, a call setup message and And a call processing control signal including a call release message. The DM client 110 performs a function of transmitting a predetermined radio quality measurement control signal instructing the corresponding DM client 110 to start or end the radio quality measurement.

In addition, the DM server 130 parses the radio quality parameters mapped to the specific OMA-DM protocol from the DM client 110, and then parses the parsed radio quality parameters between the DM server 130 and the radio quality management server 140. It converts to a predetermined message transmission format predefined in the and transmits to the wireless quality management server 140.

In addition, when the DM server 130 receives a predetermined wireless quality analysis information request message including location information of the mobile terminal from the DM client 110, the DM server 130 corresponds to the corresponding location information from the wireless quality management server 140. The wireless quality analysis information may be obtained and provided to the DM client 110.

The wireless quality analysis information may include shadow area information, call quality information for each call type, map information showing a distribution of shadow areas, and the like.

Therefore, the mobile terminal user can confirm the wireless quality of the corresponding region through the wireless quality analysis information, and can move to the available call region by using the shaded region information and resume the call.

The mobile terminal equipped with the DM client 110 according to the present invention preferably includes a GPS receiving module for accurate position measurement.

In addition, the mobile terminal according to an exemplary embodiment of the present invention includes a radio quality agent that measures radio quality according to a control signal of the DM client 110 and provides the DM client 110 with information related to the measured radio quality. It is desirable to.

The wireless quality management server 140 performs statistical and analysis processing on the wireless quality parameters received from the DM server 130, and stores the processed wireless quality information in the wireless quality database 150 or stores the stored wireless quality information. Read function can be performed.

In addition, the wireless quality management server 140 determines whether the change of the wireless quality control parameter is necessary based on the analyzed wireless quality information, and according to the result of the operation management server (Operating a predetermined wireless quality control parameter change request message) and Management Server, 160).

Here, the radio quality control parameter change request message may include identification information for the radio network controller and the base station requiring the parameter change, a radio quality control parameter type to be changed, a change value, and the like.

For example, when the call quality for a video call serviced by a specific base station is less than the standard, the wireless quality control server 140 uses a target signal to noise ratio (SNR) used for inner loop power control. The wireless quality control parameter change request message instructing to increase the value of may be transmitted to the operation management server 160.

In addition, if the RSSI value measured by the mobile terminal connected to the specific base station is less than the reference, the wireless quality control server 140, the radio quality control parameter change request message instructing to adjust the transmission power (Tx Power) of the base station up It can be transmitted to the operation management server 160.

The operation management server 160 may perform state management, fault management, and setting and changing various wireless quality related parameters of the mobile communication system 170.

For example, when the operation management server 160 detects a failure of a specific base station, the operation management server 160 may reset the base station or block the output of the base station.

In particular, when the operation management server 160 according to the present invention receives the radio quality parameter change request message from the radio quality management server 140, it may change the radio quality control parameters corresponding to the base station or the radio network controller.

According to another embodiment of the present invention, the DM client 110 may provide the DM server 130 with wireless quality parameters measured and collected in a transparently over-the-air (OTA) manner to the user. That is, the DM client 110 and the DM server 130 may perform a predetermined control procedure for measuring the radio quality so that the terminal user may not be recognized through the OTA.

2 is a hierarchical structure of a DM service according to an embodiment of the present invention.

As shown in FIG. 2, the DM client 110 and the DM server 130 have a hierarchical structure composed of DM protocols 212 and 222, DM platforms 214 and 224, and DM applications 216 and 226, respectively.

Referring to FIG. 2, the DM client 110 and the DM server 130 perform end-to-end communication with each corresponding layer, and the lower layer provides a service to an upper layer.

For example, DM application 216 of DM client 100 performs end-to-end communication with DM application 226 of DM server 130, and DM application 212.222 is enabled by DM platform 214, 224. Provided services are provided such as security, message parsing, user interface application programming interfaces (APIs), and DM-related libraries.

