CN102340804A - Traffic test method and system of global interoperability microwave access system - Google Patents

Abstract

The invention discloses a traffic test method and a system of a global interoperability microwave access system, so as to solve the problem of the prior art that the test scope of a traffic test tool of a WiMAX system is limited. The method comprises the steps that: one or more WiMAX terminals are controlled to carry out WiMAX system access or the data transmission with the tested WiMAX system; and test data is obtained, wherein the test data comprises data related to terminal access performance and/or the data about terminal data transmission performance. The technical scheme of the invention helps to extend the traffic test scope of the WiMAX system and can achieve better test effect.

Description

Telephone traffic testing method and system of worldwide interoperability microwave access system

Technical Field

The invention relates to a telephone traffic test technology in the technical field of wireless mobile communication, in particular to a telephone traffic test method and a telephone traffic test system of a worldwide interoperability microwave access system.

Background

The worldwide interoperability for microwave access WiMAX system is a broadband wireless access metropolitan area network technology and has the characteristics of higher maximum data transmission rate, large capacity and support of service data services with different quality of service (QoS). With the maturity of WiMAX technology and products and the increase of commercial offices, large traffic test of WiMAX system is very important.

At present, a WiMAX system traffic test tool generally uses software to simulate a large number of terminals accessing a system under test, including uplink and downlink signaling processing during the process of accessing the system under test by the terminals, and uplink and downlink data simulation after accessing the system by the terminals. These traffic testing tools are completely a software system built on a single board with a processor and memory to simulate the terminal behavior in software. The telephone traffic tool can only test the software module above the baseband of the tested system, but cannot test the baseband, radio frequency and air wireless signal change, so the test range is limited. In addition, the traffic test tool needs a great deal of development, perfection and maintenance work and has poor portability.

In addition, sometimes, a large number of terminals are directly adopted to perform multi-user test through manual operation, so as to supplement the defects of a pure software large-traffic test tool. However, this method has the disadvantages of complicated environmental maintenance, complicated test operation, and difficulty in counting test result data.

Disclosure of Invention

The invention mainly aims to provide a method and a system for testing telephone traffic of a worldwide interoperability microwave access WiMAX system, so as to solve the problem that the test range of a telephone traffic test tool of the WiMAX system in the prior art is limited.

In order to solve the above problem, according to an aspect of the present invention, a method for testing traffic of a WiMAX system is provided, which includes: controlling one or more WiMAX terminals to access the WiMAX system or transmit data with the tested WiMAX system; test data is obtained, wherein the test data comprises data on terminal access capabilities and/or data on terminal data transmission capabilities.

In order to solve the above problem, according to another aspect of the present invention, there is provided a traffic test system for a WiMAX system, including a test control subsystem, and one or more WiMAX terminals, wherein: the test control subsystem is used for controlling one or more WiMAX terminals to carry out WiMAX system access or data transmission with the WiMAX system to be tested and obtaining test data; the WiMAX terminal is used for carrying out WiMAX system access or data transmission with the tested WiMAX system under the control of the test control subsystem; wherein the test data comprises data on terminal access capabilities and/or data on terminal data transmission capabilities.

According to the technical scheme of the invention, the actual WiMAX terminal is adopted for testing, so that the change of baseband, radio frequency and air wireless signals can be tested, and the testing range is expanded. And the invention adopts a large amount of WiMAX terminals to realize large traffic test, thereby being beneficial to receiving better test effect. The invention also has the following beneficial effects:

by using the technical scheme of the invention, compared with the traditional telephone traffic tool, the test range of the tested system is increased by a baseband and a radio frequency module, and the test effect is greatly enhanced by air interface signal change;

compared with a test terminal simulated by traditional telephone traffic tool software, the invention adopts a real mobile phone terminal, the authenticity of the test terminal is doubtful, the test effect can be improved, the test result is more convincing, and the test terminal is easier to be adopted by a commercial bureau in an external test;

