CN112543948A

CN112543948A - Pilot examination control method and system

Info

Publication number: CN112543948A
Application number: CN201980050167.XA
Authority: CN
Inventors: 杨泽渊
Original assignee: SZ DJI Technology Co Ltd
Current assignee: SZ DJI Technology Co Ltd
Priority date: 2019-12-31
Filing date: 2019-12-31
Publication date: 2021-03-23
Also published as: WO2021134624A1

Abstract

A pilot exam control method, comprising: the method comprises the steps that a terminal receives a first examination request sent by a user aiming at a first platform client; the terminal sends a test paper acquisition request to a first platform server corresponding to a first platform client according to the first examination request, and the first platform server is connected with a pilot supervision server; and the terminal receives the test paper sent by the first platform server. A pilot test control system, a terminal, a platform server and a pilot supervision server are provided.

Description

Pilot examination control method and system

Technical Field

The disclosure relates to the field of flight control, in particular to a pilot examination control method and system.

Background

The control of the unmanned aerial vehicle is a relatively complex process, and has higher requirements on the operation skills and knowledge reserves of users. Before a user operates the unmanned aerial vehicle, the user generally needs to take pilot examinations through a pilot examination system, and only after the pilot examinations are passed and pilot certificates are obtained, the user is qualified to operate the unmanned aerial vehicle, so that the flight safety of the unmanned aerial vehicle is guaranteed.

In the pilot examination system at the present stage, users can only take examinations through a single client, and can only issue test papers by a supervision department, and the examination mode and the way are single, so that flexible and diversified choices can not be provided for the users.

Disclosure of Invention

In one aspect of the present disclosure, there is provided a pilot test control method, including:

the method comprises the steps that a terminal receives a first examination request sent by a user aiming at a first platform client;

the terminal sends a test paper acquisition request to a first platform server corresponding to the first platform client according to the first examination request, and the first platform server is connected with a pilot supervision server;

and the terminal receives the test paper sent by the first platform server.

In another aspect of the present disclosure, there is also provided a pilot test control method, including:

receiving a test paper acquisition request sent by a terminal where a first platform client corresponding to a first platform server is located;

the first platform server sends a test paper creation request to a pilot supervision server according to the test paper acquisition request;

the first platform server receives the test paper sent by the pilot supervision server;

and the first platform server sends the test paper to the terminal.

the pilot supervision server receives a test paper creation request sent by the first platform server; a plurality of platform servers are connected with the pilot supervision server, and the plurality of platform servers comprise the first platform server;

the pilot supervision server generates a test paper according to the test paper creation request;

and the pilot supervision server sends a test paper to the first platform server, wherein the test paper is used for the pilot test of a user of the first platform client corresponding to the first platform server.

In another aspect of the present disclosure, there is also provided a terminal, including: a memory, a processor, a user interface, and a communication interface;

the memory to store executable instructions;

the processor is configured to execute the executable instructions stored in the memory to perform the following operations:

receiving a first examination request sent by a user aiming at a first platform client through the user interface;

sending a test paper acquisition request to a first platform server corresponding to the first platform client through the communication interface according to the first examination request, wherein the first platform server is connected with a pilot supervision server;

and receiving the test paper sent by the first platform server through the communication interface.

In another aspect of the present disclosure, there is also provided a platform server, including: the device comprises a memory, a processor, a first communication interface and a second communication interface;

the memory to store executable instructions;

receiving a test paper acquisition request sent by a terminal where a first platform client corresponding to the first platform server is located through the first communication interface;

sending a test paper creation request to a pilot supervision server through the second communication interface according to the test paper acquisition request;

receiving the test paper sent by the pilot supervision server through the second communication interface;

and sending the test volume to the terminal through the first communication interface.

In another aspect of the present disclosure, there is also provided a pilot supervision server including: a memory, a processor, and a communication interface;

a memory for storing executable instructions;

a processor to execute the executable instructions stored in the memory to perform the following:

receiving a test paper creating request sent by a first platform server through the communication interface; a plurality of platform servers are connected with the pilot supervision server, and the plurality of platform servers comprise the first platform server;

generating a test paper according to the test paper creating request;

and sending a test paper to the first platform server through the communication interface, wherein the test paper is used for performing pilot test by a user of the first platform client corresponding to the first platform server.

In another aspect of the present disclosure, there is also provided a pilot exam control system, comprising: a plurality of terminals, a plurality of platform servers, and a pilot supervision server;

the terminal is provided with at least one platform client, and different platform clients correspond to different platform servers; the at least one platform client comprises a first platform client;

the plurality of platform servers are connected with the pilot supervision server, and comprise a first platform server corresponding to the first platform client;

the terminal is used for receiving a first examination request sent by a user aiming at the first platform client side, and sending a test paper acquisition request to the first platform server according to the first examination request;

the first platform server is used for receiving the test paper acquisition request and sending a test paper creation request to the pilot supervision server according to the test paper acquisition request;

the pilot supervision server is used for receiving the test paper creation request, generating a test paper according to the test paper creation request and sending the test paper to the first platform server;

the first platform server is further used for receiving the test paper and sending the test paper to the terminal;

the terminal is also used for receiving the test paper; the test paper is used for the user to take a pilot test.

In another aspect of the present disclosure, a computer-readable storage medium is also provided that stores executable instructions that, when executed by one or more processors, may cause the one or more processors to perform any of the above-described pilot test control methods.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present disclosure, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings without inventive labor.

Fig. 1 is a schematic system architecture diagram of a pilot test control system according to an embodiment of the present disclosure.

Fig. 2 is a schematic connection diagram of a pilot examination control system according to an embodiment of the disclosure.

Fig. 3 is an interaction diagram of a user registration process.

Fig. 4 is an interaction diagram of a process for modifying registration information.

FIG. 5 is an interaction diagram of a user login process.

FIG. 6 is an interaction diagram of the process of generating test paper.

Fig. 7 is an interactive diagram of an answer sheet process.

FIG. 8 is an interaction diagram of another process for generating test papers.

Fig. 9 is an interactive diagram of another answer sheet process.

Fig. 10 is an interaction diagram of a process of correlating test information.

Fig. 11 is an interaction diagram of a certificate inquiry process.

Fig. 12 is another schematic diagram of the connection of the pilot test control system according to the embodiment of the disclosure.

Fig. 13 is a schematic diagram of a terminal according to an embodiment of the disclosure.

Fig. 14 is a schematic diagram of a platform server according to an embodiment of the disclosure.

FIG. 15 is a schematic diagram of a pilot supervision server according to an embodiment of the present disclosure.

Detailed Description

The technical solution of the present disclosure will be clearly and completely described below with reference to the embodiments and the drawings in the embodiments. It is to be understood that the described embodiments are merely illustrative of some, and not restrictive, of the embodiments of the disclosure. All other embodiments, which can be derived by a person skilled in the art from the embodiments disclosed herein without making any creative effort, shall fall within the protection scope of the present disclosure.

An embodiment of the present disclosure provides a pilot test control system, as shown in fig. 1, including: a terminal, a platform server, and a pilot supervision server. The terminal and the platform server, and the platform server and the pilot supervision server can be in wired communication connection or wireless communication connection. The wired communication means includes, but is not limited to, a network cable connection and an optical fiber connection. The wireless communication connection may employ any type of wireless communication means, such as WiFi, cellular communication, and the like. Wherein the cellular communication may comprise second generation (2G), third generation (3G), fourth generation (4G), or fifth generation (5G), among other mobile communication technologies.

The pilot test control system may include a plurality of terminals, and a plurality of platform servers. Each terminal is provided with at least one platform client, different platform clients correspond to different platform servers respectively, and the platform servers are connected to the pilot supervision server.

Fig. 2 shows an example of the pilot test control system of the present embodiment. In fig. 2, the pilot test control system comprises a first platform server, a second platform server, … and an nth platform server which are N platform servers. The N platform servers are all in communication connection with the pilot supervision server. The terminal supports a plurality of platform clients, for example, N platform clients including a first platform client, a second platform client, … and an nth platform client, and each platform client can be respectively in communication connection with a corresponding platform server. The client may selectively install one of the platform clients on the terminal, for example, when the terminal installs the first platform client, the first platform client is in communication connection with the corresponding first platform server, and when the terminal installs the second platform client, the second platform client is in communication connection with the corresponding second platform server.