The DM protocols 212 and 222 according to the present invention may provide various wireless transmission protocols including SMS, WAP, HTTP, and MMS.

In particular, the DM platform 214 according to the present invention controls the operation of the radio quality agent, which will be described later, according to the control signal of the DM application 216, and stores the radio quality parameters measured and collected by the radio quality agent in the DM application 216. ) Can be performed.

3 is a hierarchical structure of a mobile terminal equipped with an OMA DM function according to an embodiment of the present invention.

More specifically, FIG. 3 collects radio quality parameters according to a control signal of the OMA-DM client 350 and provides the radio quality parameters collected when a specific event occurs to the mobile terminal equipped with the diagnostic and monitoring function of the OMA DM. It is a hierarchical structure of a mobile terminal equipped with a radio quality agent 320.

3, the mobile terminal 300 according to an embodiment of the present invention is a wireless interface unit 310, wireless quality agent 320, the terminal operating system 330, OMA-DM platform 340, OMA -DM client 350 can be included.

The wireless interface unit 310 performs RF and baseband processing on a wireless signal received through an antenna and provides the terminal operating system 330 with a baseband and RF processing of a packet received from the terminal operating system 330. Through the wireless transmission function can be performed.

In particular, the wireless interface unit 310 may periodically measure RSSI, Ec / Io, SNR, etc., hereinafter, referred to as “wireless quality measurement information,” of the acquired base station signal, and record the measured value in a predetermined manner. It can write to an area-for example, a specific register assigned to a terminal modem.

In this case, the wireless quality agent 320 may read out wireless quality measurement information recorded at a predetermined period, perform a predetermined processing procedure, where the processing procedure may be an arithmetic average processing, and then store it in a predetermined recording area. .

In addition, the wireless interface unit 310 calculates and calculates information about a bit error and a block error of the baseband processed reception data, hereinafter referred to as "call quality measurement information." The result can be provided to the radio quality agent 320. In this case, the wireless quality agent 320 may calculate a bit error rate (BER) and a block error rate (BLER) for each call channel using the received call quality measurement information, and record the predetermined value. Can be stored in the area.

In the following description, for convenience of description, the radio quality measurement information and the call quality measurement information processed by the radio quality agent 320 will be simply referred to as "wireless quality parameters".

The wireless quality agent 320 may initiate or terminate the generation of a stored wireless quality parameter upon occurrence of a particular event, including, for example, events such as call initiation or termination, call drop, and the like. The wireless quality parameter generated at the time may be provided to the terminal operating system 330. Here, whether an event occurs may be detected by the terminal operating system 330 and provided to the wireless quality agent 320.

In this case, the terminal operating system 330 may provide the received radio quality parameter to the OMA-DM client 350 through the OMA-DM platform 340.

The OMA-DM client 350 may convert the received radio quality parameter into a predetermined OMA DM protocol transmission format and transmit it to the DM server 130.

According to an embodiment of the present invention, the OMA-DM client 350, which is in charge of collecting and transmitting radio quality parameters, preferably operates in a background mode. Here, the background mode means that the operation of the OMA-DM client 350 is not recognized by the terminal user.

4 is an internal block diagram of a radio quality agent according to an embodiment of the present invention.

As shown in FIG. 4, the wireless quality agent 320 includes a control unit 430 for controlling the entire task scheduling and the lower module, a transmitting unit 410, a receiving unit 420, and a wireless quality parameter generator 440. ), A wireless quality parameter storage unit 450 and an event handler (Event Handler, 460).

The transmitter 410 transmits a radio quality parameter generated by the radio quality agent 320 to the terminal operating system 330.

The receiver 420 receives a control signal received from the terminal operating system 330, call quality measurement information and wireless quality measurement information received from the wireless interface unit 310, and transmits the received control signal to the controller 430.

The wireless quality parameter generator 440 generates a wireless quality parameter by using the received call quality measurement information and the wireless quality measurement information and records the wireless quality parameter in the wireless quality parameter storage 450.

