CN112583668A - Wireless link verification method and terminal - Google Patents

Abstract

The invention provides a wireless link verification method and a terminal, which are used for acquiring standard data which are acquired by standard equipment and connected with each peripheral site, wherein a plurality of peripheral sites form a peripheral site set; acquiring to-be-detected data which is acquired by to-be-detected equipment and connected with a preparation station, judging whether the preparation station belongs to the surrounding station set, if so, taking the standard data which is connected with the standard equipment and the preparation station as comparison data, judging whether a difference value between the comparison data and the to-be-detected data is within a total threshold range, and if so, outputting the wireless link state of the to-be-detected equipment to be normal; the invention sets the qualified product which passes the detection as the standard equipment, connects the standard equipment and the equipment to be detected to the same station, if the difference value of the standard equipment and the equipment to be detected is within the preset range, the wireless link of the equipment to be detected is normal, no special equipment is needed, and the production cost is saved.

Description

Wireless link verification method and terminal

Technical Field

The present invention relates to the field of wireless detection, and in particular, to a wireless link verification method and a terminal.

Background

The wireless equipment complete machine needs to complete the detection of a link before leaving a factory so as to ensure the yield, a special testing instrument needs to be used for testing the physical link of the wireless equipment complete machine at present, the testing instrument simulates station signals of different frequency bands in the testing process to enable the wireless equipment to be tested to be connected, after the wireless equipment is connected with the testing instrument, whether the transmitting signal of the wireless equipment meets the use standard or not is judged through the instrument, meanwhile, the wireless equipment feeds back the received signal strength to the instrument, and the receiving sensitivity of the instrument automatic testing equipment is enabled. But the special test instrument has high use cost and has larger burden on common small and medium-sized assembly manufacturers.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: a wireless link verification method and a terminal are provided to realize low-cost wireless link detection.

In order to solve the technical problems, the invention adopts a technical scheme that:

a method of wireless link authentication comprising the steps of:

s1, acquiring standard data which are acquired by standard equipment and connected with each surrounding site, and forming a surrounding site set by a plurality of surrounding sites;

s2, acquiring data to be tested, which are acquired by equipment to be tested and are connected with a preparation site, judging whether the preparation site belongs to the surrounding site set, and if so, executing S3;

and S3, taking the standard data connected with the standard equipment and the preparation station as comparison data, judging whether the difference value between the comparison data and the data to be detected is within a total threshold range, and if so, outputting that the wireless link state of the equipment to be detected is normal.

In order to solve the technical problem, the invention adopts another technical scheme as follows:

a wireless link authentication terminal comprising a memory, a processor and a computer program stored on the memory and executable on the processor, the processor implementing the following steps when executing the computer program:

s1, acquiring standard data which are acquired by standard equipment and connected with each surrounding site, and forming a surrounding site set by a plurality of surrounding sites;

s2, acquiring data to be tested, which are acquired by equipment to be tested and are connected with a preparation site, judging whether the preparation site belongs to the surrounding site set, and if so, executing S3;

and S3, taking the standard data connected with the standard equipment and the preparation station as comparison data, judging whether the difference value between the comparison data and the data to be detected is within a total threshold range, and if so, outputting that the wireless link state of the equipment to be detected is normal.

The invention has the beneficial effects that: setting standard equipment, wherein the standard equipment is a qualified product which passes detection, acquiring standard data through the connection of the standard equipment and each peripheral station, acquiring to-be-detected data acquired by the connection of the to-be-detected equipment and a preparation station, if the preparation station connected with the to-be-detected equipment belongs to a peripheral station set, comparing the acquired standard data with the data acquired when the preparation station is connected, and if the difference value of the acquired standard data and the data is within a preset range, indicating that a wireless link of the to-be-detected equipment is normal; the wireless link of the standard equipment is normal, the data acquired by connecting the standard equipment with a station is compared with the data acquired by the equipment to be tested connected with the same station, the influence of connecting different stations on the test result is eliminated, the standard equipment provides a judgment standard for the relevant data of the equipment to be tested, special equipment is not needed, and the production cost is saved.