The terminal of this embodiment may be various intelligent terminals, for example: mobile phones, tablet computers, notebook computers, desktop computers, and the like. The platform client can be client software such as an application program installed on the terminal and a web browser. And the terminal can perform data interaction with the corresponding platform server through each installed platform client. The platform server is deployed in each enterprise or organization, is maintained by each enterprise or organization, and can perform data interaction with the pilot supervision server. The pilot supervision server is deployed in a civil aviation management department, and the civil aviation management department can supervise and manage the process of pilot examination through the pilot supervision server.

In the pilot examination control system of the embodiment, each enterprise or organization may deploy the platform server and provide the corresponding platform client installer. The user can select to download and install the platform client corresponding to one or more platform servers on the terminal of the user. Correspondingly, the terminal can run a platform client corresponding to one or more platform servers. Users of each enterprise or organization can access the platform server of the enterprise or organization through the platform client installed on the terminal, and various operations such as registration, examination, certificate management and the like are realized. The enterprise or institution of this embodiment may be, but is not limited to, the drone manufacturer. For a drone manufacturer, a user who has purchased his drone needs to drive the drone through his examination organized. An unmanned aerial vehicle manufacturer can deploy its own platform server and develop a platform client corresponding to the platform server. The user can install the platform client that unmanned aerial vehicle manufacturer developed on the terminal to accomplish registration, examination and control unmanned aerial vehicle flight through this platform client. After the examination passes the pilot certificate, the user can drive the unmanned aerial vehicle through the platform client. Different enterprises or organizations can independently develop and maintain respective platform servers and platform clients for users to select and use, distributed multi-platform examination management processes can be realized, individualized, diversified and flexible examination supervision requirements are met, and the supervision efficiency of flight examinations of the users is improved. For the terminal user, any platform can be selected to finish the pilot test independently, the user can conveniently and quickly select and use the platform, the difficulty of selecting the test platform by the user is reduced, and the user experience is improved.

The pilot test control system of the present embodiment will be described in detail below by taking an example in which the terminal is provided with a first platform client and the first platform client corresponds to a first platform server. It will be understood by those skilled in the art that "first" is not a limitation on the platform client and the platform server, but refers to one of the platform clients and the platform server corresponding to the platform client, and the following description is equally applicable to other platform clients and their corresponding platform servers installed on the terminal.

The flight examination control system of the embodiment deploys the platform server in an enterprise or an organization, develops the platform client corresponding to the platform server, and a user can install the platform client on a terminal and refer to the examination organized by the enterprise or the organization through the platform client, so that examination modes and ways are widened, and flexible and diversified choices are provided for the user.

When a user uses the first platform client for the first time, the user needs to register in the first platform server to perform subsequent operations. The process of user registration is shown in figure 3.

The user can open the first platform client on the terminal and input the registration information of the user at the first platform client.

And the terminal receives the registration information sent by the user aiming at the first platform client and sends the registration information to the first platform server.

The first platform server receives the registration information and sends the registration information to the pilot supervision server.

The pilot supervision server receives the registration information, generates a registration result according to the registration information, and then sends the registration result to the first platform server.

And the first platform server receives the registration result and sends the registration result to the terminal.

And the terminal receives the registration result and can display the registration result to the user through a display interface of the first platform client.

And the registration result is used for indicating whether the registration of the registration information is successful or not. The registration information input by the user may include: one or both of the user name and the mobile phone number, a password, and the like. The registration information may further include: unmanned aerial vehicle information. The drone information may be, for example, the model of the drone, etc.

The flight examination control system of the embodiment can also perform real-name authentication after the user registers. The user can input the real-name information of the user at the first platform client, and the real-name information is sent to the first platform server and is sent to the pilot supervision server through the first platform server. The pilot supervision server binds the real-name system information of the user with the registration information of the user. The pilot supervision server can check the real-name system information input by the user, and one piece of real-name system information can be only bound with one user. And the pilot supervision server sends the verification result to the first platform server, and the first platform server sends the verification result to the terminal. Real-name system information includes, but is not limited to: the user's identification number.

And after receiving the registration information, the pilot supervision server verifies the real-name information in the registration information. For example, the pilot supervision server may be connected to a database of the public security department and use the database to verify the received real-name information. The registration result includes: registration success and registration failure. If the real-name system information is successfully verified, the pilot supervision server generates registration success information, stores the registration information of the user including the real-name system information, and sends the registration success information to the first platform server. The first platform server stores the registration information of the user. And then the user can log in the first platform server through the first platform client. If the real-name system information is verified unsuccessfully, the pilot supervision server generates registration failure information and sends the registration success information to the first platform server, and the user can not log in the first platform server and can register again.

After the user successfully registers, if the user wants to modify the registration information subsequently, the user can modify the registration information through the first platform client.

As shown in fig. 4, a user may submit a registration information modification request at a first platform client, where the registration information modification request includes: original registration information and new registration information.

The terminal receives a registration information modification request sent by a user aiming at the first platform client side, and sends the registration information modification request to the first platform server.

The first platform server receives the registration information modification request and sends the registration information modification request to the pilot supervision server.

And the pilot supervision server receives the registration information request and verifies the new registration information. And if the verification is passed, generating a modification result with successful modification, and sending the modification result to the first platform server. And if the verification fails, generating a modification result of which the modification fails, and sending the modification result to the first platform server.

The first platform server receives the modification result. If the modification result is successful, the new registration information is stored, and the registration result is sent to the terminal. And if the modification result is modification failure, directly sending the registration result to the terminal.

And the terminal receives the registration result and can display the registration result to the user through a display interface of the first platform client. If the modification is successful, the user can log in the first platform server by using the new registration information; if the modification fails, the registration information modification may be performed again.

After the user is successfully registered, the user can log in the first platform server to carry out various operations. As shown in fig. 5, a user may submit a login request at a first platform client, where the login request includes: and (4) user information.

The terminal receives a login request sent by a user aiming at the first platform client side, and sends the login request to the first platform server.

And the first platform server receives the login request and verifies the user information in the login request according to the user registration information stored in the first platform server. If the user information in the login request is matched with a piece of user registration information, allowing the user to login, otherwise, not allowing the user to login, and sending login response information to the terminal.

And the terminal receives the login response information, and if the login is allowed, the user logs in the first platform server through the first platform client. If the login is not allowed, the first platform server cannot be logged in, and the login can be attempted again.

The pilot examination control system of the embodiment provides an integrated platform with functions of examination paper delivery, examination paper interpretation, certificate management and the like for a user, and after the user logs in the first platform server through the first platform client, the user can perform various operations including examination, inquiry, unmanned aerial vehicle control and the like on the first platform client. Before a user drives an unmanned aerial vehicle, the user generally needs to pass an examination of an enterprise or an organization and obtain a pilot certificate. The process of the user taking an exam through the pilot exam control system is described below.

As shown in fig. 6, the terminal receives a first examination request sent by a user for a first platform client, generates a test paper acquisition request according to the first examination request, and sends the test paper acquisition request to a first platform server.

The first platform server receives the test paper acquisition request and sends a test paper creation request to the pilot supervision server according to the test paper acquisition request.

The pilot supervision server receives the test paper creation request, generates a test paper according to the test paper creation request, and sends the test paper to the first platform server.

And the first platform server receives the test paper and sends the test paper to the terminal.

The terminal receives the test paper; the test paper is used for the user to take a pilot test.

In one example, when the user logs in the pilot test control system, the display interface of the first platform client displays a "request for test" button. The user may actively click a "request for test" button to trigger a first test request. In other examples, the first platform client may perform a pop-up prompt. The user may be prompted in a pop-up window "do pilot exam or not? ", and provides" yes "and" no "keys. The user clicks the "yes" button and a first examination request is triggered. The first platform client may also output a voice prompt. Voice prompt announces "do or not take pilot exam? ". The user answers "yes" and a first test request is triggered.

In the pilot examination control system of the embodiment, after the terminal sends the first examination request, the first platform server initiates operations such as proposition examination paper making, examination paper judging and the like according to the first examination request. According to different requirements of an enterprise or an organization on users of the enterprise or the organization, in addition to the examination and judgment of the pilot supervision server, the examination and judgment of the first platform server deployed by the enterprise or the organization can be carried out. Different enterprises or organizations provide personalized examination services for users through respective platform servers and platform clients, and different requirements on the operating skills and knowledge reserves of the users can be met.

