CN219960599U - Third party data acquisition platform of home router - Google Patents

Abstract

The utility model relates to a third party data acquisition platform of a home router, which comprises a tested router, wherein the tested router is used for sending or receiving test ping packets; the test platform is used for outputting a test instruction according to a user instruction and collecting test data; the test platform is electrically connected with the router to be tested; the first network device is electrically connected with the test platform; the second network equipment is electrically connected with the test platform and is used for being singly connected with the router to be tested and gradually transmitting test ping packets to the router to be tested in a way of reducing the transmitting power; the third network equipment group is electrically connected with the test platform; the third network equipment group is also used for simultaneously connecting the router to be tested with the first network equipment; and the fourth network equipment group is electrically connected with the test platform and is used for receiving the test ping packet sent by the router to be tested. The utility model has the effect of conveniently completing the signal quality test of routers of different types and collecting test data.

Description

Third party data acquisition platform of home router

Technical Field

The utility model relates to the field of router detection, in particular to a third party data acquisition platform of a home router.

Background

Home router devices represented by new technology applications such as WIFI4/5/6 and GE/2.5GE have been widely used for home subscribers of three major operators. Because various electronic equipment terminals based on WIFI protocol communication are numerous in family life, the wireless signal quality is the testing key point, and the main testing contents of the equipment are wireless signal quality testing and wired signal quality testing.

The wireless signal quality test complies with the TR-398 standard, and has six test dimensions: receiver sensitivity, throughput bandwidth, long-term stability, multi-user interference immunity, multi-user support, signal coverage. The industry-wide test scheme is that a home router manufacturer purchases a high-cost professional WIFI test instrument, a test environment platform is built, an automatic test program is developed through an instrument control interface, and the router is enabled to finish quality test of WIFI signals in a factory mode. The scheme is technically unsupported, the factory mode of the router is research and development confidentiality of a router manufacturer, the third party authorization permission cannot be obtained, the brand and model numbers are numerous, the feasibility of operation implementation is not achieved, and the method is not suitable for a third party test service provider. Therefore, there is a problem in that the third party test service provider is inconvenient to test the signal quality of the home router.

Disclosure of Invention

In order to facilitate detection of different types of router signal quality, the utility model provides a third party data acquisition platform of a home router.

The third party data acquisition platform of the home router provided by the utility model adopts the following technical scheme:

a third party data collection platform for a home router, comprising:

the test platform is used for outputting a test instruction according to a user instruction and collecting test data; the test platform is electrically connected with the router to be tested;

the first network device is electrically connected with the test platform and is used for being singly connected with the router to be tested to receive the test ping packet sent by the router to be tested;

the second network equipment is electrically connected with the test platform and is used for being singly connected with the router to be tested and sending a test ping packet to the router to be tested in a way of gradually reducing the transmitting power;

the third network equipment group is electrically connected with the test platform and is used for being independently connected with the router to be tested and sending a test ping packet to the router to be tested; the third network equipment group is also used for simultaneously connecting a router to be tested with the first network equipment as an interference group;

and the fourth network equipment group is electrically connected with the test platform and is used for receiving the test ping packet sent by the router to be tested.

Through adopting above-mentioned technical scheme, will be surveyed router and test platform electricity earlier, test personnel input test command to test platform, control to be surveyed router and corresponding network equipment and be connected after test platform receives test command, again according to test personnel's operation, accomplish the test and acquire the data after the test to realize the collection to the test data of family router.

Optionally, the first network device is disposed on the same horizontal plane at a first preset distance from the router under test.

By adopting the technical scheme, the first network device is arranged on the same horizontal plane at the first preset distance from the router to be tested, and is used for receiving the test ping packet sent by the router to be tested and forwarding the test ping packet to the test platform, and the distance between the first network device and the router to be tested can be conveniently measured and adjusted on the same horizontal plane; the test ping packet received by the first network device is used to assess the throughput bandwidth and stability of the router under test.

