WO2012097651A1

WO2012097651A1 - Automatic drive test system in a mobile communications network

Info

Publication number: WO2012097651A1
Application number: PCT/CN2011/083686
Authority: WO
Inventors: 陆元会; 张磊
Original assignee: 珠海世纪鼎利通信科技股份有限公司
Priority date: 2011-01-21
Filing date: 2011-12-08
Publication date: 2012-07-26
Also published as: CN102256285B; CN102256285A

Abstract

An automatic drive test system in a mobile communications network includes an automatic drive test system server and a terminal for a remote automatic test and data transmission, and a control protocol with a TCP/IP based Socket communications interface is employed between the server and the terminal to realize remote control and data transmission via the radio communications network and the Internet; the control protocol includes in turn performed predetermined steps of logging on, identity validation, time synchronization, obtaining configuration information and uploading data etc.; and the terminal for remote automatic test and data transmission automatically performs and uploads test data after obtaining a test plan configuration. Engineers are allowed to modify configurations and test plans of multiple terminals for remote automatic test and data transmission in a uniform manner, and distribute them to multiple terminals for remote automatic test and data transmission in a uniform manner, so that the complete separation of operation and test is realized, labor costs of professional engineers are greatly saved, and the production efficiency is effectively improved.

Description

Description A mobile communication network automatic road test system

Technical field

The invention relates to a wireless network test device, in particular to an automatic road test system for a mobile communication network.

Background technique

The traditional road test of the mobile communication network is independent of each other. The data analysis needs to be performed at each independent test point or the data must be summarized after the test is completed. It is not only inconvenient but also can not directly and effectively reproduce the network service quality. In view of the shortcomings of traditional road test, the automatic drive test system can link all test terminals from points and faces, and better simulate the experience of network service and test network quality from the user's point of view. The automatic road test system of the mobile communication network can automatically monitor the overall quality of the entire mobile communication network in a large-scale, uninterrupted, unattended manner, which is incomparable with the traditional road test.

However, the existing automatic road test instrument terminal performs various test tasks according to the plan stored in the device, and the test task may change during the automatic road test instrument terminal test process. At this point, the engineer must modify the test plan stored inside the automatic drive test instrument terminal in order to proceed with the test. At this time, the engineer needs to connect to the automatic road test instrument terminal, and modify the test plan through the tool at the automatic road test instrument terminal.

The main shortcomings and shortcomings of this method of modifying the test plan are as follows:

When it is necessary to test different networks or change the test content, the engineer needs to manually connect with the automatic drive test instrument terminal before the test plan can be modified. Secondly, the engineer cannot make multiple modifications to the automatic test instrument terminal, and must be one after another. The modified test plan of the station, so that the more the number of automatic road test instrument terminals, the lower the efficiency of this modification.

Summary of the invention

In view of these shortcomings and shortcomings, the present invention proposes a novel mobile communication network automatic road test system, which realizes various behaviors of remotely controlling an automatic road test terminal through a control protocol, and can remotely modify the configuration and modify the test plan.

The technical solution adopted by the present invention can be described as:

A mobile communication network β-path test system, comprising a dynamic road test system server and a remote G-motion test and data transmission terminal, wherein the automatic drive test system server provides a web page-based management platform for testers to centrally formulate, modify, Storing and issuing a test plan configuration for the remote automatic test and data transmission terminal, the automatic test system server and the remote automatic test and data transmission terminal adopt a TCP/IP-based Socket communication interface control protocol through wireless communication The network and the Internet implement remote control and data transmission, and the control protocol includes pre-defined steps such as login, identity verification, time synchronization, acquisition of configuration information, and uploading data, and the remote automatic test and data transmission terminal obtains a test plan. Automatically execute and upload test data after configuration.

As an improvement of the above technical solution, the control protocol adopts a coding method in a text format. As an improvement of the above technical solution, the command interaction of the control protocol is initiated by the client, and the server returns "response".

As an improvement of the above technical solution, the test plan configuration includes - information of the test plan itself: terminal machine number, last update time;

Corresponding front-end machine information: terminal machine number, name, type, module information, wherein the module information includes the module number and the module type;

Data server information: IP address and port;

Wireless data communication module configuration information: Modem module number, Modem dialing information; Test geographic scope: Test scope defined by multiple closures consisting of latitude and longitude points; specific test configuration information for each module: module number, test period, number of tests, and test service; Other configuration information: Uninterruptible power supply information , SMS alarm receiving number and speed limit. As an improvement of the technical solution of the tenth, the test plan configuration adopts an XML format, and the coding mode is UTF-8.

As an improvement of the above technical solution, the remote automatic test and data transmission terminal may be one or more according to the size of the test range and the task plan.

As an improvement of the above technical solution, the remote automatic test and data transmission terminal comprises a remote control module, a wireless data communication module, a GPS module, and a mobile phone test terminal module, and an uninterruptible power supply module.