The process of examination and examination taking will be described below. The generated test paper content is different according to different requirements of enterprises or institutions. The test paper generated by the pilot supervision server comprises a first test question, and the first test question comes from a standard test question database of the pilot supervision server. In one embodiment, if an enterprise or an organization thinks that the user is only required to take an examination by using the test paper of the civil aviation part, the first platform server receives the test paper generated by the pilot supervision server and then directly sends the test paper to the terminal, and the user can answer the test paper on the first platform client. The standard test question database comprises but is not limited to a civil aviation standard question bank, a national standard safety standard test question bank and the like.

After the terminal receives the test paper, the test paper is displayed on a display interface of the first platform client side, and the user can answer the question on the display interface. The answering and paper-making process is shown in figure 7.

And the terminal receives the answer data sent by the user aiming at the first platform client and sends the answer data to the first platform server. During the examination process, the user inputs answer data of all test questions on the first platform client. And after the examination is finished, all the input answer data are sent to the first platform server.

The first platform server is also used for receiving the answer data and sending the answer data to the pilot supervision server.

The pilot supervision server is also used for receiving the answer data, determining the examination score according to the answer data and sending the examination score to the first platform server. The standard test question database also stores answers of the first test questions. The pilot supervision server obtains the examination score by comparing the answer data of the user with the answer of the first test question, and generates the examination score according to the examination score.

The first platform server is also used for receiving the examination scores and sending the examination scores to the terminal.

The terminal is also used for receiving the examination score and displaying the examination score to the user through the first platform client.

In this embodiment, except that the pilot monitoring server may issue questions for the test paper, the first platform server of this embodiment is connected to a customized test question database, and may also issue questions for the test paper. The customized test question database is established and maintained by an enterprise or an organization, and is used for proposing questions according to personalized requirements of the enterprise or the organization, such as but not limited to an accident case database, an operation judgment database and the like. For example, for consumer-grade drones and industrial-grade drones, there are different requirements on the user's operating skills and knowledge stock. Accordingly, the consumption-level unmanned aerial vehicle enterprise and the industry-level unmanned aerial vehicle enterprise can respectively establish customized test question databases of the consumption-level unmanned aerial vehicle enterprise and the industry-level unmanned aerial vehicle enterprise. When a business or organization also needs to issue questions for a test paper, the paper-out process is as shown in FIG. 8.

The first platform server receives the test paper acquisition request, sends a test paper creation request to the pilot supervision server according to the test paper acquisition request, and generates a second test question according to the test paper acquisition request; the second test question is from a customized test question database of the first platform server.

The pilot supervision server receives the test paper creation request, generates a test paper according to the test paper creation request, and sends the test paper to the first platform server, wherein the test paper comprises a first test question from a standard test question database of the pilot supervision server.

The first platform server receives the test paper, adds the second test questions to the test paper, the test paper added with the second test questions comprises the first test questions and the second test questions, and sends the test paper to the terminal.

The terminal receives the test paper; the test paper is used for a user to take a pilot test.

After the terminal receives the test paper, the test paper is displayed on a display interface of the first platform client side, and the user can answer the question on the display interface. The answering and paper-making process is shown in figure 9.

The terminal is also used for receiving the answer data sent by the user aiming at the first platform client side and sending the answer data to the first platform server.

The first platform server is also used for receiving the answer data, determining the score of the second test question according to the part corresponding to the second test question in the answer data, and sending the part corresponding to the first test question in the answer data to the pilot supervision server. The customized test question database also stores answers of the second test questions. And the first platform server generates the score of the second test question by comparing the part corresponding to the second test question in the answering data with the answer of the second test question.

The pilot supervision server is further used for receiving the part corresponding to the first test question in the answer data, determining the score of the first test question according to the part corresponding to the first test question in the answer data, and sending the score of the first test question to the first platform server. The standard test question database also stores answers of the first test questions. The pilot supervision server generates the score of the first test question by comparing the answer data of the user with the answer of the first test question.

The first platform server is also used for receiving the scores of the first test questions, obtaining the examination scores according to the scores of the first test questions and the scores of the second test questions, determining the examination scores according to the examination scores and sending the examination scores to the terminal.

The terminal is also used for receiving the examination scores and displaying the examination scores to the user through the first platform server.

In one example, the first platform server may add the score of the first test question and the score of the second test question to obtain an examination score; different weights can be set for the scores of the first test questions and the scores of the second test questions so as to reflect the emphasis of enterprises or institutions on different operating skills and knowledge storage.

The test achievements may include: pass, fail, and to-be-rechecked. A business or organization may assign score lines for pilot exams. When the examination score of the user reaches the score line or more, the examination score generated by the first platform server passes; otherwise, the examination score generated by the first platform server is failed. The civil aviation management department can also carry out spot check on the examination scores of the users. And if the user is hit, the examination result generated by the first platform server is to be reviewed. And after the examination score of the user is rechecked, the first platform server generates a passed or failed examination score according to the rechecking result.

By only sending the examination scores of the users to the terminal and not sending the examination scores to the terminal, the users can be prevented from knowing the correct answers of all the examination questions of the examination paper, the users are prevented or prevented from completing the examination through the answers, the examination risk is reduced, and the supervision efficiency of the pilot examination is improved.

Therefore, the pilot examination control system of the embodiment can issue questions for the test paper by the pilot supervision server, and the first platform server can issue the test paper according to the personalized requirements of enterprises or organizations, so that different requirements of different enterprises or organizations on the operation skills and knowledge reserves of users of the enterprises or organizations are met, and the personalized support is provided for the enterprises or the organizations.

The pilot examination control system of the embodiment does not limit the form of the test questions in the test paper, and may include various question types such as a selection question, a judgment question, a blank filling question, a discussion question, and the like. The choice questions may include single choice questions, multiple choice questions, and indefinite choice questions. The format of the title is not limited, and examples of the title format include, but are not limited to, text, picture, video, audio, and the like. The test questions in the test paper are randomly generated, and the test questions are randomly extracted from the standard test question database and/or the customized test question database. For example, a specified number of test questions can be randomly extracted from the standard test question database as the first test questions of the test paper; a specified number of test questions may be randomly extracted from the customized test question database as second test questions of the test paper. The order of the test questions in the test paper is randomly arranged. For example, 20 questions may be randomly extracted from the 50 questions in the customized question database as the second questions. The options are not uniquely set for choice questions. For example, the number of the options is randomly set, the interference options can be randomly selected from a plurality of interference options, and the arrangement sequence of the options can be randomly generated. Through the proposition rule, the test paper generated for each user can be ensured to have uniqueness, the user cannot pass the examination by reciting the test questions and the answers, the user is prevented or prevented from completing the examination by reciting the answers, the examination risk is reduced, and the supervision efficiency of the pilot examination is improved.

After the terminal receives the test paper, the user can start answering on the first platform client, and the first platform client and the first platform server start timing. The display interface of the first platform client side comprises: the 'scroll' button. When the user finishes answering all the test questions before the examination ending time, the 'paper delivery' button can be clicked, the first platform client does not display the test papers any more, the first platform client and the first platform server stop timing, the examination duration of the user is recorded, and the terminal sends all answer data input by the user through the first platform client to the first platform server so as to generate the examination score. The pilot examination control system of the embodiment can also realize automatic rolling. When the examination ending time is reached, even if the user does not answer all the examination questions, the first platform client does not display the examination paper, the first platform client and the first platform server stop timing, the examination duration of the user is recorded, and the terminal sends all answer data input by the user after the examination ending time to the first platform server to generate the examination score. The timing of the first platform client and the timing of the first platform server are kept synchronous, so that the user can be prevented from tampering the examination time at the first platform client.

The pilot examination control system of the embodiment is further integrated with a certificate management function. And when the examination score of the user is not lower than the marked score line, the user passes the pilot examination. When the test score of the user is lower than the planned score line, the user fails the pilot test. And after the user passes the pilot test, the first platform server is also used for generating a pilot certificate according to the test result and sending pilot certificate information to the terminal. The terminal is also used for receiving pilot certificate information and displaying the pilot certificate to the user.

In the pilot examination control system of this embodiment, after the user takes a test, as shown in fig. 10, all test information of the user in the test may be sent to the pilot monitoring server for storage. The examination information includes: user information, test paper index, exam time, exam score, and pilot credentials. The user information may be real-name information of the user.

