CN103701672A

CN103701672A - 230-MHz acquisition terminal telecommunication unit matching compatibility testing method based on SGWM (State grid WiMAX)

Info

Publication number: CN103701672A
Application number: CN201410007071.4A
Authority: CN
Inventors: 祝恩国; 董俐君; 刘宣; 阿辽沙．叶; 刘岩; 张海龙; 闫梓桐
Original assignee: State Grid Corp of China SGCC; China Electric Power Research Institute Co Ltd CEPRI
Current assignee: State Grid Corp of China SGCC; China Electric Power Research Institute Co Ltd CEPRI
Priority date: 2014-01-07
Filing date: 2014-01-07
Publication date: 2014-04-02

Abstract

The invention provides a 230-MHz acquisition terminal telecommunication unit matching compatibility testing method based on SGWM (State grid WiMAX), which comprises the following steps of determining a test project; testing the test project; generating a test report. According to the 230-MHz acquisition terminal telecommunication unit matching compatibility testing method based on the SGWM, the working states of a control pin, a state pin and a communication pin of a 230-MHz acquisition terminal telecommunication unit based on the SGWM are monitored in real time, the working effect of the 230-MHz acquisition terminal telecommunication unit based on the SGWM is tested and verified, and the matching compatibility performance of the 230-MHz acquisition terminal telecommunication unit based on the SGWM is assessed.

Description

The 230 MHz acquisition terminal telecommunication unit coupling compatibility test methods based on SGWM

Technical field

The present invention relates to a kind of method of testing, be specifically related to a kind of 230MHz acquisition terminal telecommunication unit coupling compatibility test method based on SGWM.

Background technology

At present, China is carrying out the construction of power information acquisition system, because the Novel Communication technology based on SGWM is still in the exploitation trial run stage, in system, the coupling of each equipment room compatibility and communication exist many obstacles, have restricted to a great extent the promotion and application of acquisition system.

Based on power information, gather WiMAX(State grid WiMAX, SGWM) 230MHz acquisition terminal telecommunication unit is the communication unit of realizing data communication between 230MHz acquisition terminal and power information acquisition system main website, channeling port is the port of communications, the feature with modulated-analog signal and the inherent mechanism of communicating by letter is the prerequisite that realizes telecommunication.The communication protocol that the interface parameters of the 230MHz acquisition terminal telecommunication unit based on SGWM, communication protocol, communication sequential He Ge producer write voluntarily according to standard will directly affect the work quality of communication unit with the sequential of communicating by letter.Deep propelling along with the construction of power information acquisition system, State Grid Corporation of China has worked out < < Q/GDW1376.3-2013 power consumer power information acquisition system communication protocol the 3rd part: acquisition terminal remote communication module interface protocol > > has carried out standard to acquisition terminal remote interface agreement, therefore need to carry out full test to the coupling compatibility of telecommunication unit.

Summary of the invention

For solve that power information acquisition system is built and running in based on SGWM(power information collection WiMax) the problem of 230MHz acquisition terminal telecommunication unit data communication compatibility, SGWM realizes the function that coupling is compatible, the invention provides a kind of 230MHz acquisition terminal telecommunication unit coupling compatibility test method based on SGWM, the 230MHz acquisition terminal communication unit of Real-Time Monitoring based on SGWM controlled pin, the operating state of status-pin and the pin of communicating by letter, the working effect of the 230MHz acquisition terminal telecommunication unit of testing authentication based on SGWM, the compatible performance of coupling of the 230MHz acquisition terminal telecommunication unit of assessment based on SGWM.

In order to realize foregoing invention object, the present invention takes following technical scheme:

The invention provides a kind of 230MHz acquisition terminal telecommunication unit coupling compatibility test method based on SGWM, said method comprising the steps of:

Step 1: determine test event;

Step 2: test event is tested;

Step 3: generate test report.

In described step 1, test event comprises the UDP application testing of non-transparent mode, the TCP server application testing of the TCP client application of non-transparent mode test, non-transparent mode, the UDP application testing of transparent mode, the TCP server application testing of the test of the TCP client application of transparent mode and transparent mode.

(1) carry out the UDP application testing process of non-transparent mode as follows:

1) APN AT $ MYNETCON=1 is set, " APN ", " CMNET " and GPRS authentication username and password AT $ MYNETCON=1, " USERPWD ", " user, password ", activates the 1st passage AT $ MYNETACT=1,1;

2) No. 2 SOCKET being set is that UDP connects, HEX Mode A T $ MYNETSRV=1, and 2,2,0, " 202.96.134.133:5123 ", is used No. 2 SOCKET AT $ MYNETOPEN=2 that connects, $ MYNETOPEN:2;

3) No. 2 Socket of link receive data MYURCREAD:2, from 2Socket, read 10 data AT MYNETREAD=2,10, MYNETREAD:2, and 10, there are 10 data 1234567890;

4) by linking No. 2 Socket, send 12 byte data AT $ MYNETWRITE=2,12, module is confirmed to send 12 byte data $ MYNETWRITE:2, and 12, with HEX pattern, input 12 byte data ABCDEFGHIJKL;

5) close No. 2 Socket AT $ MYNETCLOSE=2 of link, $ MYNETCLOSE:2, activates passage AT $ MYNETACT=1 No. 1,0.