As an improvement of the above technical solution, the wireless data communication module (22) may be CDMA IS 95/IS 2000 (1X) / EVDO, GSM / GPRS / EDGE / WCDMA / HSPA +, TD - SCDMA / HSPA +, WiFi wireless Data communication module.

As an improvement of the above technical solution, the mobile phone test terminal module (24) may be one or more GSM/GPRS/EDGE, CDMA/1X/EVD0, WCDMA/HSPA+ or TD-SCDMA/HSPA+ network test modules.

The beneficial effects of the present invention are that the automatic road test system proposed by the present invention provides a web user interface, through which the engineer can uniformly modify the configuration and test plan of multiple remote automatic test and data transmission terminals, and can unify the same. Issued to multiple remote automatic test and data transmission terminals;

Through the control protocol proposed by the invention, the automatic road test system realizes complete separation of operation and test, which greatly saves the labor cost of professional engineers;

Through the control protocol proposed by the invention, the automatic road test system saves a large amount of time for independently configuring the remote automatic test and data transmission terminal, and greatly improves the work efficiency;

The control protocol in the present invention adopts a text format instead of a binary, which is convenient for research and development and related personnel to read and understand;

The control protocol in the invention has high openness and is convenient for other companies to use;

The control protocol in the present invention supports cross-platform use, and supports Windows, Linux, and Windows.

Mobi le, Symbian, Android and other platforms;

The control protocol in the present invention supports independent control of multiple devices in a terminal device:

The control protocol in the present invention has high flexibility and is convenient for expansion and modification:

The data transmission in the control protocol in the present invention is based on the TCP/IP protocol, and the remote automatic test and data transmission terminal can connect to the automatic drive test system server through the Internet network.

The mobile communication network automatic road test system proposed by the invention is a remote automatic test and comprehensive analysis system for mobile communication networks such as GSM/GPRS/EDGE, CDMA/1X/EVD0, WCDMA/HSPA+ and TD-SCDMA/HSPA+, An integrated mobile communication network optimization management platform combining 2G/3G mobile communication terminal baseband chip module, 2G/3G mobile communication protocol stack, GPS signal processing, GIS processing, embedded system, database, remote control and application layer protocol.

The automatic road test system of the mobile communication network proposed by the invention can complete the automatic vehicle test through the remote automatic test and data transmission terminal, and the user can monitor and analyze the terminal test process through the TCP/IP-based network without geographical restrictions. It supports simultaneous testing of multiple CDMA/1X/EVD0, GSM/GPRS/EDGE, WCDMA/HSPA+ and TD-SCDMA/HSPA+ test modules. The terminal uses wireless Modera (CDMA IS 2000 (1X) /EVD0, GSM/GPRS/EDGE WCDMA/HSPA+, TD-SCDMA/HSPA+, WiFi) to automatically transmit test data, separate test and monitoring, and statistical analysis to achieve no one. Automated testing and Remote monitoring with powerful CDMA/GSM/WCDMA/TD-SCDM real-time monitoring and analysis capabilities.

DRAWINGS

FIG. 1 is a schematic diagram of an automatic road test system for a mobile communication network according to the present invention.

Specific embodiment 1

As shown in FIG. 1 , the mobile communication network automatic road test system proposed by the present invention comprises two parts: an automatic road test system server 1 and a remote automatic test and data transmission terminal 2, wherein the automatic drive test system server 1 is set in the test center. It can be regarded as a centralized management platform for testers to centrally formulate, modify, store and issue test plan configuration and control commands for the remote automatic test and data transmission terminal 2, which realizes complete operation and testing. Separation greatly saves the labor costs of professional engineers. In the present invention, the automatic drive test system server 1 has an internet connection and provides a web user operation interface through which the tester can remotely log in to the server through the local area network via the Internet to perform the test plan configuration described above. And terminal control work.

Among them, the test plan configuration planned on the server side and executed on the client side includes:

Information about the test plan itself: terminal machine number, last update time;

Data server information: IP address and port;

Wireless data communication module configuration information: Modem module number, Modern dialing information:

Test geographic scope: Test scope defined by multiple closures consisting of latitude and longitude points; specific test configuration information for each module: module number, test period, number of tests, and test service; Other configuration information: Uninterruptible power supply information , SMS alarm receiving number and speed limit. The test plan is configured in XML format and encoded in UTF-8 for easy understanding and reading by testers.

The remote automatic test and data transmission terminal 2 includes a remote control module 21, a wireless data communication module 22, a GPS module 23, and a mobile phone test terminal module 24, and an uninterruptible power supply module 25. In one system, the remote automatic test and data transmission terminal 2 may be one or more according to the size of the test range according to the size of the test range and the task plan, wherein each remote automatic test and data transmission terminal 2 may include one or A plurality of mobile phone test terminal modules 23, which may be GSM/GPRS/EDGE CDMA/1X/EVD0, WCDMA/HSPA+ and TD-SCDMA/HSPA+ modules.