After the user passes the pilot test, the first platform server is also used for associating test information, and associating the real-name system information of the user with the test paper index, the test time, the test result and the pilot certificate corresponding to the real-name system information.

The first platform server is also used for sending the associated examination information, namely the real-name system information, and the associated examination paper index, examination time, examination score and pilot certificate information to the pilot supervision server.

The pilot supervision server is also used for receiving the real-name system information, the associated examination paper index, the examination time, the examination score and the pilot certificate, and storing the associated real-name system information, the examination paper index, the examination time, the examination score and the pilot certificate to a pilot certificate database of the pilot supervision server.

And when the user does not pass the pilot test, the first platform server is also used for associating the real-name system information of the user with the test paper index and the test result corresponding to the real-name system information.

The first platform server is further used for sending the correlated examination information to the pilot supervision server.

The pilot supervision server is also used for receiving the correlated examination information and storing the correlated real-name system information, the examination paper index and the examination score to the pilot supervision server.

The examination information of the user is stored in the pilot supervision server, so that the pilot examination control system of the embodiment supports the inquiry function, and the user can inquire the examination information of the previous times at any time after participating in the examination.

By storing the examination information of the user in the pilot supervision server, the management of the examination scores by the civil aviation management department is facilitated. The civil aviation management department can carry out spot check and recheck on the examination papers and examination scores stored by the pilot supervision server according to the regulations. And if the examination score of the user fails to be rechecked, the pilot supervision server invalidates and deletes the pilot certificate of the user, and sends the rechecking failure information to the first platform server. And after receiving the rechecking failure information, the first platform server sends the rechecking failure information to the terminal, updates the pilot certificate of the user stored in the local terminal, and marks the pilot certificate of the user with a rechecking failure mark. And the terminal stores the rechecking failure information after receiving the rechecking failure information, and outputs prompt information according to the rechecking failure information, wherein the prompt information is used for indicating that the user fails to recheck. Optionally, the user may also be prompted to take a pilot test again.

The civil aviation management department can also manage the pilot certificate. The pilot supervisor server may set a validity time for the pilot credentials. When the pilot credentials of a user have expired, the pilot supervisor server invalidates and deletes the pilot credentials of the user from the pilot credentials database. And sending the certificate expiration information to the first platform server. And after receiving the certificate expiration information, the first platform server sends the certificate expiration information to the terminal, updates the pilot certificate of the user stored in the terminal, and marks the pilot certificate of the user with an expired identifier. And the terminal stores the certificate expiration information after receiving the certificate expiration information, and outputs prompt information according to the certificate expiration information, wherein the prompt information is used for prompting that the certificate of the user is expired and can also prompt the user to take a pilot test again. In addition, when the user is not suitable for continuously driving the unmanned aerial vehicle, for example, relevant laws and regulations are violated, severe flight accidents occur, and the like, the civil aviation management department can also revoke the pilot certificate of the user and delete the pilot certificate from the pilot certificate database, and the pilot supervision server sends certificate revocation information to the first platform server. And after receiving the certificate revocation information, the first platform server sends the certificate revocation information to the terminal. And the terminal stores the certificate revocation information after receiving the certificate revocation information and outputs prompt information according to the certificate revocation information, wherein the prompt information is used for prompting the user that the certificate is revoked.

In the pilot examination control system of the embodiment, when the user is online, for example, after the user logs in the first platform client, the terminal may automatically query whether the user has obtained the pilot certificate.

The terminal is also used for detecting whether the pilot certificate corresponding to the user exists in the pilot certificate database or not and outputting prompt information according to the detection result.

In one example, if there is no pilot certificate corresponding to the user, the terminal is further configured to output, at the first platform client, first indication information, where the first indication information is used to indicate that the user fails the pilot test.

In one example, if there is no pilot certificate corresponding to the user, the terminal is further configured to output a second prompt message on the interface of the first platform client, where the second prompt message is used to prompt the user to take a pilot test.

In one example, if there is a pilot certificate corresponding to the user, the terminal is further configured to output third indication information on the interface of the first platform client, where the third indication information is used to indicate that the user has passed a pilot test.

The first indication information, the second indication information and the third indication information can be displayed in a pop-up window form. For example, if there is no pilot certificate corresponding to the user, the popup may display an "examination agreement" or "examination immediately" button, and the user may trigger the first examination request by clicking the "examination agreement" or "examination immediately" button. And after the terminal receives the test paper sent by the first platform server, the examination can be started. The first indication information, the second indication information and the third indication information can also be output in a voice form. For example, if there is no pilot certificate corresponding to the user, the first platform client may report "do you not pass the pilot test, do the pilot test? ". If the user answers "yes", a first test request is triggered.

The automatic terminal polling of pilot credentials is described above. In addition, in the pilot examination control system of the embodiment, the user can actively inquire whether the user obtains the pilot certificate.

As shown in fig. 11, a "certificate query" button may also be displayed on the display interface of the first platform client, and when the user clicks the "certificate query" button, the terminal receives a certificate query request sent by the user for the first platform client, and sends the certificate query request to the first platform server.

The first platform server is further used for receiving the certificate inquiry request and sending the certificate inquiry request to the pilot supervision server.

The pilot supervision server is also used for receiving the certificate inquiry request, inquiring the pilot certificate database according to the certificate inquiry request, generating a certificate inquiry result and sending the certificate inquiry result to the first platform server.

The first platform server is also used for receiving the certificate inquiry result, sending the certificate inquiry result to the terminal and storing the certificate inquiry result.

The terminal is further used for receiving a certificate inquiry result, and the certificate inquiry result is used for indicating whether the pilot certificate corresponding to the user exists in the pilot certificate database or not.

The first platform server stores the certificate inquiry result locally, and when the user inquires the certificate next time, the first platform server can directly return the certificate inquiry result to the terminal. Compared with the certificate stored in the terminal, the certificate inquiry result stored in the first platform server is safer and more reliable. Similar to the situation that the terminal automatically inquires the pilot certificate, the terminal is also used for outputting prompt information according to the certificate inquiry result. And if the certificate inquiry result shows that the pilot certificate corresponding to the user does not exist, the terminal is also used for displaying the first indication information and/or the second indication information on the interface of the first platform client. The first indication information is used for indicating that the user fails a pilot test; the second prompt message is used for prompting the user to take a pilot test. And if the certificate inquiry result shows that the pilot certificate corresponding to the user exists, the terminal is also used for displaying third indication information on an interface of the first platform client, and the third indication information is used for indicating that the user passes the pilot test.

The above describes the process of the user actively querying for pilot credentials. The specific implementation process of the terminal for automatically detecting whether the pilot certificate corresponding to the user exists in the pilot certificate database is similar to the above process, except that the first platform client actively sends a certificate query request to the first platform server.

In the pilot examination control system of this embodiment, after the terminal automatically detects the pilot certificate or the user initiates an inquiry on the pilot certificate, the terminal is further configured to store a certificate inquiry result. Therefore, when the terminal receives the certificate inquiry request sent by the user aiming at the first platform client again, the terminal is also used for determining whether the pilot certificate corresponding to the user exists in the pilot certificate database according to the stored certificate inquiry result without a first platform server and a pilot supervision server, and therefore, even if the first platform client is disconnected with the first platform server, the user can obtain the pilot certificate inquiry result through the terminal.

The pilot examination control system not only provides functions of examination, certificate management and the like for the user, but also integrates the function of controlling the unmanned aerial vehicle. The terminal can regard as unmanned aerial vehicle's remote controller to use, first platform client can with communication connection unmanned aerial vehicle, and user's accessible first platform client controls unmanned aerial vehicle. Specifically, the method comprises the following steps:

the terminal is also used for receiving a flight control instruction sent by a user aiming at the first platform client side, and detecting whether a pilot certificate corresponding to the user exists in the pilot certificate database.

The flight control command triggers the terminal to detect the pilot's credentials. And when the terminal receives the flight control instruction, a certificate inquiry request is generated and sent to the first platform server. And then, referring to the mode that the user actively inquires the pilot certificate, and determining whether the pilot certificate corresponding to the user exists according to a certificate inquiry result returned by the first platform server or prompt information output by the terminal.

And if the pilot certificate corresponding to the user does not exist, displaying fourth indication information on an interface of the first platform client, wherein the fourth indication information is used for indicating that the user does not have the right to control the unmanned aerial vehicle. And if the pilot certificate corresponding to the user exists, the terminal sends the flight control command to the unmanned aerial vehicle. The flight control instruction is used for controlling the unmanned aerial vehicle to fly.