Drawings

Fig. 1 is a flowchart illustrating steps of a method for verifying a wireless link according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a wireless link authentication terminal according to an embodiment of the present invention;

FIG. 3 is a schematic flow chart of standard data acquisition by standard equipment according to an embodiment of the present invention;

fig. 4 is a schematic flow chart of acquiring data to be tested by a device to be tested according to an embodiment of the present invention;

fig. 5 is a schematic flowchart of a process of determining a wireless link status of a device under test according to an embodiment of the present invention;

description of reference numerals:

1. a wireless link authentication terminal; 2. a processor; 3. a memory.

Detailed Description

In order to explain technical contents, achieved objects, and effects of the present invention in detail, the following description is made with reference to the accompanying drawings in combination with the embodiments.

Referring to fig. 1 and fig. 3 to 5, a method for verifying a wireless link includes the steps of:

s1, acquiring standard data which are acquired by standard equipment and connected with each surrounding site, and forming a surrounding site set by a plurality of surrounding sites;

s2, acquiring data to be tested, which are acquired by equipment to be tested and are connected with a preparation site, judging whether the preparation site belongs to the surrounding site set, and if so, executing S3;

and S3, taking the standard data connected with the standard equipment and the preparation station as comparison data, judging whether the difference value between the comparison data and the data to be detected is within a total threshold range, and if so, outputting that the wireless link state of the equipment to be detected is normal.

From the above description, the beneficial effects of the present invention are: setting standard equipment, wherein the standard equipment is a qualified product which passes detection, acquiring standard data through the connection of the standard equipment and each peripheral station, acquiring to-be-detected data acquired by the connection of the to-be-detected equipment and a preparation station, if the preparation station connected with the to-be-detected equipment belongs to a peripheral station set, comparing the acquired standard data with the data acquired when the preparation station is connected, and if the difference value of the acquired standard data and the data is within a preset range, indicating that a wireless link of the to-be-detected equipment is normal; the wireless link of the standard equipment is normal, the data acquired by connecting the standard equipment with a station is compared with the data acquired by the equipment to be tested connected with the same station, the influence of connecting different stations on the test result is eliminated, the standard equipment provides a judgment standard for the relevant data of the equipment to be tested, special equipment is not needed, and the production cost is saved.

Further, the S1 specifically includes:

acquiring standard data which is acquired by standard equipment and connected with each peripheral site, wherein the standard data comprises standard connection data and standard transmission data, and a plurality of peripheral sites form a peripheral site set;

the standard connection data is obtained by collecting first preparation connection data for multiple times and calculating the average value of the first preparation connection data after the standard equipment is connected with a single surrounding station;

the S2 specifically includes:

acquiring to-be-detected data which is acquired by to-be-detected equipment and connected with a preparation station, wherein the to-be-detected data comprises to-be-detected connection data and to-be-detected transmission data;

the connection data to be detected is obtained by acquiring second preparation connection data for multiple times and calculating the average value of the second preparation connection data after the equipment to be detected is connected with the preparation station;

the S3 specifically includes:

acquiring the standard connection data and the standard transmission data of the standard equipment connected with the preparation site as comparison connection data and comparison transmission data respectively;

comparing the connection data to be detected with the comparison connection data to obtain a first difference value;

comparing the transmission data to be detected with the comparison transmission data to obtain a second difference value;

and if the first difference value is within a first threshold range and the second difference value is within a second threshold range, outputting that the wireless link state of the equipment to be tested is normal.

According to the description, the connection data and the transmission data obtained by connecting the standard equipment and the equipment to be detected with the same station are compared, the wireless connection can be detected from two aspects of connection stability and connection quality, and the finally obtained detection result is more real and reliable.

Further, the S2 further includes:

otherwise, acquiring the site information of the preparation site, and sending the site information to the standard equipment, so that the standard equipment can be connected with the preparation site to acquire the standard data corresponding to the preparation site.

As can be seen from the above description, if the preparation site connected to the device to be tested is not in the peripheral site set, the site information of the preparation site is obtained and sent to the standard device, so that the standard device establishes a connection with the preparation site through the site information to obtain standard data when the standard device is connected to the preparation site as reference data, the standard data obtained by the standard device can be continuously expanded, and the situation that the wireless link state of the device to be tested cannot be determined due to lack of comparative data in the data to be tested is avoided.

