CN111601313A - Unmanned aerial vehicle WiFi connection method and terminal - Google Patents

Abstract

The invention discloses a method and a terminal for connecting WiFi of an unmanned aerial vehicle, which automatically configure the type of the unmanned aerial vehicle to be tested and a WiFi password corresponding to the type of the unmanned aerial vehicle to be tested, acquire all WiFi names searched by a PC end, determine the WiFi name corresponding to the configured type of the unmanned aerial vehicle to be tested from the WiFi names, create corresponding controls, identify the clicked controls, determine the WiFi name and the WiFi password of the unmanned aerial vehicle corresponding to the clicked controls, automatically control the PC end to establish WiFi connection with the corresponding unmanned aerial vehicle according to the determined WiFi name and the WiFi password of the unmanned aerial vehicle, and realize the WiFi connection of the unmanned aerial vehicle only by clicking the controls corresponding to the unmanned aerial vehicle generated in real time, thereby avoiding the time spent by searching the WiFi name of the unmanned aerial vehicle and inputting the password by operating personnel, and rapidly finding and connecting the unmanned aerial vehicle to be tested within 15 seconds by the operating personnel, improving the WiFi connection speed of the unmanned, be favorable to improving unmanned aerial vehicle's efficiency of software testing.

Description

Unmanned aerial vehicle WiFi connection method and terminal

Technical Field

The invention relates to the technical field of unmanned aerial vehicles, in particular to a WiFi connection method and a WiFi connection terminal for an unmanned aerial vehicle.

Background

Unmanned aerial vehicle test is a link in the unmanned aerial vehicle production process. And to the test of unmanned aerial vehicle, generally need the PC end to connect the wiFi of unmanned aerial vehicle through wiFi and test. When carrying out unmanned aerial vehicle wiFi's connection, the operation personnel at first need about 10 ~ 30 seconds the time to seek the wiFi name of the unmanned aerial vehicle that will carry out the test, need about 5 ~ 10 seconds time input password after that, click to connect in order to realize unmanned aerial vehicle wiFi's connection at last to test unmanned aerial vehicle. Need spend nearly one minute time before testing unmanned aerial vehicle and carry out wiFi's connection, it is too slow to unmanned aerial vehicle wiFi's connection speed, this efficiency of software testing that has influenced unmanned aerial vehicle greatly.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: the connection method and the terminal for the WiFi of the unmanned aerial vehicle are provided, so that the connection speed of the WiFi of the unmanned aerial vehicle and the test efficiency of the unmanned aerial vehicle can be improved.

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

a connection method of WiFi of an unmanned aerial vehicle comprises the following steps:

s1, receiving the type of the unmanned aerial vehicle to be tested and the WiFi password corresponding to the type of the unmanned aerial vehicle, wherein the type of the unmanned aerial vehicle corresponds to the WiFi name of the unmanned aerial vehicle;

s2, configuring according to the type of the unmanned aerial vehicle to be tested and the WiFi password corresponding to the unmanned aerial vehicle to be tested;

s3, acquiring all WiFi names searched by the PC terminal, determining WiFi names corresponding to the configured types of the unmanned aerial vehicles to be tested from all the searched WiFi names, and creating corresponding controls, wherein the names of the controls correspond to the WiFi names of the unmanned aerial vehicles;

s4, receiving a click request aiming at the created control, and acquiring a WiFi name and a WiFi password of the unmanned aerial vehicle corresponding to the clicked control according to the click request;

s5, automatically controlling the PC end to establish WiFi connection with the corresponding unmanned aerial vehicle according to the obtained WiFi name and WiFi password of the unmanned aerial vehicle.