Although the user can control the unmanned aerial vehicle through the first platform client, the pilot examination control system of the embodiment does not directly send the flight control instruction to the unmanned aerial vehicle when the user issues the flight control instruction to the unmanned aerial vehicle, but firstly detects whether the user obtains the pilot certificate. And only when the pilot certificate corresponding to the user exists in the pilot certificate database, the fact that the user is qualified to control the unmanned aerial vehicle is indicated, and the first platform client sends the flight control instruction to the unmanned aerial vehicle. And if the pilot certificate corresponding to the user does not exist in the pilot certificate database, the fact that the user does not obtain the pilot certificate is shown, and the unmanned aerial vehicle is not qualified to be controlled. At this moment, the first platform client side cannot send the flight control instruction to the unmanned aerial vehicle, and the user cannot control the unmanned aerial vehicle to fly. Through the above means, the pilot examination control system of the embodiment guarantees that only the user who obtains the pilot certificate can drive the unmanned aerial vehicle, thereby guaranteeing the flight safety of the unmanned aerial vehicle.

Each operation of the pilot test control system of the embodiment has a corresponding operation code, and the operation code is associated with the identity information, the operation type and the data related to the operation of the enterprise or the organization. In one example, the operation code includes N characters. The first X characters identify identity information of an enterprise or organization, the middle Y characters identify an operation type, and the last Z characters identify data associated with the operation. The characters in the operation code may be composed of numbers and/or letters. The operation types can include various operations such as registration, login, registration information modification, paper-out, paper-appraising, certificate management and the like. The operation of the user is associated with the identity of the enterprise or the organization through the operation code, the enterprise or the organization can conveniently and autonomously maintain the respective platform server and can autonomously manage data such as registration information, examination paper indexes, examination time, examination scores, pilot certificates and the like.

In the pilot examination control system of the present embodiment, as shown in fig. 12, the terminal is further provided with a common client, and the common client is connected to the pilot supervision server. The public client may be client software such as an application installed on the terminal, a web browser, or the like. The terminal can directly interact data with the pilot supervision server through the public client. For users who are not members of the business or institution, or who do not want to be members of the business or institution, a pilot exam may be taken through the public client, in a process similar to that described above for the first platform client. The common client may essentially implement the functionality of both the first platform client and the first platform server. The user can complete registration, login and registration information modification, request examination, answer, inquire certificates, control the unmanned aerial vehicle and other operations through the public client, and accordingly, the pilot supervision server can complete examination paper output, examination paper judgment, certificate management and other operations. For example, the process of requesting examinations and test withdrawals includes:

the terminal is also used for receiving a second examination request sent by the user aiming at the public client and sending a test paper acquisition request to the pilot supervision server corresponding to the public client according to the second examination request.

The pilot supervision server is also used for receiving the test paper acquisition request, generating the test paper according to the test paper acquisition request and sending the test paper to the terminal.

The terminal is also used for receiving the test paper, and the test paper is used for the user to take an examination.

The test paper comprises a first test question, and the test paper generated by the pilot test control system only comprises standard test questions in a standard test question database and does not comprise any customized test questions of enterprises or institutions when all users take public client-side tests.

Operations of registration, login, registration information modification, question answering, certificate inquiry, unmanned aerial vehicle control, examination paper judging, certificate management and the like are also similar to the process of the examination through the first platform client, and are not repeated herein.

Therefore, the pilot examination control system of the embodiment is a distributed multi-platform examination control system, and can meet the individual, diversified and agile examination supervision requirements. Different enterprises or organizations can independently develop and maintain respective platform servers and platform clients for users to select and use, and personalized examination services can be provided for the users so as to meet different requirements on the operating skills and knowledge reserves of the users. For the terminal user, any platform can be selected to finish the pilot test independently, the user can conveniently and quickly select and use the platform, the difficulty of selecting the test platform by the user is reduced, and the user experience is improved. The pilot examination control system of this embodiment has still integrated other multinomial functions such as certificate management, control unmanned aerial vehicle except that providing the function of taking an examination for the user, and the user can realize taking an examination, inquiring, control unmanned aerial vehicle multinomial operation through pilot examination control system one-stop, and the function is various, has improved user experience.

While the pilot test control system of the present embodiment has been described above, it will be appreciated by those skilled in the art that the above description is illustrative only and not limiting of the present disclosure. Various components of the pilot test control system may be altered, omitted, or combined without departing from the disclosed concept.

Another embodiment of the present disclosure further provides a pilot examination control method, which is applicable to the terminal of the pilot examination control system of the above embodiment, and includes steps corresponding to part of and all of the working processes of the terminal of the pilot examination control system of the above embodiment.

The present disclosure further provides a pilot test control method, which is applicable to the first platform server of the pilot test control system in the above embodiment, and includes steps corresponding to part and all working processes of the first platform server of the pilot test control system in the above embodiment.

The pilot examination control method is suitable for the pilot supervision server of the pilot examination control system of the embodiment, and comprises steps corresponding to part and all working processes of the pilot supervision server of the pilot examination control system of the embodiment.

Still another embodiment of the present disclosure provides a terminal, as shown in fig. 13, the terminal includes: a memory, a processor, a user interface, and a communication interface.

The memory is to store executable instructions. The executable instructions are, for example, program instructions of the first platform client and the common client.

The processor is configured to execute executable instructions stored in the memory, such as program instructions of the first platform client or the common client, to run the first platform client and the common client.

The user interface is used for receiving input of a user, and receiving various data sent by the user aiming at the first platform client or the public client, such as a first examination request, a certificate inquiry request, a second examination request, a flight control instruction and the like, which are mentioned in the pilot examination control system embodiment. The user interface is for example a display interface of the first platform client or the public client.

The communication interface is in communication connection with the first platform server, and the terminal performs data interaction with the first platform server through the communication interface.

The processor executes the executable instructions to execute the operations corresponding to part of and all the steps in the pilot test control method suitable for the terminal of the embodiment.

Still another embodiment of the present disclosure provides a platform server, as shown in fig. 14, the platform server including: the device comprises a memory, a processor, a first communication interface and a second communication interface.

The memory is to store executable instructions. The processor is configured to execute executable instructions stored in the memory. The first communication interface is in communication connection with the first platform client, and data interaction is carried out with a terminal where the first platform client is located through the first communication interface. The second communication interface is in communication connection with the pilot supervision server and is in data interaction with the pilot supervision server through the second communication interface.

The processor executes the executable instructions to execute the operations corresponding to part of and all the steps in the pilot test control method applicable to the first platform server in the embodiment.

Still another embodiment of the present disclosure provides a pilot supervision server, as shown in fig. 15, including: a memory, a processor, and a communication interface.

The memory is to store executable instructions. The processor is configured to execute executable instructions stored in the memory. The communication interface is in communication connection with the first platform server and performs data interaction with the first platform server through the second communication interface.

The processor executes the executable instructions to execute the operations corresponding to part of and all the steps in the pilot test control method suitable for the pilot supervision server of the above embodiment.

Yet another embodiment of the present disclosure also provides a computer-readable storage medium storing executable instructions that, when executed by one or more processors, may cause the one or more processors to perform the pilot exam control method of any of the above embodiments.

A computer-readable storage medium may be, for example, any medium that can contain, store, communicate, propagate, or transport the instructions. For example, a readable storage medium may include, but is not limited to, an electronic, magnetic, optical, electromagnetic, infrared, or semiconductor system, apparatus, device, or propagation medium. Specific examples of the readable storage medium include: magnetic storage devices, such as magnetic tape or Hard Disk Drives (HDDs); optical storage devices, such as compact disks (CD-ROMs); memory such as Random Access Memory (RAM) or flash memory.

It is obvious to those skilled in the art that, for convenience and simplicity of description, the foregoing division of the functional modules is merely used as an example, and in practical applications, the above function distribution may be performed by different functional modules according to needs, that is, the internal structure of the device is divided into different functional modules to perform all or part of the above described functions. For the specific working process of the device described above, reference may be made to the corresponding process in the foregoing method embodiment, which is not described herein again.

Finally, it should be noted that: the above embodiments are only used for illustrating the technical solutions of the present disclosure, and not for limiting the same; while the present disclosure has been described in detail with reference to the foregoing embodiments, those of ordinary skill in the art will understand that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; features in embodiments of the disclosure may be combined arbitrarily, without conflict; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present disclosure.