Optionally, the second network device is placed in a shielding box at the same horizontal plane at a second preset distance from the router to be tested.

By adopting the technical scheme, the second network equipment is arranged in the shielding box on the same horizontal plane at a second preset distance from the router to be tested, and is used for gradually reducing the transmitting power to transmit the test ping packet to the router to be tested, and the router to be tested receives the test ping packet and forwards the test ping packet to the test platform, so that the distance between the second network equipment and the router to be tested can be conveniently measured and adjusted on the same horizontal plane; the test ping packets sent by the second network device to the router under test are used to assess the reception sensitivity of the router under test.

Optionally, the third network device group includes a preset number of network devices; when the third network equipment group is used as an interference group, the router to be tested is simultaneously connected with the first network equipment and the third network equipment group in a wireless mode, and sends a test ping packet to the first network equipment.

By adopting the technical scheme, the ping packet received by the third network equipment is used for evaluating the multi-user support of the tested router; when the router to be tested is connected with the first network device and the third network device group in a wireless mode, the test ping packet received by the first network device is used for evaluating multi-user interference resistance of the router to be tested.

Optionally, the frequency bands of each network device in the third network device group when connected with the router to be tested are not identical.

By adopting the technical scheme, when the multi-user support and the multi-user anti-interference performance are tested, the connection modes of different frequency bands are adopted for testing, so that the method can be more fit for practical application scenes.

Optionally, the network devices in the fourth network device group are not less than four, and are respectively disposed in four quadrants at a third preset distance from the router to be tested.

By adopting the technical scheme, the ping packet received by the fourth network equipment is used for evaluating the signal coverage of the tested router.

Optionally, the frequency bands of each network device in the fourth network device group are the same as the frequency band of the router to be tested when the network device is connected.

By adopting the technical scheme, the frequency bands of the ping packets received by the fourth network equipment are the same, so that single variables are controlled, and the test precision is improved.

Optionally, the network device in the fourth network device group is a mobile network device.

By adopting the technical scheme, the fourth network equipment group adopts the mobile equipment, so that the orientation of the network equipment can be conveniently changed.

Optionally, the method further comprises: and the fifth network equipment group is electrically connected with the router to be tested and is used for receiving the test data of the wired connection signal quality of the router to be tested.

By adopting the technical scheme, the fifth network equipment group is used for receiving the test data of the wired connection signal quality of the router to be tested.

Optionally, the method further comprises: the code scanning gun is electrically connected with the test platform and used for scanning the bar code of the router to be tested and obtaining the model of the router to be tested.

Through adopting above-mentioned technical scheme, can acquire the model of the router that is surveyed fast through sweeping the sign indicating number rifle.

In summary, the present utility model includes at least one of the following beneficial technical effects:

1. firstly, electrically connecting a router to be tested with a test platform, inputting a test instruction to the test platform by a tester, controlling the router to be tested to be connected with corresponding network equipment after the test instruction is received by the test platform, and then completing the test and acquiring tested data according to the operation of the tester, thereby realizing the acquisition of the test data of the home router;

2. when the multi-user support and the multi-user anti-interference performance are tested, the connection modes of different frequency bands are adopted for testing, so that the multi-user anti-interference system can be more fit for practical application scenes.

Drawings

Fig. 1 is a system diagram of a third party data collection platform of a home router according to an embodiment of the present utility model.

Reference numerals illustrate: 1. a test platform; 2. a first network device; 3. a second network device; 4. a third network device group; 5. a fourth network device group; 6. a fifth network device group; 7. and the router to be tested.

Detailed Description

In order to make the objects, technical solutions and advantages of the present utility model more apparent, the present utility model will be further described in detail with reference to fig. 1 and the embodiment. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the utility model.