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

an unmanned aerial vehicle WiFi connection terminal, comprising a memory, a processor and a computer program stored on the memory and operable on the processor, wherein the processor executes the computer program to implement the following steps:

s1, receiving the type of the unmanned aerial vehicle to be tested and the WiFi password corresponding to the type of the unmanned aerial vehicle, wherein the type of the unmanned aerial vehicle corresponds to the WiFi name of the unmanned aerial vehicle;

s2, configuring according to the type of the unmanned aerial vehicle to be tested and the WiFi password corresponding to the unmanned aerial vehicle to be tested;

s3, acquiring all WiFi names searched by the PC terminal, determining WiFi names corresponding to the configured types of the unmanned aerial vehicles to be tested from all the searched WiFi names, and creating corresponding controls, wherein the names of the controls correspond to the WiFi names of the unmanned aerial vehicles;

s4, receiving a click request aiming at the created control, and acquiring a WiFi name and a WiFi password of the unmanned aerial vehicle corresponding to the clicked control according to the click request;

s5, automatically controlling the PC end to establish WiFi connection with the corresponding unmanned aerial vehicle according to the obtained WiFi name and WiFi password of the unmanned aerial vehicle.

The invention has the beneficial effects that: the unmanned aerial vehicle type that awaits measuring and the wiFi password that corresponds thereof of automatic configuration awaits measuring, acquire all wiFi names that the PC end searched for, confirm the wiFi name that corresponds with the unmanned aerial vehicle type that awaits measuring that disposes from it, and establish corresponding controlling part, discern the controlling part that is clicked, confirm with the wiFi name and the wiFi password of the unmanned aerial vehicle that is clicked the controlling part and corresponds, establish wiFi according to the wiFi name of unmanned aerial vehicle and wiFi password automatic control PC end that confirms and the unmanned aerial vehicle that corresponds and be connected, the operation personnel only need click the controlling part that corresponds with unmanned aerial vehicle that generates in real time and can realize the connection of unmanned aerial vehicle wiFi, the time that the operation personnel cost of looking for the wiFi name of unmanned aerial vehicle and input password has been removed, the operation personnel just can find rapidly and connect the unmanned aerial vehicle that needs the test in 15 seconds.

Drawings

Fig. 1 is a flowchart illustrating steps of a WiFi connection method for an unmanned aerial vehicle according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a connection terminal of a WiFi of an unmanned aerial vehicle according to an embodiment of the present invention;

fig. 3 is a flowchart of steps of implementing WiFi connection of an unmanned aerial vehicle through an upper computer according to an embodiment of the present invention;

description of reference numerals:

1. a WiFi connection terminal of an unmanned aerial vehicle; 2. a memory; 3. a processor.

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, a method for connecting WiFi to an unmanned aerial vehicle includes the steps of:

s1, receiving the type of the unmanned aerial vehicle to be tested and the WiFi password corresponding to the type of the unmanned aerial vehicle, wherein the type of the unmanned aerial vehicle corresponds to the WiFi name of the unmanned aerial vehicle;

s2, configuring according to the type of the unmanned aerial vehicle to be tested and the WiFi password corresponding to the unmanned aerial vehicle to be tested;

s3, acquiring all WiFi names searched by the PC terminal, determining WiFi names corresponding to the configured types of the unmanned aerial vehicles to be tested from all the searched WiFi names, and creating corresponding controls, wherein the names of the controls correspond to the WiFi names of the unmanned aerial vehicles;

s4, receiving a click request aiming at the created control, and acquiring a WiFi name and a WiFi password of the unmanned aerial vehicle corresponding to the clicked control according to the click request;

s5, automatically controlling the PC end to establish WiFi connection with the corresponding unmanned aerial vehicle according to the obtained WiFi name and WiFi password of the unmanned aerial vehicle.

From the above description, the beneficial effects of the present invention are: the unmanned aerial vehicle type that awaits measuring and the wiFi password that corresponds thereof of automatic configuration awaits measuring, acquire all wiFi names that the PC end searched for, confirm the wiFi name that corresponds with the unmanned aerial vehicle type that awaits measuring that disposes from it, and establish corresponding controlling part, discern the controlling part that is clicked, confirm with the wiFi name and the wiFi password of the unmanned aerial vehicle that is clicked the controlling part and corresponds, establish wiFi according to the wiFi name of unmanned aerial vehicle and wiFi password automatic control PC end that confirms and the unmanned aerial vehicle that corresponds and be connected, the operation personnel only need click the controlling part that corresponds with unmanned aerial vehicle that generates in real time and can realize the connection of unmanned aerial vehicle wiFi, the time that the operation personnel cost of looking for the wiFi name of unmanned aerial vehicle and input password has been removed, the operation personnel just can find rapidly and connect the unmanned aerial vehicle that needs the test in 15 seconds.