Claims

1. A pilot exam control method, comprising:

and the terminal receives the test paper sent by the first platform server.

2. The pilot exam control method of claim 1,

the terminal is provided with at least one platform client, the at least one platform client comprises the first platform client, and different platform clients correspond to different platform servers.

3. The pilot test control method of claim 1 or 2, further comprising:

the terminal detects whether a pilot certificate corresponding to the user exists in a pilot certificate database;

and the terminal outputs prompt information according to the detection result.

4. The pilot test control method according to claim 3, wherein the terminal outputs a prompt message according to the result of the detection, including:

and if the pilot certificate corresponding to the user does not exist, displaying first indication information on an interface of the first platform client, wherein the first indication information is used for indicating that the user does not pass the pilot test.

5. The pilot test control method according to claim 3 or 4, wherein the terminal outputs prompt information according to the result of the detection, including:

and if the pilot certificate corresponding to the user does not exist, outputting second prompt information on an interface of the first platform client, wherein the second prompt information is used for prompting the user to perform pilot test.

6. The pilot test control method according to any one of claims 3 to 5, wherein the terminal outputs a prompt message according to a result of the detection, including:

and if the pilot certificate corresponding to the user exists, displaying third indication information on an interface of the first platform client, wherein the third indication information is used for indicating that the user passes the pilot test.

7. The pilot test control method of any one of claims 1 to 6, further comprising:

the terminal receives a certificate inquiry request sent by the user aiming at the first platform client;

the terminal sends the certificate inquiry request to the first platform server;

and the terminal receives a certificate inquiry result sent by the first platform server, wherein the certificate inquiry result is used for indicating whether a pilot certificate corresponding to the user exists in a pilot certificate database or not.

8. The pilot exam control method of claim 7, further comprising:

the terminal saves the certificate inquiry result;

and when the terminal receives a certificate inquiry request sent by the user aiming at the first platform client again, the terminal determines whether the pilot certificate corresponding to the user exists in the pilot certificate database according to the saved certificate inquiry result.

9. The pilot test control method of claim 7 or 8, further comprising:

if the pilot certificate corresponding to the user does not exist, displaying at least one of first indication information and second indication information on an interface of the first platform client;

the first indication information is used for indicating that the user fails a pilot test;

the second prompt message is used for prompting the user to take a pilot test.

10. The pilot test control method according to any one of claims 7 to 9, further comprising:

11. The pilot test control method according to any one of claims 1 to 10, further comprising:

the terminal receives a flight control instruction sent by the user aiming at the first platform client, wherein the flight control instruction is used for controlling the unmanned aerial vehicle to fly;

and if the pilot certificate corresponding to the user does not exist, displaying fourth indication information on an interface of the first platform client, wherein the fourth indication information is used for indicating that the user does not have the right to control the unmanned aerial vehicle.

12. The pilot test control method of claim 11, further comprising:

and if the pilot certificate corresponding to the user exists, the terminal sends the flight control instruction to the unmanned aerial vehicle.

13. The pilot test control method of any one of claims 1 to 12, further comprising:

the terminal receives answer data sent by the user aiming at the first platform client;

the terminal sends the answer data to the first platform server;

and the terminal receives the examination score sent by the first platform server.

14. The pilot test control method of claim 13, further comprising:

and if the test score passes, the terminal receives the pilot certificate information sent by the first platform server.

15. The pilot test control method of any one of claims 1 to 14, further comprising:

the terminal receives registration information sent by the user aiming at the first platform client;

the terminal sends the registration information to the first platform server;

and the terminal receives a registration result sent by the first platform server, wherein the registration result is used for indicating whether the registration information of the user is successfully registered.

16. The pilot exam control method of claim 15, wherein said registration information of said user is bound to the following real-name system information: identity card number.

17. The pilot test control method of any one of claims 1 to 16, further comprising:

the terminal receives a second examination request sent by the user aiming at the public client;

the terminal sends a test paper acquisition request to the pilot supervision server corresponding to the public client according to the second examination request;

and the terminal receives the test paper sent by the flight supervision server.

18. The pilot exam control method of any one of claims 1 to 17, wherein said platform client comprises at least one of: an application program, a browser.

19. A pilot exam control method, comprising:

and the first platform server sends the test paper to the terminal.

20. The pilot test control method of claim 19, wherein the platform servers include a plurality of platform servers, the plurality of platform servers are connected to the pilot supervision server and include the first platform server, and different platform servers correspond to different platform clients.

21. The pilot test control method of claim 19 or 20, further comprising:

the first platform server receives a certificate inquiry request sent by the terminal; the certificate inquiry request corresponds to a user of the terminal;

the first platform server sends the certificate inquiry request to the pilot supervision server;

the first platform server receives a certificate inquiry result sent by the pilot supervision server and sends the certificate inquiry result to the terminal; and the certificate inquiry result is used for indicating whether the pilot certificate corresponding to the user exists in a pilot certificate database.

22. The pilot exam control method of any one of claims 19 to 21, wherein said test paper comprises a first test question generated by said pilot supervision server.

23. The pilot test control method of claim 22, further comprising:

receiving answer data sent by the terminal;

the first platform server sends the answer data to the pilot supervision server;

the first platform server receives the examination score sent by the pilot supervision server, and the examination score is determined by the pilot supervision server according to the answer data;

and the first platform server sends the examination score to the terminal.

24. The pilot test control method of any one of claims 19 to 21, further comprising:

the first platform server generates a second test question according to the test paper acquisition request;

the first platform server adds the second test question to the received test paper sent by the pilot supervision server; the test paper further comprises a first test question, and the first test question is generated by the pilot supervision server;

the first platform server sends the test volume added with the second test question to the terminal.

25. The pilot test control method of claim 24, further comprising:

receiving answer data sent by the terminal;

the first platform server determines the score of the second test question according to the part corresponding to the second test question in the answer data, and sends the part corresponding to the first test question in the answer data to the pilot supervision server;

the first platform server receives the score of the first test question sent by the pilot supervision server, and determines the score of the test according to the score of the first test question and the score of the second test question, wherein the score of the first test question is determined by the pilot supervision server according to the part, corresponding to the first test question, in the answer data;

and the first platform server sends the examination score to the terminal.

26. The pilot test control method of claim 23 or 25, further comprising:

and if the test score passes, the first platform server sends pilot certificate information to the first platform client.

27. The pilot test control method of any one of claims 19 to 26, further comprising:

the first platform server receives registration information of a user sent by the terminal;

the first platform server sends the registration information to the pilot supervision server;

the first platform server receives a registration result sent by the pilot supervision server, wherein the registration result is used for indicating whether the registration information is successfully registered;

and the first platform server sends the registration result to the terminal.

28. The pilot test control method of claim 20, further comprising:

the first platform server associates user information with a test paper index, an examination score and a pilot certificate corresponding to the user information; wherein the user information is registration information of a user;

and the first platform server sends the associated user information, the examination paper index, the examination score and the pilot certificate to the pilot supervision server.

29. The pilot test control method of claim 20 or 21, wherein the registration information of the user is bound with the following real-name system information: identity card number.

30. The pilot exam control method of claim 15 or 17, wherein said first test questions are from a standard test questions database of said pilot supervision server.

31. The pilot test control method of claim 17, wherein the second test question is from a customized test question database of the platform server.

32. A pilot exam control method, comprising:

33. The pilot test control method of claim 32, wherein at least one platform client is installed in a terminal, the at least one platform client comprising a first platform client corresponding to the first platform server, and wherein different platform servers correspond to different platform clients.

34. The pilot test control method of claim 32 or 33, further comprising:

the pilot supervision server receives a certificate inquiry request sent by the first platform server;

the pilot supervision server inquires a pilot certificate database according to the certificate inquiry request and generates a certificate inquiry result; the certificate inquiry result is used for indicating whether a pilot certificate corresponding to the user exists in the pilot certificate database or not;

and the pilot supervision server sends the certificate inquiry result to the first platform server.

35. The pilot exam control method of any one of claims 32 to 34, wherein said test paper comprises a first test question from a standard test question database of said pilot supervision server.

36. The pilot test control method of claim 35, further comprising:

the pilot supervision server receives the answer data sent by the first platform server;

the pilot supervision server determines examination scores according to the answer data;

and the pilot supervision server sends the examination score to the first platform server.