In addition, the wireless quality parameter generation unit 440 is a function of calculating an arithmetic mean for periodically received wireless quality measurement information and call quality information for each call channel using the call quality measurement information-for example, BER, BLER, etc. It can perform a function to calculate-including.

The event handler 460 may perform a function of initiating or terminating a radio quality parameter generation procedure according to a control signal received from the terminal operating system 330.

In addition, the event handler 460 manages a predetermined quality information collection timer related to a cycle of reading wireless quality measurement information stored in a corresponding register of the wireless interface unit 310 according to a control signal of the terminal operating system 330. Function can be performed.

5 is a block diagram illustrating a structure of a wireless quality control server according to an embodiment of the present invention.

As shown in FIG. 5, the wireless quality control server 140 according to an embodiment of the present invention includes a message transmitter / receiver 510, a controller 520, a wireless quality statistics processor 530, and a wireless quality analyzer 540. ), A location mapping unit 550, and a wireless quality reference table 560.

The message transmission / reception unit 510 may receive a radio quality measurement result information from the DM server 130, or transmit a radio quality parameter control request message to the operation management server 160 according to a request of the controller 520. Can be.

The radio quality statistics processing unit 530 performs a function of performing statistical processing for each base station or cell based on the radio quality parameters collected by the DM client 110.

The radio quality analyzer 540 analyzes the radio quality and the call quality in the corresponding base station with reference to the statistically processed quality information and the radio quality reference table 560 and stores them in a predetermined recording area.

In addition, the wireless quality analysis unit 540 generates a predetermined control signal (eg, a wireless quality parameter change request message) instructing the change of the wireless quality parameter according to the wireless quality analysis result, and the operation management server 160. ) Can be sent.

In addition, when the wireless quality analysis unit 540 receives the wireless quality analysis request message from the DM client 110, the wireless quality analysis unit 540 extracts previously analyzed wireless quality analysis information corresponding to a corresponding region from a predetermined recording area, and may be described later. The wireless quality analysis information extracted in conjunction with the information providing unit 550 may be mapped onto a map corresponding to a corresponding region. Here, the current location of the mobile terminal, the shaded area, the callable area, etc. may be displayed on the mapped map.

Thereafter, the wireless quality analyzer 540 may transmit wireless quality analysis information including the mapped map information to the DM client 110. Here, the wireless quality analysis information may be converted into a predetermined web screen, motion sickness message, and the like and provided to the DM client 110.

The radio quality reference table 560 is a table in which an allowable range for each radio quality parameter, which is a criterion for quality evaluation, is recorded. The radio quality criteria table 560 will be described in detail with reference to FIG. 7 to be described later.

6 is a structure of a radio quality parameter database according to an embodiment of the present invention.

As shown in FIG. 6, the wireless quality parameter database according to an embodiment of the present invention is preferably maintained in the wireless quality database 150, and data type identification information 610 and RF quality information 620. The call quality information 630 may be included.

The data type identification information 610 may include fields for storing base station identification information 611, terminal identifier 612, latitude and longitude 613, and time 614 information.

Here, the base station identification information 611 may include a Service Provider Identity (SID), a Network Identity, a Frequency Allocation, a Cell Identifier (ID) for uniquely identifying a region where the radio quality parameter is received. Cell identity), and the like.

The terminal identifier 612 is a field in which information uniquely identifying a corresponding terminal or subscriber, such as an ESN, a subscriber telephone number, an IMSI, and the like, is stored.

Latitude and longitude 613 is a field for storing the location information calculated by the GPS receiving module provided in the mobile terminal, it is preferable that the location information at the time when the radio quality parameter is transmitted.

The time 614 may be a field in which information on a time point at which the corresponding radio quality parameter is transmitted by the DM client 110 or information on a time interval in which the corresponding radio quality parameter is collected.

The RF quality information 620 may include information such as the RSSI 621, the Ec / Io 622, the TxPower 623, and the like.