(2) carry out the TCP client application test process of non-transparent mode as follows:

1) APN AT $ MYNETCON=2 is set, " APN ", " CMNET " and GPRS authentication username and password AT $ MYNETCON=2, " USERPWD ", " None, None ", activates the 2nd passage AT $ MYNETACT=2,1;

2) No. 1 SOCKET being set is that TCP connects, Text Mode AT $ MYNETSRV=2, and 1,0,1, " www.google.com:80 ", is used No. 1 SOCKET AT $ MYNETOPEN=1 that connects, $ MYNETOPEN:1,1460;

3) No. 1 Socket of link receives data MYURCREAD:1, from 1Socket, reads 100 data AT MYNETREAD=1,100, only have the data MYNETREAD:1 of 10 bytes, and 10, data 1234567890 are 31323334353637383930;

4) by No. 1 Socket, send 12 byte data AT MYNETWRITE=1,12. module is confirmed to send 12 byte data MYNETWRITE:1, and 12, it is 4142434445464748494A4B4C that Text Mode is inputted 12 byte ABCDEFGHIJKL;

5) close Socket AT $ MYNETCLOSE=1 No. 1, $ MYNETCLOSE:1, No. 2 passage AT $ MYNETACT=2 of deexcitation, 0.

(3) carry out the TCP server application testing process of non-transparent mode as follows:

1) APN AT $ MYNETCON=1 is set, " APN ", " CMNET " and GPRS authentication username and password AT $ MYNETACT=1,1, activate the 1st passage;

2) fire compartment wall AT $ MYIPFILTER=0,1, " 172.16.23.100 ", " 255.255.255.255 " are set, it is TCP server that No. 2 SOCKET is set, and intercepts 5100 ports, HEX Mode A T $ MYNETSRV=1,2,1,0, " 127.0.0.1:5100 ";

3) use No. 2 SOCKET to intercept AT $ MYNETOPEN=2, $ MYNETOPEN:2, client connects notice $ MYURCCLIENT:1, " 172.16.23.100 ", 31256, accept connection, use the 1st socket, command mode AT $ MYNETACCEPT=1,0,0;

4) No. 1 Socket of link receives data MYURCREAD:1, from 1Socket, reads 10 data AT MYNETREAD=1,10, get 10 data MYNETREAD:1,101234567890;

5) by No. 1 Socket, send 12 byte data AT MYNETWRITE=1,12. module is confirmed to send 12 byte data MYNETWRITE:1, and 12, HEX pattern is inputted 12 byte data ABCDEFGHIJKL;

6) that closes No. 2 Socket intercepts AT $ MYNETCLOSE=2, closes No. 1 $ MYNETCLOSE:1 of link, closes and intercepts Socket $ MYNETCLOSE:2, No. 1 passage AT $ MYNETACT=1 of deexcitation, 0.

(4) carry out the UDP application testing process of transparent mode as follows:

1) APN AT $ MYNETCON=1 is set, " APN ", " CMNET " and GPRS authentication username and password AT $ MYNETCON=1, " USERPWD ", " None, None ", activates the 1st passage AT $ MYNETACT=1,1;

2) use Socket2 sets up the transparent channel AT $ MYNETCREATE=1 of UDP, and 2,2, " 172.18.20.123 ", and 5200,2000, start transparent data transmission CONNECT, input +++, module is returned to OK and is represented to get back to command mode;

3) close Socket AT $ MYNETCLOSE=2 No. 2, $ MYNETCLOSE:2, No. 1 passage AT $ MYNETACT=1 of deexcitation, 0.

(5) carry out the TCP client application test process of transparent mode as follows:

1) APN AT $ MYNETCON=2 is set, " APN ", " CMNET " and GPRS authentication username is set and password AT $ MYNETCON=2, " USERPWD ", " None, None ", activates the 2nd passage AT $ MYNETACT=2,1;

2) use Socket1 sets up the transparent channel AT $ MYNETCREATE=2 of TCP, and 0,1, " 172.18.20.123 ", and 5200,2000, start transparent data transmission CONNECT, input +++, module is returned to OK and is represented to get back to command mode;

3) close Socket AT $ MYNETCLOSE=1 No. 1, $ MYNETCLOSE:1, No. 2 passage AT $ MYNETACT=2 of deexcitation, 0, the No. 2 passage AT $ MYNETACT=2,0.

(6) carry out the TCP server application testing process of transparent mode as follows:

2) fire compartment wall AT $ MYIPFILTER=0,1, " 172.16.23.100 " are set, " 255.255.255.255 ", is used Socket1 to set up the server of TCP, intercepts 5100 port AT $ MYNETCREATE=1,1,1, " 127.0.0.1 ", 5100, client connects notice $ MYURCCLIENT:2, " 172.16.23.100 ", 31256, accept connection, use the 2nd socket, transparent mode AT $ MYNETACCEPT=2,0,1;

3) start transparent data transmission CONNECT, input +++, module is returned to OK and is represented to get back to command mode;

4) that closes No. 1 Socket intercepts AT $ MYNETCLOSE=1, and socket2 closes $ MYNETCLOSE:2, intercepts Socket and closes $ MYNETCLOSE:1, No. 1 passage AT $ MYNETACT=1 of deexcitation, 0.