37. The pilot test control method of claim 35, further comprising:

the pilot supervision server receives a part corresponding to the first test question in answer data sent by the first platform server; the pilot supervision server determines the score of the first test question according to the part, corresponding to the first test question, in the answer data;

and the pilot supervision server sends the score of the first test question to the first platform server.

38. A pilot test control method as claimed in any one of claims 32 to 37, further comprising:

the pilot supervision server receives a test paper acquisition request sent by a public client of the terminal;

the pilot supervision server generates a test paper according to the test paper acquisition request;

and the pilot supervision server sends the test paper to the terminal.

39. A pilot test control method as claimed in any one of claims 32 to 37, further comprising:

the pilot supervision server receives registration information of the user sent by the first platform server;

the pilot supervision server generates a registration result according to the registration information; the registration result is used for indicating whether the registration information is successfully registered;

and the pilot supervision server sends the registration result to the first platform server.

40. The pilot test control method of claim 39, further comprising:

the pilot supervision server receives the associated user information, examination paper indexes, examination scores and pilot certificates sent by the first platform server;

and the pilot supervision server stores the associated user information, examination paper index, examination score and pilot certificate to a pilot certificate database.

41. A pilot exam control method according to claim 39 or 40, wherein said registration information of said user is bound to the following real name system information: identity card number.

42. A terminal, characterized in that the terminal comprises: a memory, a processor, a user interface, and a communication interface;

the memory to store executable instructions;

43. The terminal of claim 42,

the terminal is provided with at least one platform client, and the at least one platform client comprises the first platform client and different platform servers corresponding to different platform clients.

44. The terminal of claim 42 or 43, wherein the processor further performs the following operations:

detecting whether a pilot certificate corresponding to the user exists in a pilot certificate database;

and outputting prompt information according to the detection result.

45. The terminal of claim 44, wherein the processor being operative to output a prompt based on the detection comprises:

46. The terminal of claim 44 or 45, wherein the processor is configured to output a prompt message according to the detection result, including:

47. The terminal of any one of claims 44 to 46, wherein the operation of the processor to output a prompt message based on the result of the detection comprises:

48. The terminal of any of claims 42 to 47, wherein the processor further performs the operations of:

receiving a certificate inquiry request sent by a user aiming at a first platform client through the user interface;

sending the certificate inquiry request to the first platform server corresponding to the first platform client through the communication interface;

and receiving a certificate inquiry result sent by the first platform server through the communication interface, wherein the certificate inquiry result is used for indicating whether a pilot certificate corresponding to the user exists in a pilot certificate database or not.

49. The terminal of claim 48, wherein the processor further performs the following:

storing the certificate inquiry result;

and when a certificate inquiry request sent by a user aiming at the first platform client side is received through the user interface again, determining whether a pilot certificate corresponding to the user exists in the pilot certificate database according to the saved certificate inquiry result.

50. The terminal of claim 48 or 49, wherein the processor further performs the following operations:

the second prompt message is used for prompting the user to take a pilot test.

51. The terminal of any of claims 48 to 50, wherein the processor further performs the following operations:

52. The terminal of any of claims 42 to 51, wherein the processor further performs the operations of:

receiving a flight control instruction sent by the user aiming at the first platform client through the user interface, wherein the flight control instruction is used for controlling the unmanned aerial vehicle to fly;

53. The terminal of claim 52, wherein the processor further performs the following:

and if the pilot certificate corresponding to the user exists, sending the flight control command to the unmanned aerial vehicle through the communication interface.

54. The terminal of any of claims 42 to 53, wherein the processor further performs the following operations:

receiving answer data sent by the user aiming at the first platform client through the user interface;

sending the answer data to the first platform server through the communication interface;

and receiving the examination score sent by the first platform server through the communication interface.

55. The terminal of claim 54, wherein the processor further performs the following:

and if the test result passes, receiving the pilot certificate sent by the first platform server through the communication interface.

56. The terminal of any of claims 42 to 55, wherein the processor further performs the following operations:

receiving registration information sent by the user aiming at the first platform client through the user interface;

sending the registration information to the first platform server through the communication interface;

and receiving a registration result sent by the first platform server through the communication interface, wherein the registration result is used for indicating whether the registration of the registration information of the user is successful.

57. The terminal of claim 56, wherein the registration information of the user is bound with the following real-name system information: identity card number.

58. The terminal of claims 42 to 57, wherein the processor further performs the following operations:

receiving a second examination request sent by the user for a public client through the user interface;

sending a test paper acquisition request to the pilot supervision server corresponding to the public client through the communication interface according to the second examination request;

and receiving the test paper sent by the flight supervision server through the communication interface.

59. The terminal of claims 42 to 58, wherein the platform client comprises at least one of: an application program, a browser.

60. A platform server, the platform server comprising: the device comprises a memory, a processor, a first communication interface and a second communication interface;

the memory to store executable instructions;

61. The platform server of claim 60, wherein the platform server includes a plurality of platform servers, the plurality of platform servers coupled to the pilot supervision server and including the first platform server, different platform servers corresponding to different platform clients.

62. The platform server of claim 60 or 61, wherein the processor further performs the operations of:

receiving a certificate inquiry request sent by the terminal through the first communication interface; the certificate inquiry request corresponds to a user of the terminal;

sending the certificate query request to the pilot supervision server through the second communication interface;

receiving a certificate inquiry result sent by the pilot supervision server through the second communication interface, and sending the certificate inquiry result to the terminal through the first communication interface; and the certificate inquiry result is used for indicating whether the pilot certificate corresponding to the user exists in a pilot certificate database.

63. The platform server of any one of claims 60 to 62, wherein the test paper includes a first test question generated by the pilot supervision server.

64. The platform server of claim 63, wherein the processor further performs the operations of:

receiving answer data sent by the terminal through the first communication interface;

sending the answer data to the pilot supervision server through the second communication interface;

receiving the examination score sent by the pilot supervision server through the second communication interface, wherein the examination score is determined by the pilot supervision server according to the answer data;

and sending the examination score to the terminal through the first communication interface.

65. The platform server according to any one of claims 60 to 62, wherein the processor further performs the operations of:

generating a second test question according to the test paper acquisition request;

adding the second test question to the test paper sent by the pilot supervision server received through the second communication interface; the test paper further comprises a first test question, and the first test question is generated by the pilot supervision server;

and sending the test volume added with the second test question to the terminal through the first communication interface.

66. The platform server of claim 65, wherein the processor further performs the operations of:

the first platform server determines the score of the second test question according to the part, corresponding to the second test question, in the answer data, and sends the part, corresponding to the first test question, in the answer data to the pilot supervision server through the second communication interface;

receiving the score of the first test question sent by the pilot supervision server through the second communication interface, and determining the score of the test according to the score of the first test question and the score of the second test question, wherein the score of the first test question is determined by the pilot supervision server according to the part, corresponding to the first test question, in the answer data;

67. The platform server according to claim 64 or 66, wherein the processor further performs the following operations:

and if the test score passes, sending a pilot certificate to the first platform client through the first communication interface.

68. The platform server according to any one of claims 60 to 67, wherein the processor further performs the operations of:

receiving registration information of a user sent by the terminal through the first communication interface;

sending the registration information to the pilot supervision server through the second communication interface;

and receiving a registration result sent by the pilot supervision server through the second communication interface, wherein the registration result is used for indicating whether the registration information is successfully registered.

And sending the registration result to the terminal through the first communication interface.

69. The platform server of claim 68, wherein the processor further performs the operations of:

associating user information with a test paper index, an examination score and a pilot certificate corresponding to the user information; wherein the user information is registration information of a user;

and sending the associated user information, the examination paper index, the examination score and the pilot certificate to the pilot supervision server through the second communication interface.

70. The platform server of claim 68 or 69,

the registration information of the user is bound with the following real-name system information: identity card number.

71. The platform server of claim 63 or 65, wherein the first test question is from a standard test question database of the pilot supervision server.

72. The platform server of claim 65, wherein the second test question is from a customized database of test questions for the platform server.

73. A pilot supervision server, characterized in that the pilot supervision server comprises: a memory, a processor, and a communication interface;

a memory for storing executable instructions;

generating a test paper according to the test paper creating request;

74. The pilot supervision server of claim 73, wherein at least one platform client is installed at a terminal, the at least one platform client comprising a first platform client corresponding to the first platform server, and wherein different platform servers correspond to different platform clients.