The call quality information 630 is an area in which information about service quality for each call channel is stored. For example, the call quality information 630 may include information about a voice quality 631, a video quality 632, and a packet service quality 633. have. Here, it should be noted that the packet quality of service 633 may be classified and stored for each channel transmission rate. For example, the packet service transmission rate may be divided into PS64Kbps, PS128Kbps, PS256Kbps, and PS384Kpbs.

In particular, the wireless quality parameter database is preferably stored by sorting by base station identification information 611, the wireless quality management server 140 according to the present invention based on the information stored in the wireless quality parameter database, the wireless quality for each base station Statistics can also be generated and databased. Hereinafter, a database storing radio quality statistics for each base station will be referred to as a 'wireless quality statistics database'.

Here, the radio quality statistical database may include an arithmetic mean, a maximum value, a minimum value, etc. for each radio quality parameter corresponding to the same base station identification information.

7 is a radio quality criteria table according to an embodiment of the present invention.

As illustrated in FIG. 7, the wireless quality criteria table 560 according to an embodiment of the present invention may include RF quality criteria information 710 and call quality criteria information 720.

Here, the RF quality reference information 710 stores information on a criterion for evaluating the RF quality of the region, and in detail, an allowable range such as RSSI 711, Ec / Io 712, TxPower 713, and the like. Can be stored.

The call quality criterion information 720 stores information about a call quality evaluation standard for each call service, and in detail, a BLER or BER criterion regarding a voice quality 721, a video quality 722, a packet service quality 723, and the like. Information can be stored. Of course, it should be noted that a granular criterion may be applied to the data transmission rate with respect to the packet quality of service 723.

Although not shown in FIG. 7, the wireless quality criteria table according to another embodiment of the present invention may further include reference information regarding a call drop rate, a handover failure rate, and the like. .

8 is a structure of a wireless quality analysis database according to an embodiment of the present invention.

As shown in FIG. 8, in the wireless quality analysis database according to an embodiment of the present invention, RF quality analysis information 820 and call quality analysis information 830 for each base station identification information 810 may be stored.

The wireless quality management server 140 according to the present invention may identify a base station having a wireless quality lower than a reference by referring to a wireless quality analysis database and a wireless quality statistics database, and determine which radio quality parameters should be changed to what level. Can be.

9 is a block diagram illustrating an operation of a radio quality agent according to an embodiment of the present invention.

As shown in FIG. 9, the wireless quality agent 320 according to the present invention has an interface with the terminal operating system 330 and the wireless interface 310, and according to the control signal of the terminal operating system 330, Acquire wireless quality parameters from the wireless interface unit 310 and store them in the EFS (Embedded File System) 928, and provide the stored wireless quality parameters to the DM client 110 through the terminal operating system 330 when a specific event occurs. Can be.

In the following description, a general structure of the terminal operating system 330 and a procedure of collecting radio quality parameters by the radio quality agent 320 will be described in detail with reference to FIG.

The terminal operating system 330 according to the present invention provides a call processing task that performs call processing related functions, a driver task that performs management of peripheral devices, and an interface with the DM client 110. And a DM task that provides the DM client 110 with the radio quality parameters collected by the radio quality agent 320.

The call processing task is a main controller 906, a receiver 910, a transmitter 912, and a transmission / reception control unit 908. The data service unit 916 and the packet service 918 may be included.

The main control unit 906 performs the functions of controlling the terminal hardware initialization, generation of all tasks, and overall call processing.

The call processing unit 904 may be an input signal received from an external input device such as a keypad or a touch screen, where the input signal may be provided to the call processing unit 904 through the UI unit 902. According to the control signal of the main control unit 906, a series of call processing procedures for originating and incoming calls may be performed, and a function of controlling the data service unit 916 that manages data services when packet packets are established may be performed.