Further, the S3 further includes:

and if the WiFi name corresponding to the configured type of the unmanned aerial vehicle to be tested is not found from all the searched WiFi names, not creating the control, and returning to the step S3.

According to the above description, if the unmanned aerial vehicle to be tested cannot be found in all searched WiFi names, the unmanned aerial vehicle to be tested returns to search all WiFi names again until the unmanned aerial vehicle to be tested in the searched WiFi names is created corresponding to the control, the connectable unmanned aerial vehicle to be tested can be found in time, and reliable and rapid access to the unmanned aerial vehicle to be tested is guaranteed.

Further, the S5 is preceded by:

and judging whether the wireless network of the PC end is connected or not, if so, disconnecting the existing wireless network connection of the PC end, and executing S5, otherwise, directly executing S5.

According to the unmanned aerial vehicle connection method, before connecting the unmanned aerial vehicle, whether wireless network connection exists at the PC end is judged firstly, if yes, the current wireless network connection is disconnected firstly, then the unmanned aerial vehicle connection operation is executed, otherwise, the unmanned aerial vehicle connection is directly carried out, and the reliability of unmanned aerial vehicle connection is ensured.

Further, the name of the created control is a character corresponding to the last preset digit of the WiFi name of the corresponding unmanned aerial vehicle.

By the above description, the characters corresponding to the last preset digits of the WiFi name of the unmanned aerial vehicle are directly used as the names of the corresponding controls, so that the operating personnel can visually know the unmanned aerial vehicle to be tested, the unmanned aerial vehicle to be tested can be conveniently selected, and the WiFi connection speed of the unmanned aerial vehicle is further improved.

Further, the step S5 is followed by:

and S6, judging whether the WiFi connection between the PC end and the corresponding unmanned aerial vehicle is successful, if not, automatically refreshing, and returning to execute S3.

According to the description, if the WiFi connection between the PC end and the unmanned aerial vehicle is judged to be unsuccessful, the refreshing is automatically carried out, the S3 is returned to be executed, the steps of WiFi signal searching, unmanned aerial vehicle determination, button creation, button click receiving and the like are carried out again, the refreshing is automatically carried out when the connection is continuously unsuccessful until the connection is successful, and the reliability and the efficiency of the connection are improved.

Referring to fig. 2, a connection terminal for WiFi of an unmanned aerial vehicle includes a memory, a processor, and a computer program stored in the memory and executable on the processor, where the processor executes the computer program to implement the following steps:

s1, receiving the type of the unmanned aerial vehicle to be tested and the WiFi password corresponding to the type of the unmanned aerial vehicle, wherein the type of the unmanned aerial vehicle corresponds to the WiFi name of the unmanned aerial vehicle;

s2, configuring according to the type of the unmanned aerial vehicle to be tested and the WiFi password corresponding to the unmanned aerial vehicle to be tested;

s3, acquiring all WiFi names searched by the PC terminal, determining WiFi names corresponding to the configured types of the unmanned aerial vehicles to be tested from all the searched WiFi names, and creating corresponding controls, wherein the names of the controls correspond to the WiFi names of the unmanned aerial vehicles;

s4, receiving a click request aiming at the created control, and acquiring a WiFi name and a WiFi password of the unmanned aerial vehicle corresponding to the clicked control according to the click request;

s5, automatically controlling the PC end to establish WiFi connection with the corresponding unmanned aerial vehicle according to the obtained WiFi name and WiFi password of the unmanned aerial vehicle.

