CN110908507A

CN110908507A - Control system and control method of terminal

Info

Publication number: CN110908507A
Application number: CN201911053496.8A
Authority: CN
Inventors: 金伟光
Original assignee: JD Digital Technology Holdings Co Ltd
Current assignee: JD Digital Technology Holdings Co Ltd
Priority date: 2019-10-31
Filing date: 2019-10-31
Publication date: 2020-03-24

Abstract

The embodiment of the invention provides a control system and a control method of a terminal, wherein the control system of the terminal comprises the following components: the system comprises an adjusting bracket, a second terminal and a server, wherein the adjusting bracket is used for fixing a first terminal; under the condition that the second terminal moves, the second terminal is used for collecting the motion information of the second terminal and sending a control instruction to the server side, wherein the control instruction comprises the motion information of the second terminal; the server is used for receiving a control instruction of the second terminal and sending the control instruction to the adjusting bracket; the adjusting bracket is used for receiving a control instruction sent by the server and controlling the self-movement according to the movement information in the control instruction. Therefore, under the condition that the second terminal moves, the second terminal can control the adjusting support to move synchronously, and then drives the first terminal fixed on the adjusting support to move, so that the problem that a user cannot operate the terminal in the process of the online shopping terminal is solved, and the user experience can be improved.

Description

Control system and control method of terminal

Technical Field

The invention relates to the technical field of computers, in particular to a control system and a control method of a terminal.

Background

Generally, the way of the user to purchase the terminal (e.g. mobile phone or tablet computer, etc.) can be various, such as online shopping or physical store purchasing. The advantage of the purchase mode of the physical store is that the function of the terminal can be experienced. But the physical store purchase approach wastes the user's time due to distance issues. With the increasing popularity of online shopping, most users can choose to purchase terminals on the internet, but online shopping can only indirectly know the functions of the terminals by checking official videos, inquiring public praise or checking comments, and cannot enable the users to experience the functions of the terminals in a tailored manner, namely, the users cannot perform any operation on the terminals in the process of online shopping of the terminals.

Disclosure of Invention

In view of this, embodiments of the present invention provide a control system and a control method for a terminal, which can solve the problem that a user cannot operate the terminal in the process of purchasing the terminal on the internet.

To achieve the above object, according to one aspect of the present invention, there is provided a control system of a terminal.

The control system of a terminal of the embodiment of the invention comprises: the system comprises an adjusting bracket, a second terminal and a server, wherein the adjusting bracket is used for fixing a first terminal;

under the condition that the second terminal moves, the second terminal is used for acquiring self movement information and sending a control instruction to the server side, wherein the control instruction comprises the movement information of the second terminal;

the server is used for receiving a control instruction of the second terminal and sending the control instruction to the adjusting bracket;

the adjusting bracket is used for receiving the control instruction sent by the server and controlling the self-movement according to the movement information in the control instruction.

Optionally, the motion information comprises one or more of: acceleration sensor detection information, gyroscope detection information, position information, and compass detection information.

Optionally, the adjusting bracket is configured to obtain one or more of acceleration sensor detection information, gyroscope detection information, position information, and compass detection information from the control instruction; and controlling one or more of the moving direction, the moving distance, the rotating direction and the rotating angle of the adjusting bracket according to one or more of the acceleration sensor detection information, the gyroscope detection information, the position information and the compass detection information.

Optionally, the control system of the terminal further includes: a first terminal and a third terminal;

the third terminal is used for acquiring the connection state between the first terminal and the third terminal and/or the connection state between the adjusting bracket and the third terminal, and sending the connection state between the first terminal and the third terminal and/or the connection state between the adjusting bracket and the third terminal to the server;

the server is used for receiving the connection state of the first terminal and the third terminal and/or the connection state of the adjusting bracket and the third terminal, generating an available equipment list according to the connection state of the first terminal and the third terminal and/or the connection state of the adjusting bracket and the third terminal, and sending the available equipment list to the second terminal; the second terminal is used for displaying the available equipment list.

Optionally, the second terminal is configured to send an operation instruction to the server;

the server is used for receiving the operation instruction sent by the second terminal and sending the operation instruction to the first terminal;

the first terminal is used for receiving the operation instruction sent by the server and carrying out corresponding operation according to the operation instruction.

To achieve the above object, according to one aspect of the present invention, there is provided a control method of a terminal.

The control method of the terminal of the embodiment of the invention comprises the following steps:

under the condition that the second terminal moves, the second terminal collects self movement information and sends a control instruction to the server side, wherein the control instruction comprises the movement information of the second terminal;

the server receives a control instruction sent by the second terminal and sends the control instruction to the adjusting bracket;

and the adjusting bracket used for fixing the first terminal receives the control instruction sent by the server and controls the self-movement according to the movement information in the control instruction.