Further, the S3 further includes:

otherwise, outputting the wireless link state of the equipment to be tested as abnormal.

As can be seen from the above description, since the standard device is a normal device passing the detection, if the difference between the data to be detected collected by the device to be detected and the standard data collected by the standard device is too large, it indicates that the difference between the corresponding parameters of the device to be detected and the standard device is too large, and it can be easily estimated that the wireless link state of the device to be detected is abnormal, and at this time, a corresponding prompt is performed, which can prompt the manual review or marking operation.

Further, the standard connection data comprises standard signal strength;

the standard transmission data comprises standard uploading/downloading speed and standard ping packet time delay;

the connection data to be tested comprises the signal strength to be tested;

and the transmission data to be tested comprises the uploading/downloading speed to be tested and the ping packet time delay to be tested.

As can be seen from the above description, the transmission data includes the signal strength and the ping packet delay, the signal strength is verified first, so that the influence of the subsequent data acquisition error on the reliability of the final judgment result due to unstable connection is avoided, and the signal receiving and transmitting performance of the device to be tested is verified by comparing the ping packet delay with the file uploading/downloading rate.

Referring to fig. 2, a wireless link authentication terminal includes a memory, a processor, and a computer program stored in the memory and executable on the processor, wherein the processor executes the computer program to implement the following steps:

s1, acquiring standard data which are acquired by standard equipment and connected with each surrounding site, and forming a surrounding site set by a plurality of surrounding sites;

s2, acquiring data to be tested, which are acquired by equipment to be tested and are connected with a preparation site, judging whether the preparation site belongs to the surrounding site set, and if so, executing S3;

and S3, taking the standard data connected with the standard equipment and the preparation station as comparison data, judging whether the difference value between the comparison data and the data to be detected is within a total threshold range, and if so, outputting that the wireless link state of the equipment to be detected is normal.

The invention has the beneficial effects that: setting standard equipment, wherein the standard equipment is a qualified product which passes detection, acquiring standard data through the connection of the standard equipment and each peripheral station, acquiring to-be-detected data acquired by the connection of the to-be-detected equipment and a preparation station, if the preparation station connected with the to-be-detected equipment belongs to a peripheral station set, comparing the acquired standard data with the data acquired when the preparation station is connected, and if the difference value of the acquired standard data and the data is within a preset range, indicating that a wireless link of the to-be-detected equipment is normal; the wireless link of the standard equipment is normal, the data acquired by connecting the standard equipment with a station is compared with the data acquired by the equipment to be tested connected with the same station, the influence of connecting different stations on the test result is eliminated, the standard equipment provides a judgment standard for the relevant data of the equipment to be tested, special equipment is not needed, and the production cost is saved.

Further, the S1 specifically includes:

acquiring standard data which is acquired by standard equipment and connected with each peripheral site, wherein the standard data comprises standard connection data and standard transmission data, and a plurality of peripheral sites form a peripheral site set;

the standard connection data is obtained by collecting first preparation connection data for multiple times and calculating the average value of the first preparation connection data after the standard equipment is connected with a single surrounding station;

the S2 specifically includes:

acquiring to-be-detected data which is acquired by to-be-detected equipment and connected with a preparation station, wherein the to-be-detected data comprises to-be-detected connection data and to-be-detected transmission data;

the connection data to be detected is obtained by acquiring second preparation connection data for multiple times and calculating the average value of the second preparation connection data after the equipment to be detected is connected with the preparation station;

the S3 specifically includes:

acquiring the standard connection data and the standard transmission data of the standard equipment connected with the preparation site as comparison connection data and comparison transmission data respectively;

comparing the connection data to be detected with the comparison connection data to obtain a first difference value;

comparing the transmission data to be detected with the comparison transmission data to obtain a second difference value;

and if the first difference value is within a first threshold range and the second difference value is within a second threshold range, outputting that the wireless link state of the equipment to be tested is normal.