The wireless data communication module 22 is for remote connection to the automatic drive test system server 1 via a wireless communication network and the Internet, which can use CDMA IS 95/IS 2000 (1X) /EVD0, GSM/GPRS/EDGE/WCD A/HSPA+, TD-SCDMA/HSPA+, WiFi network. The GPS module 23 is used to locate the test location and provide geographic location information.

The automatic drive test system server 1 and the remote automatic test and data transmission terminal 2 use a TCP/IP-based Socket communication interface control protocol to implement remote connection control and data transmission, for convenience of description, wherein the remote C] dynamic test and The data transmission terminal 2 is simply referred to as an RCU (Remote Control Unit), and the automatic drive test system server 1 is simply referred to as a Fleet system server. The control protocol is characterized in that: the control protocol is encoded in a text format, which facilitates research and development and related personnel to read and understand: the TCP/IP connection is a permanent connection, that is, after the connection, unless a network failure occurs or a party is forced to close, otherwise The connection exists directly. During the connection of the RCU to the Fleet system server, the configuration and commands of the server can be accepted at any time. The TCP/IP Socket connection port supports flexible configuration, high openness, convenient for other companies to use, and supports cross- Platform use, support Windows, Linux, Windows Mobile, Symbian, Android and other platforms; control protocol command interaction is RCU initiated "request", the server returns "response"; RCU dials the Internet connection to the Fleet system through the wireless communication network server; After the RCU is connected to the Fleet system server, the steps defined in the automatic drive test system control protocol such as login, authentication, time synchronization, acquisition configuration information, and upload data are sequentially performed. In addition, this protocol has the advantages of high flexibility of control protocol, convenient expansion and modification, and independent control of multi-channel devices in terminal equipment.

The control protocol communication flow between the RCU and the Fleet system server is shown in the following table:

After the connection is successful, the RCU obtains the test plan configuration and performs this plan configuration. In addition, through this control protocol, testers can also issue control commands to the RCU through the Fleet system server, such as upgrading firmware or software.

Through the control protocol proposed by the present invention, the automatic road test system saves a large amount of time for independently configuring the remote automatic test and data transmission terminal, and greatly improves the work efficiency.

Claims

Claim

A mobile communication network automatic road test system, comprising an automatic drive test system server (1) and a remote automatic test and data transfer terminal (2), wherein: the automatic drive test system server (1) Providing a web page-based management platform for testers to centrally formulate, modify, store, and issue test plan configurations for the remote automated test and data transfer terminal (2); the automated drive test system server (1) and remote automated test And the data transmission terminal (2) adopts a TCP/IP-based Socket communication interface control protocol to realize remote control and data transmission through a wireless communication network and the Internet, and the control protocol includes sequential login, identity verification, time synchronization, Pre-defined steps of obtaining configuration information and uploading data; the remote automatic test and data transmission terminal (2) automatically executes the test plan and uploads the test data after obtaining the test plan configuration.

2. The automatic road test system for a mobile communication network according to claim 1, wherein: the control protocol adopts a coding scheme in a text format.

3. The automatic road test system for a mobile communication network according to claim 1, wherein: the command interaction of the control protocol is initiated by the client, and the server returns a "response".

4. The automatic road test system for a mobile communication network according to claim 1, wherein: the test plan configuration comprises:

Data server information: IP address and port;

Wireless data communication module configuration information: Modem module number, Modem dialing information: Test geographic range: Test defined by multiple closures consisting of points expressed in latitude and longitude Scope

Specific test configuration information for each module: module number, test period, number of tests, and test service;

Other configuration information: Uninterruptible power supply information, SMS alarm receiving number, and speed limit.

5. The automatic road test system for a mobile communication network according to claim 1, wherein: the test plan is configured in an XML format, and the coding mode is UTF 8.

6. The automatic road test system for a mobile communication network according to claim 1, wherein: the remote automatic test and data transmission terminal (2) can be one or more according to the size of the test range and the task plan.

7. The automatic road test system for mobile communication network according to claim 1, wherein: the remote automatic test and data transmission terminal (2) comprises a remote control module (21) and a wireless data communication module (22). ), GPS module (23) and mobile phone test terminal module (24), uninterruptible power supply module (25).

8. The automatic road test system for a mobile communication network according to claim 7, wherein: said wireless data communication module (22) can be CDMA IS95/IS 2000 (lX) / EVDO / GSM / GPRS / WCDMA /HSPA+, TD-SCDMA/HSPA+, WiFi wireless data communication module.

9. The automatic road test system for a mobile communication network according to claim 7, wherein: said mobile phone test terminal module (24) may be one or more

GSM/GPRS/EDGE, CDMA/1X/EVD0, WCDMA/HSPA+ or

TD-SCDMA/HSPA+ test module.