3, the functions required by the client computer and the server computer are simpler, so that the complexity of the software for testing, which runs in the client computer and the server computer, is greatly reduced compared with the traditional large-call tool software, the software version does not need to change along with the tested system, and the development and maintenance workload of the tool is greatly reduced;

and 4, compared with a mode of manually operating a plurality of terminals, a tester centrally controls all the test terminals and the test execution process through the server, and the workload of manual operation is greatly reduced. Therefore, the traffic test through a large number of real terminals has feasibility.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the invention and together with the description serve to explain the invention without limiting the invention. In the drawings:

fig. 1 is a flow chart of a method of traffic testing of a WiMAX system according to an embodiment of the present invention;

fig. 2 is a schematic diagram of one structure of a traffic test system of WiMAX according to an embodiment of the present invention;

FIG. 3 is a diagram illustrating a test environment structure of a WiMAX traffic test case according to an embodiment of the present invention;

FIG. 4 is a schematic diagram of a module framework of server software of a WiMAX traffic test case according to an embodiment of the present invention;

FIG. 5 is a schematic diagram of a module framework of client software of a WiMAX traffic test case according to an embodiment of the present invention; and

fig. 6 is a schematic diagram of a test flow of a WiMAX traffic test example according to an embodiment of the present invention.

Detailed Description

The present invention will be described in detail below with reference to the accompanying drawings in conjunction with embodiments.

In this embodiment, one or more WiMAX terminals are controlled to access the WiMAX wireless communication system to upload or download service data, and test data is collected, thereby implementing a traffic test on the WiMAX wireless communication system. In this embodiment, the WiMAX terminal is controlled using the test control subsystem. The main steps of the test are shown in fig. 1, and fig. 1 is a flowchart of a traffic test method of a WiMAX system according to an embodiment of the present invention. In fig. 1, the test control subsystem is mainly composed of a client computer.

As shown in fig. 1, the method for testing traffic in the WiMAX system according to the embodiment of the present invention mainly includes the following steps:

step S11: the client computer sends a test control instruction to one or more WiMAX terminals. The client computer and the WiMAX terminal may be connected using USB ports. The test control instruction may be used to control the WiMAX terminal to perform various operations in the WiMAX system, such as controlling the WiMAX terminal to initiate access to the WiMAX system, controlling the WiMAX terminal to start releasing, and controlling the WiMAX terminal to modify the frequency point parameters.

Step S12: and the WiMAX terminal carries out the traffic test of the WiMAX system. The traffic mainly includes accessing the WiMAX system and transmitting data to the tested WiMAX system, and one or two of them may be selected during testing.

Step S13: test data is acquired. In this step, test data, mainly data on the access performance of the terminal or data on the data transmission performance of the terminal, is obtained according to the type of traffic being carried out. The data about the access capabilities of the terminal may be, for example, one or several of the following: access success rate, access duration, access times and release times. The data about the data transmission capability of the terminal may be, for example, one or more of the following: flow, downlink flow or uplink flow per second, data transmission delay, and data jitter delay. Other types of test data may also be obtained as required by the test.

As can be seen from the flow of fig. 1, by using an actual WiMAX terminal for testing, baseband, radio frequency, and air wireless signal changes can be tested, thereby expanding the testing range.

In order to improve the test effect, as many WiMAX terminals as possible can be adopted to participate in the test. Since the number of WiMAX terminals to which one computer can connect is limited, in this embodiment, a plurality of client computers may be further provided to increase the number of WiMAX terminals participating in the test. In the following description, the computer is referred to as a server computer and is mainly used for centrally controlling a plurality of client computers. Thus, the test control subsystem is mainly composed of the server computer, and one or more client computers.

Fig. 2 is a schematic diagram of one structure of a traffic test system of WiMAX according to an embodiment of the present invention. The traffic test system of WiMAX shown in fig. 2 includes the test control subsystem, and additionally includes one or more WiMAX terminals. Wherein the server computer 21 may control a plurality of client computers 22, and a plurality of WiMAX terminals may be connected to each client computer 22. As can be seen from fig. 2, if M client computers 22 are controlled at the server computer 21 and N WiMAX terminals 23 are connected to each client computer 22, the total number of WiMAX terminals 23 participating in the test is M × N. In this manner, a large number of WiMAX terminals 23 connected to multiple client computers 22 may participate in the test at the same time, which enables large traffic tests to be developed.

Based on the system shown in fig. 2, test cases may be sent by the server computer 21 to the plurality of client computers 22 at the time of testing, and the testing may be performed under a test command of the server computer. For example, the server computer 21 sends a test command to the client computer 22 to instruct the client computer to start testing, and after receiving the test command, the client controls the WiMAX terminal according to the specific test content in the test case.