From the above description, the beneficial effects of the present invention are: the unmanned aerial vehicle type that awaits measuring and the wiFi password that corresponds thereof of automatic configuration awaits measuring, acquire all wiFi names that the PC end searched for, confirm the wiFi name that corresponds with the unmanned aerial vehicle type that awaits measuring that disposes from it, and establish corresponding controlling part, discern the controlling part that is clicked, confirm with the wiFi name and the wiFi password of the unmanned aerial vehicle that is clicked the controlling part and corresponds, establish wiFi according to the wiFi name of unmanned aerial vehicle and wiFi password automatic control PC end that confirms and the unmanned aerial vehicle that corresponds and be connected, the operation personnel only need click the controlling part that corresponds with unmanned aerial vehicle that generates in real time and can realize the connection of unmanned aerial vehicle wiFi, the time that the operation personnel cost of looking for the wiFi name of unmanned aerial vehicle and input password has been removed, the operation personnel just can find rapidly and connect the unmanned aerial vehicle that needs the test in 15 seconds.

Further, the S3 further includes:

and if the WiFi name corresponding to the configured type of the unmanned aerial vehicle to be tested is not found from all the searched WiFi names, not creating the control, and returning to the step S3.

According to the above description, if the unmanned aerial vehicle to be tested cannot be found in all searched WiFi names, the unmanned aerial vehicle to be tested returns to search all WiFi names again until the unmanned aerial vehicle to be tested in the searched WiFi names is created corresponding to the control, the connectable unmanned aerial vehicle to be tested can be found in time, and reliable and rapid access to the unmanned aerial vehicle to be tested is guaranteed.

Further, the S5 is preceded by:

and judging whether the wireless network of the PC end is connected or not, if so, disconnecting the existing wireless network connection of the PC end, and executing S5, otherwise, directly executing S5.

According to the unmanned aerial vehicle connection method, before connecting the unmanned aerial vehicle, whether wireless network connection exists at the PC end is judged firstly, if yes, the current wireless network connection is disconnected firstly, then the unmanned aerial vehicle connection operation is executed, otherwise, the unmanned aerial vehicle connection is directly carried out, and the reliability of unmanned aerial vehicle connection is ensured.

Further, the name of the created control is a character corresponding to the last preset digit of the WiFi name of the corresponding unmanned aerial vehicle.

By the above description, the characters corresponding to the last preset digits of the WiFi name of the unmanned aerial vehicle are directly used as the names of the corresponding controls, so that the operating personnel can visually know the unmanned aerial vehicle to be tested, the unmanned aerial vehicle to be tested can be conveniently selected, and the WiFi connection speed of the unmanned aerial vehicle is further improved.

Further, the step S5 is followed by:

and S6, judging whether the WiFi connection between the PC end and the corresponding unmanned aerial vehicle is successful, if not, automatically refreshing, and returning to execute S3.

According to the description, if the WiFi connection between the PC end and the unmanned aerial vehicle is judged to be unsuccessful, the refreshing is automatically carried out, the S3 is returned to be executed, the steps of WiFi signal searching, unmanned aerial vehicle determination, button creation, button click receiving and the like are carried out again, the refreshing is automatically carried out when the connection is continuously unsuccessful until the connection is successful, and the reliability and the efficiency of the connection are improved.

Example one

Referring to fig. 1, a method for connecting WiFi to an unmanned aerial vehicle includes the steps of:

s1, receiving the type of the unmanned aerial vehicle to be tested and the WiFi password corresponding to the type of the unmanned aerial vehicle, wherein the type of the unmanned aerial vehicle corresponds to the WiFi name of the unmanned aerial vehicle;

the unmanned aerial vehicle type to be tested and the corresponding WiFi passwords can be input at one time to realize one-time configuration, namely, a plurality of unmanned aerial vehicles can be configured at one time, and the corresponding unmanned aerial vehicle type and the corresponding WiFi passwords can be input when the corresponding unmanned aerial vehicle is to be tested, namely, one unmanned aerial vehicle is configured at one time;

s2, configuring according to the type of the unmanned aerial vehicle to be tested and the WiFi password corresponding to the unmanned aerial vehicle to be tested;