According to the description, the connection data and the transmission data obtained by connecting the standard equipment and the equipment to be detected with the same station are compared, the wireless connection can be detected from two aspects of connection stability and connection quality, and the finally obtained detection result is more real and reliable.

Further, the S2 further includes:

otherwise, acquiring the site information of the preparation site, and sending the site information to the standard equipment, so that the standard equipment can be connected with the preparation site to acquire the standard data corresponding to the preparation site.

As can be seen from the above description, if the preparation site connected to the device to be tested is not in the peripheral site set, the site information of the preparation site is obtained and sent to the standard device, so that the standard device establishes a connection with the preparation site through the site information to obtain standard data when the standard device is connected to the preparation site as reference data, the standard data obtained by the standard device can be continuously expanded, and the situation that the wireless link state of the device to be tested cannot be determined due to lack of comparative data in the data to be tested is avoided.

Further, the S3 further includes:

otherwise, outputting the wireless link state of the equipment to be tested as abnormal.

As can be seen from the above description, since the standard device is a normal device passing the detection, if the difference between the data to be detected collected by the device to be detected and the standard data collected by the standard device is too large, it indicates that the difference between the corresponding parameters of the device to be detected and the standard device is too large, and it can be easily estimated that the wireless link state of the device to be detected is abnormal, and at this time, a corresponding prompt is performed, which can prompt the manual review or marking operation.

Further, the standard connection data comprises standard signal strength;

the standard transmission data comprises standard uploading/downloading speed and standard ping packet time delay;

the connection data to be tested comprises the signal strength to be tested;

and the transmission data to be tested comprises the uploading/downloading speed to be tested and the ping packet time delay to be tested.

As can be seen from the above description, the transmission data includes the signal strength and the ping packet delay, the signal strength is verified first, so that the influence of the subsequent data acquisition error on the reliability of the final judgment result due to unstable connection is avoided, and the signal receiving and transmitting performance of the device to be tested is verified by comparing the ping packet delay with the file uploading/downloading rate.

Referring to fig. 1, a first embodiment of the present invention is:

a method of wireless link authentication comprising the steps of:

s1, acquiring standard data which are acquired by standard equipment and connected with each surrounding site, and forming a surrounding site set by a plurality of surrounding sites;

in this embodiment, S1 specifically includes: acquiring standard data which is acquired by standard equipment and connected with each peripheral site, wherein the standard data comprises standard connection data and standard transmission data, and a plurality of peripheral sites form a peripheral site set; the standard connection data is obtained by collecting first preparation connection data for multiple times and calculating the average value of the first preparation connection data after the standard equipment is connected with a single surrounding station;

in an alternative embodiment, the standard connection data comprises standard signal strength, and the standard transmission data comprises standard ping packet delay and standard upload/download rate; the connection data to be tested comprises the signal strength to be tested, and the transmission data to be tested comprises ping packet time delay and uploading/downloading speed to be tested;

s2, acquiring data to be tested, which are acquired by equipment to be tested and are connected with a preparation site, judging whether the preparation site belongs to the surrounding site set, and if so, executing S3;

otherwise, acquiring site information of the prepared site, and sending the site information to the standard equipment, so that the standard equipment can be connected with the prepared site to acquire standard data corresponding to the prepared site;

in this embodiment, S2 specifically includes: acquiring to-be-detected data which is acquired by to-be-detected equipment and connected with a preparation station, wherein the to-be-detected data comprises to-be-detected connection data and to-be-detected transmission data; the connection data to be detected is obtained by acquiring second preparation connection data for multiple times and calculating the average value of the second preparation connection data after the equipment to be detected is connected with the preparation station;

s3, taking the standard data connected with the standard equipment and the preparation station as comparison data, judging whether the difference value between the comparison data and the data to be detected is within a total threshold range, and if so, outputting the wireless link state of the equipment to be detected as normal; otherwise, outputting the wireless link state of the equipment to be tested as abnormal;

in this embodiment, S3 specifically includes: acquiring the standard connection data and the standard transmission data of the standard equipment connected with the preparation site as comparison connection data and comparison transmission data respectively; comparing the connection data to be detected with the comparison connection data to obtain a first difference value; comparing the transmission data to be detected with the comparison transmission data to obtain a second difference value; if the first difference value is within a first threshold range and the second difference value is within a second threshold range, outputting that the wireless link state of the equipment to be tested is normal;