The server computer 21 is the centralized control point for the entire test platform: the method comprises the steps of test case editing, statistical display of all clients and terminals, issuing of test commands (starting test, stopping test and the like), and statistics, analysis and display of test results. The test results of all the WiMAX terminals connected to the client computer will be stored on the server computer. The tester can operate the whole test platform on the server computer to perform the telephone traffic test without respectively operating each client computer.

In this embodiment, when performing the traffic test, the test may be specifically performed when the WiMAX terminal uploads the data of the service of the WiMAX system, or may be performed when the WiMAX terminal downloads the data of the service of the WiMAX system. In addition, data about terminal access performance can be acquired when the WiMAX terminal accesses the WiMAX system.

If the service data of the WiMAX system is uploaded by the WiMAX terminal for testing, the client software of the client computer generates application data, or the application data is received from the server computer, the application data can be the service data of the WiMAX system, the client computer sends the data to one or more WiMAX terminals, and the WiMAX terminals transmit the data to the WiMAX system to be tested through wireless signals, usually to a base station in the WiMAX system to be tested. And finally, the system to be tested transmits the data to the server computer. The server computer counts data on the data transmission performance of the terminal.

If the service data of the WiMAX system is downloaded by the WiMAX terminal for testing, the server computer sends the service data to the tested WiMAX system, the tested WiMAX system sends the data to the WiMAX terminal, and the data downloaded by the WiMAX terminal is transmitted to the client computer through the USB interface. The client computer counts data on the data transmission performance of the terminal.

For better understanding of the present invention, an example of traffic testing of a WiMAX system is given below.

The traffic test system in this example comprises:

the client runs client software and has the functions of being responsible for test management of the terminal side, managing test cases, scheduling and executing test tasks according to the test cases, recording test results and carrying out further statistical analysis. In the process of executing the test task, the mobile phone terminal needs to be controlled, including controlling the access and release of the mobile phone terminal, and uploading and downloading application service data. One client can control and manage N terminals. The number of clients required by the large-traffic test environment is determined according to the number of the mobile phone terminals required in common.

The client software consists of a communication control module, a terminal control module, a test execution scheduling module, a case editing management module, an application data client module and a test result statistical module.

And the server runs server software and has the functions of test case editing management, control of all terminals of all clients for testing, application data server providing function and automatic statistical analysis function of test results. The server is the main centralized point for the testing personnel to perform the testing operation. The functions of the system comprise providing a human-computer interface for a tester, providing management of a client and managing all mobile phone terminals on the client. And the tester edits the test case on the server and starts all the clients and all the mobile phone terminals to test.

The server software is composed of a communication control module, a client terminal management module, a case editing management module, an application data server module and a test result statistical analysis module.

Client software and server software are part of the new creative development. The client and the server can be connected through an independent network or not, and all control communication passes through a wireless network of the WiMAX system.

The system also includes existing components: and the mobile phone terminal is connected to and disconnected from the tested system under the control of the server and the client.

This example is described in detail below with reference to fig. 3 to 6.

The connection relationship between the WiMAX traffic test system and the system under test in this example is shown in fig. 3. Fig. 3 is a schematic diagram of a test environment structure of a WiMAX traffic test example according to an embodiment of the present invention. For simplicity, only one client computer and one terminal are shown in the figure, and there may be more than one in the application. The parts in fig. 3 are explained below. In fig. 3, the test system mainly includes a server computer 31, a client computer 32, and a terminal 33.

The server computer 31, which operates on the network side, is a dual network card computer. And the network card is connected to the access gateway through a network cable so as to be connected with the WiMAX system to be tested and used for transmitting application service data after the terminal is accessed, such as UDP messages, TCP messages and the like. The other network card is connected to the client computer 32 through a network cable, or a second network card is not needed, so that the server is connected to the client through the WiMAX wireless system and sends a control test command. The server computer 31 is the centralized control point for traffic testing. The telephone traffic tester sets a telephone traffic test case through the server, controls all clients and all terminals on the clients to test, and can check the test states and test results of all test terminals through the server. These functions of the server computer are implemented by server software.