In particular, the call processing unit 904 transmits a predetermined event signal corresponding to the start and end of the call to the radio quality agent 320, so that the radio quality agent 320 collects radio quality parameters from the radio interface unit 310 or It can be controlled to stop the collection operation.

The receiver 910 controls the decoder provided in the wireless interface 310, wherein the decoder includes a Viterbi / Turbo decoder, a demultiplexer, and the like. For example, it performs the function of assigning / changing / releasing a frequency, power, various codes, and the like. In addition, the receiver 910 receives the data processed by the baseband processor 932 and transmits the data to the upper layer.

The transmitter 910 controls transmission channel multiplexing, random access, modulation, and the like, and manages transmission channel resources, including, for example, frequency, power, and various codes. . In addition, the transmitter 910 transmits the data received from the upper layer to the baseband processor 932.

The transmission / reception controller 908 may perform state management and automatic repeat request (ARQ) functions of the receiver 910 and the transmitter 912.

The driver task monitors the operation of the task and resets the hardware (WatchDog, 920) that performs a function of resetting the hardware when an abnormal task is detected, and the baseband processor for phase synchronization with the base station and multipath search. It may include a search controller 914 for controlling a finger (finger) and searcher (Searcher) resources provided in the (932).

Although not shown in FIG. 9, the driver task may further include a handset task in charge of interfacing with the handset device, a speaker control in the handset device, a sound task for controlling various sound signals, and the like. have.

In particular, the diagnostic unit 922 according to the present invention is responsible for the interface with the DM client 110, and reads the radio quality parameters collected by the radio quality agent 320 from the EFS 928 to the DM client 110. It may provide or transmit the collected radio quality parameters directly to the DM server (130).

In addition, the diagnostic unit 922 transmits a control signal received from the DM client 110 (for example, a wireless quality analysis request message) to the DM server 130 and a wireless quality received from the DM server 130. A function of delivering the analysis result to the DM client 110 may be performed.

10 is a flowchart illustrating a radio quality measurement procedure according to an embodiment of the present invention.

In more detail, FIG. 10 illustrates that the DM client 110 collects radio quality parameters for the established communication channel and converts the collected radio quality parameters into an MMS message according to an embodiment of the present invention. The procedure for transmitting to the wireless quality management server 140 and the wireless quality parameters received from the DM server 130 to perform a procedure for performing wireless quality statistics processing and analysis.

Referring to FIG. 10, when the call channel is established (S1002), the DM client 110 receives a radio quality measurement request message from the DM server 130 (S1004).

When receiving the radio quality measurement request message, the DM client 110 controls to start radio quality measurement (S1006).

The DM client 110 converts the wireless quality measurement result measured when a predetermined measurement report event occurs (S1008) and transmits the corresponding MMS message to the MMS server 1000 (S1010).

When the MMS server 1000 transmits the corresponding MMS message to the DM server 130 (S1012), the DM server 130 parses the received MMS message and extracts a radio quality measurement result (S1014). The measurement result is transmitted to the wireless quality management server 140 (S1016).

The radio quality management server 140 analyzes radio quality statistics processing and radio quality for each base station by using the received radio quality measurement result (S1018).

Steps 1008 to 1018 may be repeatedly performed until the preset call channel ends or the set call is disconnected.

If the established call channel is released (S1020), the DM server 130 transmits a radio quality measurement end message to the DM client 110 (S1022).

The DM client 110 ends the radio quality measurement started at step 1006 (S1024).

According to another embodiment of the present invention, the DM client 110 may automatically start or end the radio quality measurement according to the call channel setting and release, without receiving a control signal from the DM server 130. Should be.

In addition, the DM client 110 may convert the wireless quality measurement result into an SMS, a web page, and the like instead of an MMS message and transmit the result to the DM server 130.

11 is a flowchart illustrating a radio quality analysis procedure according to an embodiment of the present invention.

In more detail, FIG. 11 illustrates that the wireless quality management server 140 provides the DM client 110 with wireless quality analysis information corresponding to the current location of the mobile terminal according to the request of the wireless quality analysis of the DM client 110. It is a figure for demonstrating a procedure.