in an optional implementation manner, for a standard device, a period is set to perform data re-acquisition, a first newly-acquired standard data is compared with a second previously-acquired standard data, if a first difference value between the first standard data and the second standard data exceeds a first threshold value, the second standard device is acquired to be connected with a wireless network which is the same as the standard device, a third standard data is acquired, the third standard data and the first standard data are compared, if the difference value between the third standard data and the first standard data exceeds a second threshold value, the wireless link state of the standard device is abnormal, the standard device is marked as an abnormal standard device and is sent for maintenance, and if not, the network state is not good; wherein different first or second thresholds may be set for different types of standard data.

Referring to fig. 3 to 5, a second embodiment of the present invention is:

the wireless link verification method is applied to an actual scene:

after the wireless equipment is assembled, the wireless link of the equipment to be tested is required to verify whether the wireless connection function and the wireless connection performance of the equipment are normal or not, the wireless equipment to be tested is powered on, and an automatic test program is burned and started;

s1, acquiring standard data which are acquired by standard equipment and connected with each surrounding site, and forming a surrounding site set by a plurality of surrounding sites;

specifically, referring to fig. 3, the standard device is a device with a normal wireless link, the standard device scans and obtains information of surrounding stations, and the surrounding stations with good coverage of connection signals obtain standard data; in the process of obtaining standard data, connecting with a surrounding station for multiple times to obtain a plurality of first prepared signal strengths and first prepared ping packet time delays, and after an optimal value and a worst value are removed, averaging the plurality of first prepared signal strengths and the first prepared ping packet time delays to obtain the standard signal strengths and the standard ping packet time delays; carrying out a file uploading/downloading rate test once to obtain a standard uploading/downloading rate, and sending standard signal intensity, standard ping packet time delay and standard uploading/downloading data as standard data;

s2, acquiring data to be tested, which are acquired by equipment to be tested and are connected with a preparation site, judging whether the preparation site belongs to the surrounding site set, and if so, executing S3; otherwise, acquiring site information of the prepared site, and sending the site information to the standard equipment, so that the standard equipment can be connected with the prepared site to acquire standard data corresponding to the prepared site;

specifically, referring to fig. 4, the standard device scans and acquires information of nearby sites, and connects a prepared site with good signal coverage to acquire data to be detected; in the process of obtaining data to be detected, connecting the station with the preparation station for multiple times to obtain a plurality of second preparation signal strengths and second preparation ping packet time delays, and after an optimal value and a worst value are removed, averaging the plurality of second preparation signal strengths and the second preparation ping packet time delays to obtain the signal strength to be detected and the ping packet time delay to be detected; carrying out a file uploading/downloading speed test once to obtain an uploading/downloading speed to be tested, and sending the signal strength to be tested, the ping packet time delay to be tested and the uploading/downloading data to be tested as data to be tested;

s3, taking the standard data connected with the standard equipment and the preparation station as comparison data, judging whether the difference value between the comparison data and the data to be detected is within a total threshold range, and if so, outputting the wireless link state of the equipment to be detected as normal; otherwise, outputting the wireless link state of the equipment to be tested as abnormal;

referring to fig. 5, specifically:

s31, acquiring standard signal strength, standard ping packet time delay and standard uploading/downloading speed which are acquired by the connection of the standard equipment and the preparation site, and respectively using the standard signal strength, the standard ping packet time delay and the standard uploading/downloading speed as comparison signal strength, comparison ping packet time delay and comparison uploading/downloading speed;

s32, judging whether a first difference value between the comparison signal strength and the signal strength to be detected is within a first threshold range, if so, executing S33, otherwise, outputting the abnormal wireless link state of the equipment to be detected, and displaying specific signal strength parameters on the equipment to be detected;

in an optional embodiment, the first threshold range is ± 3dB, that is, the signal intensity is normal if the first difference between the comparison signal intensity and the signal intensity to be measured is within ± 3 dB;