The embodiment of the utility model discloses a third party data acquisition platform of a home router. Referring to fig. 1, a third party data acquisition platform of a home router includes a first network device 2, a second network device 3, a third network device group 4, a fourth network device group 5, a fifth network device group 6, and a test platform 1. The test platform 1 is respectively connected with a router 7 to be tested, a first network device 2, a second network device 3, a third network device group 4, a fourth network device group 5 and a fifth network device group 6. The first network device 2 is placed on the same horizontal plane at a first preset distance from the router 7 to be tested; the second network device 3 is placed in a shielding box of the same horizontal plane at a second preset distance from the router 7 to be tested; the third network device group 4 includes a preset number of network devices; network devices in the fourth network device group 5 are respectively arranged in four quadrants at a third preset distance from the route to be tested; the network devices in the fourth network device group 5 are not less than four; the fifth network device group 6 is electrically connected to the router under test 7. Meanwhile, the system also comprises a code scanning gun which is used for rapidly acquiring the model information of the tested router 7.

In one embodiment, the test platform 1 adopts an X86 server, the native network port of the tested router 7 is connected with the server, two USB interfaces of the server are respectively connected with a wireless network card, and the two wireless network cards are respectively defined as the first network device 2 and the second network device 3. The first network device 2 is placed on the same horizontal plane at a distance of 180cm from the router 7 under test, and the second network device 3 is placed in a shielded box on the same horizontal plane at a distance of 180cm from the router 7 under test. The third USB interface of the server is connected to a hub, and the hub is connected to 6 wireless network cards, which is defined as a third network device group 4. The four mobile devices are respectively connected with the router 7 to be tested in a wireless mode, are respectively arranged on the circumference of the radius of 5 meters taking the router 7 to be tested as the center of a circle, randomly take points on the circular arc of one quadrant, and meanwhile define the four mobile devices as a fourth network device group 5. The wired network interfaces of the tested router 7 are respectively connected with PCIE interfaces of the servers, and the part of the server receiving the signals at this time is defined as a fifth network device group 6.

When the third party data acquisition platform of the home router is used, a tester firstly uses a code scanning gun to scan a two-dimensional code or a bar code at the bottom of the router 7 to be tested, and the model of the router 7 to be tested is obtained; and then, calling a connection protocol stored in a preset database to finish the connection of the tested router and each network device, and then, testing and signal acquisition are performed.

When the throughput bandwidth and stability of the router 7 to be tested are tested, a tester controls the router 7 to be tested to be independently connected with the first network equipment 2 through the test platform 1, continuously sends test ping packets to the first network equipment 2, and forwards the test ping packets to the test platform 1 for storage through the first network equipment 2.

When testing the receiving sensitivity of the router 7 to be tested, a tester controls the router 7 to be tested to be independently connected with the second network device 3 through the test platform 1, controls the second network device 3 to send a test ping packet to the router 7 to be tested, and the occurrence power of the sent test ping packet is gradually reduced, and the router 7 to be tested receives the test ping packet and forwards the test ping packet to the test platform 1 for storage.

When testing the multi-user support of the router 7 to be tested, a tester controls the router 7 to be tested to be respectively connected with each network device in the third network device group 4 through the test platform 1, continuously sends test ping packets to the network devices of the third network device group 4, and at the moment, the frequency bands of the router 7 to be tested when the router 7 to be tested is connected with each network device are not identical, and the third network device group 4 receives the test ping packets and forwards the test ping packets to the test platform 1 for storage.

When testing the multi-user anti-interference performance of the router 7 to be tested, a tester controls the router 7 to be tested through the test platform 1, simultaneously and wirelessly connects the first network device 2 and the third network device group 4, sends a test ping packet to the first network device 2, and then forwards the test ping packet to the test platform 1 for storage through the first network device 2.

When testing the signal coverage of the tested router 7, a tester controls the tested router 7 to be respectively connected with each network device in the fourth network device group 5 through the test platform 1, adjusts the position of each mobile network device in the fourth network device group 5, and forwards the test ping packet received by the third network device group 4 to the test platform 1 for storage.