specifically, the types of the received unmanned aerial vehicles and the corresponding WiFi passwords thereof can be bound in a one-to-one correspondence manner and stored;

s3, acquiring all WiFi names searched by the PC terminal, determining WiFi names corresponding to the configured types of the unmanned aerial vehicles to be tested from all the searched WiFi names, and creating corresponding controls, wherein the names of the controls correspond to the WiFi names of the unmanned aerial vehicles;

specifically, the searched WiFi names may be matched one by one for the stored types of the unmanned aerial vehicle, and if the searched WiFi names are matched, a corresponding control is created;

the control can be dynamically created according to the unmanned aerial vehicle searched in real time;

if the WiFi name corresponding to the type of the configured unmanned aerial vehicle to be tested is not found from all the searched WiFi names, the control is not created, the step returns to S3, the WiFi signals are searched again, and whether the WiFi signals of the unmanned aerial vehicle to be tested exist or not is determined;

the control can be a button, the name of the created button is a character corresponding to the last preset digit of the WiFi name of the unmanned aerial vehicle corresponding to the button, for example, the last three-digit character of the WiFi name can be set as the name of the corresponding button, so that an operator can clearly determine the button corresponding to the unmanned aerial vehicle to be tested at a glance and click the button, and one-key connection is realized;

s4, receiving a click request aiming at the created control, and acquiring a WiFi name and a WiFi password of the unmanned aerial vehicle corresponding to the clicked control according to the click request;

judging whether the wireless network of the PC end is connected, if so, disconnecting the existing wireless network connection of the PC end, and executing S5, otherwise, directly executing S5;

s5, automatically controlling the PC end to establish WiFi connection with the corresponding unmanned aerial vehicle according to the obtained WiFi name and WiFi password of the unmanned aerial vehicle;

s6, judging whether the WiFi connection between the PC end and the corresponding unmanned aerial vehicle is successful, if not, automatically refreshing, and returning to execute S3;

judging whether the connection is successful or not can be automatically judged, and automatically refreshing the connection when the connection is determined to be unsuccessful after the automatic judgment, or judging by an operator, and clicking a refreshing button when the operator judges that the WiFi connection is unsuccessful, so that steps of re-searching, determining the unmanned aerial vehicle, creating a corresponding amount button and the like are realized;

after refreshing, the previously created buttons are removed, the matched unmanned aerial vehicle is determined again based on the searched WiFi name, and corresponding buttons are created or not;

whether the connection is successful or not can be judged after a preset time period after the connection, and if the connection is not successful, refreshing operation is carried out;

in an alternative embodiment, an upper computer may be developed through a C # programming language, and the steps described above can be performed after the upper computer is opened, where a detailed flowchart is shown in fig. 3.

Example two

Referring to fig. 2, a connection terminal 1 for WiFi of an unmanned aerial vehicle includes a memory 2, a processor 3, and a computer program stored in the memory 2 and running on the processor 3, where the processor 3 implements the steps in the first embodiment when executing the computer program.

In summary, the invention provides a method and a terminal for connecting WiFi of an unmanned aerial vehicle, which automatically configure the type of the unmanned aerial vehicle to be tested and the corresponding WiFi password thereof, obtain all WiFi names searched by a PC, determine the WiFi name corresponding to the configured type of the unmanned aerial vehicle to be tested, dynamically create a corresponding control according to the unmanned aerial vehicle determined in real time, identify the clicked control, determine the WiFi name and the WiFi password of the unmanned aerial vehicle corresponding to the clicked control, automatically control the PC to establish WiFi connection with the corresponding unmanned aerial vehicle according to the determined WiFi name and the WiFi password of the unmanned aerial vehicle, and enable an operator to quickly find and connect the unmanned aerial vehicle to be tested by only clicking the control corresponding to the unmanned aerial vehicle generated in real time, thereby avoiding the time spent by the operator for searching the WiFi name of the unmanned aerial vehicle and inputting the password, the WiFi connection speed of the unmanned aerial vehicle is improved, and the unmanned aerial vehicle testing 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 connection method of WiFi of an unmanned aerial vehicle is characterized by comprising the following steps:

s1, receiving the type of the unmanned aerial vehicle to be tested and the WiFi password corresponding to the type of the unmanned aerial vehicle, wherein the type of the unmanned aerial vehicle corresponds to the WiFi name of the unmanned aerial vehicle;

s2, configuring according to the type of the unmanned aerial vehicle to be tested and the WiFi password corresponding to the unmanned aerial vehicle to be tested;

s3, acquiring all WiFi names searched by the PC terminal, determining WiFi names corresponding to the configured types of the unmanned aerial vehicles to be tested from all the searched WiFi names, and creating corresponding controls, wherein the names of the controls correspond to the WiFi names of the unmanned aerial vehicles;

s4, receiving a click request aiming at the created control, and acquiring a WiFi name and a WiFi password of the unmanned aerial vehicle corresponding to the clicked control according to the click request;

s5, automatically controlling the PC end to establish WiFi connection with the corresponding unmanned aerial vehicle according to the obtained WiFi name and WiFi password of the unmanned aerial vehicle.

2. The method of claim 1, wherein the S3 further comprises:

and if the WiFi name corresponding to the configured type of the unmanned aerial vehicle to be tested is not found from all the searched WiFi names, not creating the control, and returning to the step S3.

3. The method of claim 1, wherein the S5 is preceded by:

and judging whether the wireless network of the PC end is connected or not, if so, disconnecting the existing wireless network connection of the PC end, and executing S5, otherwise, directly executing S5.

4. The method of claim 1, wherein the name of the created control is a character corresponding to the last preset number of digits of the WiFi name of the drone corresponding to the control.

5. The method according to any one of claims 1 to 4, wherein the S5 is followed by further comprising:

and S6, judging whether the WiFi connection between the PC end and the corresponding unmanned aerial vehicle is successful, if not, automatically refreshing, and returning to execute S3.

6. An unmanned aerial vehicle WiFi's connection terminal, includes memory, processor and the computer program that stores on the memory and can be run on the processor, its characterized in that, the processor realizes following step when executing the computer program:

s1, receiving the type of the unmanned aerial vehicle to be tested and the WiFi password corresponding to the type of the unmanned aerial vehicle, wherein the type of the unmanned aerial vehicle corresponds to the WiFi name of the unmanned aerial vehicle;

s2, configuring according to the type of the unmanned aerial vehicle to be tested and the WiFi password corresponding to the unmanned aerial vehicle to be tested;

s3, acquiring all WiFi names searched by the PC terminal, determining WiFi names corresponding to the configured types of the unmanned aerial vehicles to be tested from all the searched WiFi names, and creating corresponding controls, wherein the names of the controls correspond to the WiFi names of the unmanned aerial vehicles;

s4, receiving a click request aiming at the created control, and acquiring a WiFi name and a WiFi password of the unmanned aerial vehicle corresponding to the clicked control according to the click request;

s5, automatically controlling the PC end to establish WiFi connection with the corresponding unmanned aerial vehicle according to the obtained WiFi name and WiFi password of the unmanned aerial vehicle.

7. The connection terminal of claim 6, wherein the S3 further comprises:

and if the WiFi name corresponding to the configured type of the unmanned aerial vehicle to be tested is not found from all the searched WiFi names, not creating the control, and returning to the step S3.

8. The connection terminal of claim 6, wherein the S5 is preceded by:

and judging whether the wireless network of the PC end is connected or not, if so, disconnecting the existing wireless network connection of the PC end, and executing S5, otherwise, directly executing S5.

9. The connection terminal of claim 6, wherein the name of the created control is a character corresponding to the last preset number of digits of the WiFi name of the drone corresponding to the control.

10. The connection terminal of WiFi for unmanned aerial vehicle of any of claims 6-9, wherein said S5 is followed by further comprising:

and S6, judging whether the WiFi connection between the PC end and the corresponding unmanned aerial vehicle is successful, if not, automatically refreshing, and returning to execute S3.

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