s33, judging whether a second difference value between the comparison ping packet time delay and the ping packet time delay to be detected is within a second threshold range, if so, executing S34, otherwise, outputting the abnormal wireless link state of the device to be detected, and displaying specific time delay data on the device to be detected;

in an optional implementation manner, the second threshold range is 5% of the comparison ping packet delay, that is, the absolute value of the second difference between the comparison ping packet delay and the ping packet delay to be detected is within 5% of the comparison ping packet delay, that is, the ping packet delay is normal;

s34, judging whether a third difference value between the uploading/downloading rate and the uploading/downloading rate to be tested is in a third threshold range or not, if so, outputting that the wireless link state of the equipment to be tested is normal, otherwise, outputting that the wireless link state of the equipment to be tested is abnormal, and displaying the specific uploading/downloading rate;

in an optional embodiment, the third threshold range is 5% of the comparison upload/download rate, that is, the absolute value of the third difference between the comparison upload/download rate and the upload/download rate to be tested is within 5% of the comparison upload/download rate, that is, the upload/download rate is normal;

in an optional implementation manner, the threshold range may be finely adjusted according to the to-be-tested data of the to-be-tested device acquired after the mass test; if the device to be tested does not pass the test in the S3, acquiring the data to be tested again and then executing S3 again, and if the data to be tested acquired for three times continuously do not pass the test, judging that the wireless link state of the device to be tested is abnormal; .

Referring to fig. 2, a third embodiment of the present invention is:

a wireless link authentication terminal 1 comprising a processor 2, a memory 3 and a computer program stored on the memory 3 and operable on the processor 2, the processor 2 implementing the steps of the first or second embodiment when executing the computer program.

In summary, the present invention provides a method and a terminal for verifying a wireless link, in which a standard device is introduced as a standard for determining whether a wireless link parameter of a device to be tested is qualified, the standard device is accessed to a plurality of peripheral stations to obtain standard data connected to different peripheral stations, when the device to be tested is connected to a prepared station, if the prepared station is a peripheral station connected to the standard device, the corresponding standard data can be directly obtained and compared with the data to be tested acquired when the device to be tested is connected to the prepared station, and the performance of the wireless link of the device to be tested can be tested without using a professional instrument; when the wireless link is detected, the data of two dimensions of connection data and transmission data are obtained and compared, the connection data comprise signal intensity, the transmission data comprise uploading/downloading rate and ping packet time delay, comprehensive comparison of wireless link connection is guaranteed, reliability of final wireless link state related conclusion is guaranteed, and when data comparison is carried out, the signal intensity is compared firstly. If the signal strength does not reach the standard, the wireless connection is unstable, the accuracy of the received other data is reduced, firstly, the signal strength is verified, and if the signal strength does not reach the standard, the wireless link state abnormality of the equipment to be detected is directly output, so that the error rate of the judgment result is reduced, and the detection efficiency is improved.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all equivalent changes made by using the contents of the present specification and the drawings, or applied directly or indirectly to the related technical fields, are included in the scope of the present invention.

Claims (10)

1. A method of wireless link authentication, comprising the steps of:

s1, acquiring standard data which are acquired by standard equipment and connected with each surrounding site, and forming a surrounding site set by a plurality of surrounding sites;

s2, acquiring data to be tested, which are acquired by equipment to be tested and are connected with a preparation site, judging whether the preparation site belongs to the surrounding site set, and if so, executing S3;

and S3, taking the standard data connected with the standard equipment and the preparation station as comparison data, judging whether the difference value between the comparison data and the data to be detected is within a total threshold range, and if so, outputting that the wireless link state of the equipment to be detected is normal.