Referring to FIG. 11, the DM client 110 may transmit a predetermined wireless quality analysis information request message including current location information, for example, may include at least one of latitude / longitude and base station identification information. Transfer to 130 (S1102).

When the wireless quality analysis server 140 receives the wireless quality analysis request message from the DM server 130 (S1104), the wireless quality analysis information corresponding to the corresponding location information is extracted from the wireless quality analysis database (S1106).

The wireless quality management server 140 generates a wireless quality analysis result using the extracted wireless quality analysis information and the map information corresponding to the corresponding location information (S1108).

The wireless quality management server 140 transmits a predetermined wireless quality analysis response message including the generated wireless quality analysis result to the DM client 110 through the DM server 130 (S1110 to S1112).

The DM client 110 outputs the received wireless quality analysis result through a predetermined user interface screen in operation S1114.

12 is a screen illustrating a user interface according to a radio quality analysis request according to an embodiment of the present invention.

As illustrated in FIG. 12, when the mobile terminal user wants to analyze the wireless quality, the wireless quality analysis request screen 1210 is output by selecting a preset menu.

If the execution button 1212 is clicked by the user, the mobile terminal transmits a radio quality analysis request message including the current location information to the DM server 130 through the mobile communication system.

When the mobile terminal receives a wireless quality analysis response message including wireless quality analysis information from the connected base station, the mobile terminal outputs a predetermined wireless quality analysis result screen 1220 to the display unit.

The wireless quality analysis result screen may include at least one of base station identification information and address information 1222, map information 1224, wireless quality analysis result 1226, and detailed information 1228 corresponding to the current location of the mobile terminal. can do.

Here, the map information 1224 may be a 2D or 3D map image in which the location of the access and neighboring base stations, the current location of the terminal, the shaded area, and the callable area are displayed.

The radio quality analysis result 1226 is an area where a predetermined character string indicating whether the radio quality at the current terminal location is good is displayed. For example, one of "good wireless quality", "bad wireless quality", and "shading area" may be output according to the analysis result.

The detailed information 1228 may include RF quality analysis information 820 and call quality analysis information 830 corresponding to the access base station.

Preferred embodiments of the present invention described above are disclosed for purposes of illustration, and those skilled in the art will be able to make various modifications, changes, and additions within the spirit and scope of the present invention. Additions should be considered to be within the scope of the following claims.

1 is a block diagram of a wireless quality management system according to an embodiment of the present invention.

2 is a hierarchical structure of a DM service according to an embodiment of the present invention.

3 is a hierarchical structure of a mobile terminal equipped with an OMA DM function according to an embodiment of the present invention.

4 is an internal block diagram of a radio quality agent in accordance with an embodiment of the present invention.

5 is a block diagram showing the structure of a wireless quality management server according to an embodiment of the present invention.

6 is a structure of a radio quality parameter database according to an embodiment of the present invention.

7 is a radio quality criteria table according to an embodiment of the present invention.

8 is a structure of a wireless quality analysis database according to an embodiment of the present invention.

9 is a block diagram illustrating the operation of a radio quality agent according to an embodiment of the present invention.

10 is a flowchart illustrating a radio quality measurement procedure according to an embodiment of the present invention.

11 is a flowchart illustrating a radio quality analysis procedure according to an embodiment of the present invention.

12 illustrates a user interface screen according to a radio quality analysis request according to an embodiment of the present invention.