In described step 3, in acquisition terminal telecommunication unit coupling compatibility test process, show the detailed record of testing progress and test log; After having tested, generate test result, and record test event, conclusion and the analysis of causes.

Compared with prior art, beneficial effect of the present invention is:

1. online detection and the analytic function of acquisition terminal telecommunication unit communication channel and communication protocol have been realized, for testing staff provides intuitive and accurate detection data, figure and integrated detection analysis means, not only be convenient to the analysis of communication performance quantitative and qualitative analysis, and can be used for the failure diagnosis of acquisition terminal telecommunication, for communication errors location and processing provide effective foundation.

2. the coupling of the 230MHz acquisition terminal telecommunication unit based on SGWM compatibility test method can contribute to solve the problem of the 230MHz wireless private network based on SGWM in picking rate, collection used time and power system capacity at present better, further promote the global advantage of 230MHz wireless private network aspect data acquisition, improve fail safe, stability and the reliability of power information transmission, for better meeting actual demand, the quickening of electric power enterprise, advance power information acquisition system and intelligent grid construction that technical support is provided.

Accompanying drawing explanation

Fig. 1 is the 230MHz acquisition terminal telecommunication unit coupling compatibility test method flow chart based on SGWM.

Embodiment

Below in conjunction with accompanying drawing, the present invention is described in further detail.

The invention provides a kind of 230MHz acquisition terminal telecommunication unit coupling compatibility test method based on SGWM, whether the 230MHz acquisition terminal telecommunication unit of test based on SGWM and the communication protocol of 230MHz acquisition terminal meet < < Q/GDW1376.3-2013 power consumer power information acquisition system communication protocol the 3rd part: the requirement of acquisition terminal remote communication module interface protocol > >, meets coupling compatibility test.

Said method comprising the steps of:

Step 1: determine test event;

Step 2: test event is tested;

Step 3: generate test report.

In described step 1, test event comprises the UDP(User Datagram Protocol of non-transparent mode, the TCP server application testing of User Datagram Protocol) the TCP(Transmission Control Protocol of application testing, non-transparent mode, transmission control protocol) client application test, non-transparent mode, the UDP application testing of transparent mode, the TCP server application testing of the test of the TCP client application of transparent mode and transparent mode.

Finally should be noted that: above embodiment is only in order to illustrate that technical scheme of the present invention is not intended to limit, although the present invention is had been described in detail with reference to above-described embodiment, those of ordinary skill in the field are to be understood that: still can modify or be equal to replacement the specific embodiment of the present invention, and do not depart from any modification of spirit and scope of the invention or be equal to replacement, it all should be encompassed in the middle of claim scope of the present invention.

Claims

1. the 230MHz acquisition terminal telecommunication unit based on SGWM mates compatibility test method, it is characterized in that: said method comprising the steps of:

Step 1: determine test event;

Step 2: test event is tested;

Step 3: generate test report.

2. the 230MHz acquisition terminal telecommunication unit based on SGWM according to claim 1 mates compatibility test method, it is characterized in that: in described step 1, test event comprises the UDP application testing of non-transparent mode, the TCP server application testing of the TCP client application of non-transparent mode test, non-transparent mode, the UDP application testing of transparent mode, the TCP server application testing of the test of the TCP client application of transparent mode and transparent mode.

3. the 230MHz acquisition terminal telecommunication unit based on SGWM according to claim 2 mates compatibility test method, it is characterized in that: the UDP application testing process of carrying out non-transparent mode is as follows:

4. the 230MHz acquisition terminal telecommunication unit based on SGWM according to claim 2 mates compatibility test method, it is characterized in that: the TCP client application test process that carries out non-transparent mode is as follows:

5. the 230MHz acquisition terminal telecommunication unit based on SGWM according to claim 2 mates compatibility test method, it is characterized in that: the TCP server application testing process of carrying out non-transparent mode is as follows:

6. the 230MHz acquisition terminal telecommunication unit based on SGWM according to claim 2 mates compatibility test method, it is characterized in that: the UDP application testing process of carrying out transparent mode is as follows:

7. the 230MHz acquisition terminal telecommunication unit based on SGWM according to claim 2 mates compatibility test method, it is characterized in that: the TCP client application test process that carries out transparent mode is as follows:

8. the 230MHz acquisition terminal telecommunication unit based on SGWM according to claim 2 mates compatibility test method, it is characterized in that: the TCP server application testing process of carrying out transparent mode is as follows:

9. the 230MHz acquisition terminal telecommunication unit based on SGWM according to claim 1 mates compatibility test method, it is characterized in that: in described step 3, in acquisition terminal telecommunication unit coupling compatibility test process, show the detailed record of testing progress and test log; After having tested, generate test result, and record test event, conclusion and the analysis of causes.