75. The pilot supervision server of claim 73 or 74, wherein the processor is further configured to:

receiving a certificate inquiry request sent by the first platform server through the communication interface;

inquiring a pilot certificate database according to the certificate inquiry request and generating a certificate inquiry result; the certificate inquiry result is used for indicating whether a pilot certificate corresponding to the user exists in the pilot certificate database or not;

and sending the certificate inquiry result to the first platform server through the communication interface.

76. The pilot supervision server of any one of claims 73 to 75, wherein the test paper comprises a first test question from a standard test question database of the pilot supervision server.

77. The pilot supervision server of claim 76, wherein the processor is further configured to:

receiving answer data sent by the first platform server through the communication interface;

determining examination scores according to the answer data;

and sending the examination score to the first platform server through the communication interface.

78. The pilot supervision server of claim 76, wherein the processor is further configured to:

receiving a part corresponding to the first test question in answer data sent by the first platform server through the communication interface; determining the score of the first test question according to the part, corresponding to the first test question, in the answer data;

and sending the score of the first test question to the first platform server through the communication interface.

79. The pilot supervision server of any one of claims 73 to 78, wherein the processor is further configured to:

receiving a test paper acquisition request sent by a public client of the terminal through the communication interface;

generating a test paper according to the test paper acquisition request;

and sending the test paper to the terminal through the communication interface.

80. The pilot supervision server of any one of claims 73 to 78, wherein the processor is further configured to:

receiving registration information of the user sent by the first platform server through the communication interface;

generating a registration result according to the registration information; the registration result is used for indicating whether the registration information is successfully registered;

and sending the registration result to the first platform server through the communication interface.

81. The pilot supervision server of claim 80, wherein the processor is further configured to:

receiving the associated user information, examination paper index, examination score and pilot certificate sent by the first platform server through the communication interface;

and storing the associated user information, examination paper index, examination score and pilot certificate into a pilot certificate database.

82. The pilot supervision server of claim 80 or 81,

83. A pilot exam control system, comprising: a plurality of terminals, a plurality of platform servers, and a pilot supervision server;

84. The pilot exam control system of claim 83, wherein,

the terminal is also used for detecting whether a pilot certificate corresponding to the user exists in a pilot certificate database;

and the terminal is also used for outputting prompt information according to the detection result.

85. The pilot exam control system of claim 84, wherein,

and if the pilot certificate corresponding to the user does not exist, the terminal is further used for displaying first indication information on an interface of the first platform client, wherein the first indication information is used for indicating that the user fails in pilot test.

86. The pilot exam control system of claim 84 or 85, wherein,

and if the pilot certificate corresponding to the user does not exist, the terminal is further used for outputting second prompt information on an interface of the first platform client, and the second prompt information is used for prompting the user to take a pilot test.

87. The pilot exam control system of any one of claims 84 to 86, wherein,

and if the pilot certificate corresponding to the user exists, the terminal is further used for displaying second indication information on an interface of the first platform client, wherein the second indication information is used for indicating that the user passes a pilot test.

88. The pilot exam control system of any one of claims 84 to 87, wherein,

the terminal is also used for receiving a certificate inquiry request sent by a user aiming at the first platform client side and sending the certificate inquiry request to the first platform server;

the first platform server is further used for receiving the certificate inquiry request and sending the certificate inquiry request to the pilot supervision server;

the pilot supervision server is further used for receiving the certificate inquiry request, inquiring a pilot certificate database according to the certificate inquiry request, generating a certificate inquiry result and sending the certificate inquiry result to the first platform server;

the first platform server is further used for receiving the certificate inquiry result and sending the certificate inquiry result to the terminal;

the terminal is further used for receiving the certificate inquiry result, and the certificate inquiry result is used for indicating whether the pilot certificate corresponding to the user exists in the pilot certificate database or not.

89. The pilot exam control system of claim 88, wherein,

the terminal is also used for storing the certificate inquiry result;

when the terminal receives the certificate inquiry request sent by the user aiming at the first platform client again, the terminal is also used for determining whether the pilot certificate corresponding to the user exists in the pilot certificate database according to the saved certificate inquiry result.

90. A pilot exam control system according to claim 88 or 89, wherein,

if the pilot certificate corresponding to the user does not exist, the terminal is further used for displaying at least one of first indication information and second indication information on an interface of the first platform client:

the second prompt message is used for prompting the user to take a pilot test.

91. A pilot test control system according to any one of claims 88 to 90, further comprising:

and if the pilot certificate corresponding to the user exists, the terminal is further used for displaying third indication information on an interface of the first platform client, wherein the third indication information is used for indicating that the user passes a pilot test.

92. The pilot exam control system of any one of claims 84 to 91, wherein said test paper comprises a first test question from a standard test question database of said pilot supervision server.

93. The pilot exam control system of claim 92,

the terminal is also used for receiving answer data sent by a user aiming at the first platform client side and sending the answer data to the first platform server;

the first platform server is also used for receiving the answer data and sending the answer data to the pilot supervision server;

the pilot supervision server is also used for receiving the answer data, determining examination scores according to the answer data and sending the examination scores to the first platform server;

the first platform server is also used for receiving the examination score and sending the examination score to the terminal;

the terminal is also used for receiving the examination score.

94. The pilot exam control system of any one of claims 84 to 91,

the first platform server is further used for generating a second test question according to the test paper acquisition request and adding the second test question to the received test paper sent by the pilot supervision server; the test paper further comprises a first test question, and the first test question is generated by the pilot supervision server;

95. The pilot exam control system of claim 94, wherein said first test questions are from a standard test questions database of said pilot supervision server; the second test question is from a customized test question database of the first platform server.

96. A pilot exam control system according to claim 94 or 95, wherein,

the first platform server is further used for receiving the answer data, determining the score of the second test question according to the part, corresponding to the second test question, in the answer data, and sending the part, corresponding to the first test question, in the answer data to the pilot supervision server;

the pilot supervision server is further used for receiving a part corresponding to the first test question in the answer data, determining the score of the first test question according to the part corresponding to the first test question in the answer data, and sending the score of the first test question to the first platform server;

the platform server is also used for receiving the scores, determining examination scores according to the scores of the first examination questions and the scores of the second examination questions, and sending the examination scores to the terminal;

the terminal is also used for receiving the examination score.

97. The pilot test control system of claim 93 or 96,

if the examination score passes, the first platform server is further used for sending a pilot certificate to the terminal; the terminal is also used for receiving the pilot certificate.

98. The pilot exam control system of any one of claims 84 to 97, wherein,

the terminal is further used for receiving registration information sent by the user aiming at the first platform client and sending the registration information to the first platform server;

the first platform server is also used for receiving the registration information and sending the registration information to the pilot supervision server;

the pilot supervision server is also used for receiving the registration information, generating a registration result according to the registration information and sending the registration result to the first platform server; the registration result is used for indicating whether the registration information is successfully registered;

the first platform server is also used for receiving the registration result and sending the registration result to the terminal;

the terminal is also used for receiving the registration result.

99. The pilot exam control system of any one of claims 84 to 98, wherein,

the first platform server is also used for associating the user information with the examination paper index, the examination score and the pilot certificate corresponding to the user information; wherein the user information is from the registration information of the user, and the associated user information, the examination paper index, the examination score and the pilot certificate are sent to the pilot supervision server;

the pilot supervision server is also used for receiving the associated user information, examination paper indexes, examination scores and pilot certificates and storing the associated user information, examination paper indexes, examination scores and pilot certificates in a pilot certificate database.

100. A pilot exam control system according to claim 98 or 99, wherein said user registration information is bound to at least the following real name system information: identity card number.

101. The pilot test control system of any one of claims 84 to 100,

the terminal is further used for receiving a second examination request sent by the user aiming at a public client, and sending a test paper acquisition request to the pilot supervision server corresponding to the public client according to the second examination request;

the pilot supervision server is further used for receiving the test paper acquisition request, generating a test paper according to the test paper acquisition request and sending the test paper to the terminal;

the terminal is also used for receiving the test paper.

102. A pilot exam control system according to any one of claims 84 to 101, wherein said platform client comprises at least one of: an application program, a browser.

103. A computer-readable storage medium having stored thereon executable instructions that, when executed by one or more processors, may cause the one or more processors to perform a pilot exam control method as defined in any one of claims 1 to 41.