When the server uses dual network cards, the client computer 32 must have a network card for connecting to the server to transmit the test control command. Otherwise, the client end can have no network card, and all the test control commands are transmitted to the server through the WiMAX wireless system. One client computer 32 may plug in 3 WiMAX wireless network cards. The whole test platform can be configured with N clients according to the test requirements, and the test scale of 3 multiplied by N terminals is achieved.

Terminal 33, a general commercial terminal.

The following description is made of a module framework of server software running in the server computer and client software running in the client computer.

Fig. 4 is a schematic diagram of a module framework of server software of a WiMAX traffic test example according to an embodiment of the present invention. As shown in fig. 4, the module framework of the server software 40 mainly includes a communication control module 41, a test control module 42, a test data analysis and statistics module 43, an application data module 44, and a test case editing module 45.

The communication control module 41: the server is responsible for communication functions with the client, and the main content is the transmission and feedback of test commands and test results between the server and the client. If the server and the client have independent network cards, the independent network card is used for transmitting the test control command, otherwise, the WiMAX wireless system is used.

The test control module 42: and the system is responsible for managing all clients and all terminals of the clients, and providing a human-computer interface for a tester to operate, including configuring a test case, starting or stopping a test and the like.

Test data analysis statistics module 43: and the terminal is responsible for receiving the statistical data of the test results of the terminal sent by the communication control module 41, and performing further statistics, analysis, storage, graph display and the like.

The application data module 44: and is responsible for providing application data server functions, including various types of service data, such as an FTP server, an Http server, a streaming media server, and the like. In the traffic test, the client initiates corresponding application data uploading and downloading after the terminal accesses the WiMAX system according to the test case setting, and the application data module 44 is used to support the function of the server-side service data.

Test case editing module 45: the method is used for setting large-traffic test parameters, editing the use cases, storing the cases into a file form, and transmitting the file form to the client for execution.

Fig. 5 is a schematic diagram of a module framework of client software of a WiMAX traffic test example according to an embodiment of the present invention. As shown in fig. 5, the module framework of the client software 50 mainly includes a communication control module 51, a terminal control module 52, a test scheduling execution module 53, a test result statistics module 54, and an application data module 55.

The communication control module 51: the system is responsible for the communication function with the server side, and the main content is the transmission and feedback of the test command and the test result between the server and the client side. If the server and the client have independent network cards, the independent network card is used for transmitting the test control command, otherwise, the WiMAX wireless system is used.

The terminal control module 52: and is responsible for controlling all operations of the three mobile phone terminals 53, including controlling terminal access, controlling terminal release, controlling terminal modification of frequency point parameters, and the like.

The test schedule execution module 53: the server is responsible for receiving the test cases sent by the server, explaining the test cases and executing the test cases according to the parameters of the test cases. On one hand, the scheduling terminal control module 52 initiates relevant terminal operations, and on the other hand, the scheduling application data module 55 initiates data uploading and downloading after the terminal access is successful.

Test result statistics module 54: and the system is responsible for counting the test results of the client, and comprises the access times, the release times, the access success times, the unit time data flow and the like of the three terminals.

Application data module 55: the client is responsible for applying the functions of the data client, including an FTP client, an Http client, a streaming media client and the like, and is used for uploading and downloading data after the terminal accesses the WiMAX system.

Fig. 6 is a schematic diagram of a test flow of a WiMAX traffic test example according to an embodiment of the present invention. As shown in fig. 6, the process mainly includes the following steps:

step 61: and (4) preparing a test environment. The number of test terminals and client computers needs to be prepared according to the requirement of adopting terminal data in large traffic test. And inserting the test terminal into the USB interface of the client computer. And starting the client program and the server program. And configuring configuration parameters of the client program, including an IP address, a port number and the like of the server. The client automatically establishes a link with the server, and informs the server of the information of the terminals inserted in the client through a special control network, wherein the information comprises the number of the terminals and the MAC address of each terminal. If no special control network exists, the client automatically accesses the control terminal to the tested system, and then notifies the server of the terminal information through the base station.

Step 62: and editing the test case. And editing the test case parameters through an editing test case interface provided by the server-side software according to the requirements of the large traffic test model. The test case parameters comprise access related parameters and parameters related to data uploaded and downloaded after access. And the test case is edited and then is stored in a local file of the server.