2. The method for verifying a wireless link according to claim 1, wherein the S1 specifically includes:

acquiring standard data which is acquired by standard equipment and connected with each peripheral site, wherein the standard data comprises standard connection data and standard transmission data, and a plurality of peripheral sites form a peripheral site set;

the standard connection data is obtained by collecting first preparation connection data for multiple times and calculating the average value of the first preparation connection data after the standard equipment is connected with a single surrounding station;

the S2 specifically includes:

acquiring to-be-detected data which is acquired by to-be-detected equipment and connected with a preparation station, wherein the to-be-detected data comprises to-be-detected connection data and to-be-detected transmission data;

the connection data to be detected is obtained by acquiring second preparation connection data for multiple times and calculating the average value of the second preparation connection data after the equipment to be detected is connected with the preparation station;

the S3 specifically includes:

acquiring the standard connection data and the standard transmission data of the standard equipment connected with the preparation site as comparison connection data and comparison transmission data respectively;

comparing the connection data to be detected with the comparison connection data to obtain a first difference value;

comparing the transmission data to be detected with the comparison transmission data to obtain a second difference value;

and if the first difference value is within a first threshold range and the second difference value is within a second threshold range, outputting that the wireless link state of the equipment to be tested is normal.

3. The method for verifying wireless link according to claim 1, wherein said S2 further comprises:

otherwise, acquiring the site information of the preparation site, and sending the site information to the standard equipment, so that the standard equipment can be connected with the preparation site to acquire the standard data corresponding to the preparation site.

4. The method for verifying wireless link according to claim 1, wherein said S3 further comprises:

otherwise, outputting the wireless link state of the equipment to be tested as abnormal.

5. A method as claimed in claim 1, wherein the standard connection data comprises standard signal strength;

the standard transmission data comprises standard uploading/downloading speed and standard ping packet time delay;

the connection data to be tested comprises the signal strength to be tested;

and the transmission data to be tested comprises the uploading/downloading speed to be tested and the ping packet time delay to be tested.

6. A wireless link authentication terminal comprising a memory, a processor and a computer program stored on the memory and executable on the processor, wherein the processor when executing the computer program implements the steps of:

s1, acquiring standard data which are acquired by standard equipment and connected with each surrounding site, and forming a surrounding site set by a plurality of surrounding sites;

s2, acquiring data to be tested, which are acquired by equipment to be tested and are connected with a preparation site, judging whether the preparation site belongs to the surrounding site set, and if so, executing S3;

and S3, taking the standard data connected with the standard equipment and the preparation station as comparison data, judging whether the difference value between the comparison data and the data to be detected is within a total threshold range, and if so, outputting that the wireless link state of the equipment to be detected is normal.

7. The radio link authentication terminal according to claim 6, wherein the S1 specifically is:

acquiring standard data which is acquired by standard equipment and connected with each peripheral site, wherein the standard data comprises standard connection data and standard transmission data, and a plurality of peripheral sites form a peripheral site set;

the standard connection data is obtained by collecting first preparation connection data for multiple times and calculating the average value of the first preparation connection data after the standard equipment is connected with a single surrounding station;

the S2 specifically includes:

acquiring to-be-detected data which is acquired by to-be-detected equipment and connected with a preparation station, wherein the to-be-detected data comprises to-be-detected connection data and to-be-detected transmission data;

the connection data to be detected is obtained by acquiring second preparation connection data for multiple times and calculating the average value of the second preparation connection data after the equipment to be detected is connected with the preparation station;

the S3 specifically includes:

acquiring the standard connection data and the standard transmission data of the standard equipment connected with the preparation site as comparison connection data and comparison transmission data respectively;

comparing the connection data to be detected with the comparison connection data to obtain a first difference value;

comparing the transmission data to be detected with the comparison transmission data to obtain a second difference value;

and if the first difference value is within a first threshold range and the second difference value is within a second threshold range, outputting that the wireless link state of the equipment to be tested is normal.

8. The radio link authentication terminal according to claim 6, wherein said S2 further comprises:

otherwise, acquiring the site information of the preparation site, and sending the site information to the standard equipment, so that the standard equipment can be connected with the preparation site to acquire the standard data corresponding to the preparation site.

9. The radio link authentication terminal according to claim 6, wherein said S3 further comprises:

otherwise, outputting the wireless link state of the equipment to be tested as abnormal.

10. A radio link verification terminal according to claim 6, wherein said standard connection data comprises standard signal strength;

the standard transmission data comprises standard uploading/downloading speed and standard ping packet time delay;

the connection data to be tested comprises the signal strength to be tested;

and the transmission data to be tested comprises the uploading/downloading speed to be tested and the ping packet time delay to be tested.

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