* Key Drawing

110: DM client 130: DM server

140: wireless quality management server 150: wireless quality database

160: operation management server 170: mobile communication system

212: DM protocol 214: DM platform

216 DM application 310: wireless interface unit

320: wireless quality agent 330: terminal operating system

922: Diagnosis unit 928: EFS

Claims (16)

In the method for measuring wireless quality in a mobile terminal, A radio quality measurement step of measuring and decoding radio signals received from a base station according to a call initiation to generate radio quality information; Transmitting the generated wireless quality information and the current location information of the mobile terminal to the base station using a predetermined DM transmission protocol; And A radio quality measurement ending step of terminating a radio quality measurement on the radio signal according to a call termination Including, but the mobile terminal is a wireless quality measurement method characterized in that the DM (Device Management) function is mounted. The method of claim 1, The wireless quality information includes at least one of RF quality information, call quality information. The method of claim 2, The RF quality information includes at least one of Received Signal Strength Indicator (RSSI), E _c / I _o , Signal to Noise Ratio (SNR), and UE transmit power. The method of claim 2, The call quality information includes a data reception error rate for each call channel, wherein the call channel includes at least one of a voice call channel, a video call channel, and a packet service channel. The method of claim 1, The location information includes at least one of base station identification information, latitude and longitude information. The method of claim 1, The DM transmission protocol is a wireless quality measurement method, characterized in that any one of WAP (Wireless Access Protocol), HTTP, MMS, SMS. A method of managing wireless quality in a wireless quality management server connected to a mobile communication system and a DM server, Acquiring wireless quality information and location information generated by a DM client through a DM server; Generating wireless quality statistics information for each base station by using the received wireless quality information and location information; And A radio quality analysis step of generating radio quality analysis information for each base station by comparing predetermined radio quality reference information with the radio quality statistics information. The wireless quality control method of the wireless quality management server, characterized in that for controlling the radio quality parameters of the mobile communication system using the radio quality statistical information and radio quality analysis information. The method of claim 7, wherein After the radio quality analysis step, Selecting a base station requiring a change of the radio quality parameter by referring to the radio quality analysis information; Determining a type and a change value of a radio quality parameter to change in correspondence with the selected base station; And Transmitting a control signal including the radio quality parameter change information of the selected base station to the mobile communication system; Wireless quality management method in a wireless quality management server further comprising. The method of claim 7, wherein When receiving a wireless quality analysis request message including location information from the DM client, characterized in that to provide the DM client with a wireless quality analysis result generated using the wireless quality analysis information corresponding to the location information. Wireless quality control method in wireless quality control server. The method of claim 9, The wireless quality analysis result comprises at least one of base station identification information, address information, map information, wireless quality analysis results, analysis result detailed information. The method of claim 10, The map information is a wireless quality management method of a wireless quality management server, characterized in that the current location, the location of the access and neighboring base station, the shadow area, the callable area of the mobile terminal equipped with the DM client. In a mobile terminal equipped with a client-server based DM function, A wireless interface unit for measuring and decoding wireless signals received from a base station to generate wireless quality information; A radio quality agent that collects and processes the generated radio quality information at a predetermined period and delivers the processed radio quality information to a DM client according to a predetermined control signal; And DM client for transmitting the processed radio quality information and the current location information of the mobile terminal to a DM server using a predetermined DM transmission protocol Mobile terminal comprising a. The method of claim 12, And the DM client operates in a background mode that is not recognized by the mobile terminal user. The method of claim 12, The control signal is generated when the call is normally terminated or abnormally released. The method of claim 12, The DM client Means for sending a radio quality analysis request message including current location information to the DM server in accordance with a predetermined user menu selection; And Means for receiving a wireless quality analysis response message including a wireless quality analysis result from the DM server A mobile terminal further comprising. In the wireless quality management server to manage the wireless network quality in conjunction with a mobile communication system and a DM server, Wireless quality information obtaining means for receiving wireless quality information and location information generated by a DM client through the DM server; Radio quality statistics information generating means for generating radio quality statistics information for each base station by using the received radio quality information and location information; And Radio quality analysis means for generating radio quality analysis information for each base station by comparing predetermined radio quality reference information with the radio quality statistics information The wireless quality management server, characterized in that for controlling the radio quality parameters of the mobile communication system using the radio quality statistical information and radio quality analysis information.

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