And step 63: selecting a terminal to start testing. And selecting a test terminal according to the traffic test requirement, selecting the test case edited in the step 62, and transmitting the test case to the client. The client receives the test case, analyzes the test case, schedules and controls the terminal on the client to start accessing the tested system according to the parameters configured by the test case, and performs data uploading and downloading after successful access, thereby starting the large-traffic test.

Step 64: and reporting the test result and carrying out statistical processing. The client side carries out statistics of access related test results and data related test results of each terminal in real time, reports the statistics to the server in real time, and the server carries out statistical analysis processing on all test results of the whole test platform and stores the test results to a file in real time.

Step 65: and editing a new test case. The above steps 62 to 64 are then repeated.

It will be apparent to those skilled in the art that the modules or steps of the present invention described above may be implemented by a general purpose computing device, they may be centralized on a single computing device or distributed across a network of multiple computing devices, and alternatively, they may be implemented by program code executable by a computing device, such that they may be stored in a memory device and executed by a computing device, and in some cases, the steps shown or described may be performed in an order different than that described herein, or they may be separately fabricated into individual integrated circuit modules, or multiple ones of them may be fabricated into a single integrated circuit module. Thus, the present invention is not limited to any specific combination of hardware and software.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. A telephone traffic test method for worldwide interoperability for microwave access WiMAX system is characterized by comprising the following steps:

controlling one or more WiMAX terminals to access the WiMAX system or transmit data with the tested WiMAX system;

test data is obtained, wherein the test data comprises data on terminal access capabilities and/or data on terminal data transmission capabilities.

2. The traffic test method of claim 1, wherein controlling one or more WiMAX terminals to access the WiMAX system or perform data transmission with the WiMAX system under test comprises:

the server computer sends test cases and test commands to the client computers, and the client computers control the WiMAX terminals according to the test cases and the test commands, wherein each client computer controls one or more WiMAX terminals.

3. The traffic testing method of claim 2,

the data transmission between the WiMAX system and the tested WiMAX system comprises the data of uploading the service of the WiMAX system to the tested WiMAX system;

before the data transmission with the tested WiMAX system, the method further comprises the following steps: the client computer sends the data to the WiMAX terminal;

before the acquiring the test data, the method further comprises: the WiMAX system under test sends the data to the server computer;

the acquiring of the test data comprises: the server computer counts data on the data transmission performance of the terminal.

4. The traffic testing method of claim 2,

the data transmission between the WiMAX system to be tested comprises data of downloading the service of the WiMAX system from the WiMAX system to be tested;

before the data transmission with the tested WiMAX system, the method further comprises the following steps: the server computer sends the data to the WiMAX system to be tested;

the acquiring of the test data comprises: the client computer counts data regarding terminal data transmission performance.

5. The traffic testing method according to any one of claims 1 to 4,

the data about the terminal access performance comprises one or more of the following data: access success rate, access duration, access times and release times;

the data about the data transmission performance of the terminal comprises one or more of the following data: flow, downlink flow or uplink flow per second, data transmission delay, and data jitter delay.

6. A traffic test system of worldwide interoperability for microwave access WiMAX system is characterized by comprising a test control subsystem and one or more WiMAX terminals, wherein:

the test control subsystem is used for controlling one or more WiMAX terminals to carry out WiMAX system access or data transmission with the WiMAX system to be tested and obtaining test data;

the WiMAX terminal is used for carrying out WiMAX system access or data transmission with the tested WiMAX system under the control of the test control subsystem; wherein,

the test data comprises data on the access capabilities of the terminal and/or data on the data transmission capabilities of the terminal.

7. The traffic testing system of claim 6, wherein the test control subsystem comprises a server computer, and one or more client computers; and is

The server computer is used for sending test cases and test commands to the client computers;

and the client computer is used for controlling the WiMAX terminal according to the test case and the test command.

8. The traffic testing system of claim 7, wherein the client computer and the server computer are connected through the WiMAX system under test or through a network connection independent of the WiMAX system under test.

9. The traffic testing system of claim 6, 7 or 8,

the WiMAX terminal is also used for uploading the service data of the WiMAX system to the tested WiMAX system;

the server computer is further configured to receive the data from the WiMAX system under test.

10. The traffic testing system of claim 6, 7 or 8,

the WiMAX terminal is also used for downloading the service data of the WiMAX system from the tested WiMAX system;

the server computer is also used for sending the data to the WiMAX system to be tested.

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