When testing the quality of the wired connection signal of the router 7 to be tested, the tester controls the router 7 to be tested to send a test ping packet to the fifth network equipment group 6 through the test platform 1, and forwards the test ping packet to the test platform 1.

The implementation principle of the third party data acquisition platform of the home router provided by the embodiment of the utility model is as follows: the router 7 to be tested is electrically connected with the test platform 1, a tester inputs a test instruction to the test platform 1, the test platform 1 receives the test instruction and then controls the router 7 to be tested to be connected with corresponding network equipment, and then the test is completed and the tested data is acquired according to the operation of the tester, so that the test of the home router and the acquisition of the test data are realized.

The foregoing description of the preferred embodiments of the utility model is not intended to limit the scope of the utility model in any way, including the abstract and drawings, in which case any feature disclosed in this specification (including abstract and drawings) may be replaced by alternative features serving the same, equivalent purpose, unless expressly stated otherwise. That is, each feature is one example only of a generic series of equivalent or similar features, unless expressly stated otherwise.

Claims (10)

1. A third party data collection platform for a home router, comprising:

the test platform (1) is used for outputting a test instruction according to a user instruction and collecting test data; the test platform (1) is electrically connected with the router (7) to be tested;

the first network equipment (2) is electrically connected with the test platform (1) and is used for being singly connected with the router (7) to be tested to receive the test ping packet sent by the router (7) to be tested;

the second network equipment (3) is electrically connected with the test platform (1) and is used for being singly connected with the router (7) to be tested and gradually transmitting test ping packets to the router (7) to be tested in a way of reducing transmission power;

the third network equipment set (4) is electrically connected with the test platform (1) and is used for being independently connected with the router (7) to be tested and sending a test ping packet to the router (7) to be tested; the third network equipment group (4) is also used for simultaneously connecting a router (7) to be tested with the first network equipment (2) and is used as an interference group;

and the fourth network equipment group (5) is electrically connected with the test platform (1) and is used for receiving the test ping packet sent by the router (7) to be tested.

2. The home router third party data collection platform of claim 1, wherein: the first network device (2) is placed on the same horizontal plane at a first preset distance from the router (7) under test.

3. The home router third party data collection platform of claim 1, wherein: the second network equipment (3) is arranged in a shielding box with the same horizontal plane at a second preset distance from the router (7) to be tested.

4. The home router third party data collection platform of claim 1, wherein: the third network equipment group (4) comprises a preset number of network equipment; when the third network equipment group (4) is used as an interference group, the router (7) to be tested is connected with the first network equipment (2) and the third network equipment group (4) in a wireless mode, and sends a test ping packet to the first network equipment (2).

5. The home router third party data collection platform as claimed in claim 4, wherein: the frequency bands of all the network devices in the third network device group (4) are not identical when the network devices are connected with the router (7) to be tested.

6. The home router third party data collection platform of claim 1, wherein: network devices in the fourth network device group (5) are not less than four, and are respectively arranged in four quadrants at a third preset distance from the router (7) to be tested.

7. The home router third party data collection platform as claimed in claim 6, wherein: and the frequency bands of all network devices in the fourth network device group (5) are the same as the frequency band of the router (7) to be tested when the network devices are connected.

8. The home router third party data collection platform as claimed in claim 7, wherein: the network devices in the fourth network device group (5) are mobile network devices.

9. The home router third party data collection platform of claim 1, further comprising: and the fifth network equipment group (6) is electrically connected with the router (7) to be tested and is used for receiving the test data of the wired connection signal quality of the router (7) to be tested.

10. The home router third party data collection platform of claim 1, further comprising: the code scanning gun is electrically connected with the test platform (1) and is used for scanning the bar code of the router (7) to be tested and obtaining the model of the router (7) to be tested.