Optionally, the motion information comprises one or more of: acceleration sensor detection information, gyroscope detection information, position information, and/or compass detection information.

Optionally, the adjusting the support controls the movement of the support according to the movement information in the control instruction, including:

the adjusting bracket acquires one or more items of acceleration sensor detection information, gyroscope detection information, position information and compass detection information from the control instruction;

the adjusting support controls one or more of the moving direction, the moving distance, the rotating direction and the rotating angle of the adjusting support according to one or more of acceleration sensor detection information, gyroscope detection information, position information and compass detection information.

Optionally, the method further comprises:

the third terminal acquires the connection state of the first terminal and the third terminal and/or the connection state of the adjusting bracket and the third terminal, and sends the connection state of the first terminal and the third terminal and/or the connection state of the adjusting bracket and the third terminal to the server;

the server receives the connection state of the first terminal and the third terminal and/or the connection state of the adjusting bracket and the third terminal, generates an available equipment list according to the connection state of the first terminal and the third terminal and/or the connection state of the adjusting bracket and the third terminal, and sends the available equipment list to the second terminal;

and the second terminal displays the available equipment list.

Optionally, the method further comprises:

the second terminal sends an operation instruction to the server;

the server receives the operation instruction and sends the operation instruction to the first terminal;

and the first terminal carries out corresponding operation according to the operation instruction.

According to the technical scheme of the invention, one embodiment of the invention has the following advantages or beneficial effects:

in the embodiment of the present invention, when the second terminal moves, the second terminal may send a control instruction to the adjustment bracket, where the control instruction carries motion information, and the motion information is information related to the movement of the second terminal. After the control instruction received by the adjusting bracket is received, analyzing the control instruction to obtain motion information, and controlling the motion of the adjusting bracket according to the motion information, for example: and the adjusting bracket controls the self movement or rotation movement according to the movement information. Therefore, under the condition that the second terminal moves, the second terminal can control the adjusting support to move synchronously, and then drives the first terminal fixed on the adjusting support to move, so that the problem that a user cannot operate the terminal in the process of purchasing the terminal on the internet is solved, and the user experience can be improved.

Further effects of the above-mentioned non-conventional alternatives will be described below in connection with the embodiments.

Drawings

The drawings are included to provide a better understanding of the invention and are not to be construed as unduly limiting the invention. Wherein:

fig. 1 is one of the configuration diagrams of a control system of a terminal according to an embodiment of the present invention;

fig. 2 is a second schematic structural diagram of a control system of the terminal according to the embodiment of the invention;

fig. 3 is one of flowcharts illustrating a control method of a terminal according to an embodiment of the present invention;

fig. 4 is a second flowchart illustrating a control method of a terminal according to an embodiment of the present invention.

Detailed Description

Exemplary embodiments of the present invention are described below with reference to the accompanying drawings, in which various details of embodiments of the invention are included to assist understanding, and which are to be considered as merely exemplary. Accordingly, those of ordinary skill in the art will recognize that various changes and modifications of the embodiments described herein can be made without departing from the scope and spirit of the invention. Also, descriptions of well-known functions and constructions are omitted in the following description for clarity and conciseness.

Fig. 1 is a schematic structural diagram of a control system of a terminal according to an embodiment of the present invention, and as shown in fig. 1, the control system of the terminal includes: the terminal comprises an adjusting bracket used for fixing a first terminal, a second terminal and a server.

Under the condition that the second terminal moves, the second terminal is used for acquiring self movement information and sending a control instruction to the server side, wherein the control instruction comprises the movement information of the second terminal; the server is used for receiving a control instruction of the second terminal and sending the control instruction to the adjusting bracket; the adjusting bracket is used for receiving the control instruction sent by the server and controlling the self-movement according to the movement information in the control instruction.

The server side can be a cloud platform, and the second terminal is terminal equipment for implementing active control. The server can be connected with the second terminal through a full-duplex communication Protocol, the full-duplex communication Protocol can be a websocket, and the websocket is a Protocol for performing full-duplex communication on a single TCP (Transmission Control Protocol) connection.

When the server side is connected with the second terminal through the websocket, the server side can start a socket server, the second terminal can start two websocket clients, and the socket server of the server side is connected with the websocket clients of the second terminal in a long way to transmit commands and image information.

The websocket client can be understood as a request client of the communication service, and the socket server can be understood as a service end of the communication service. The server passively receives a connection request, the clients actively require a connection end, and each server can start a plurality of socket servers and also can start a plurality of clients. And the socket servers can be one-to-many, and if the performance requirement is higher, two socket servers can be started to respectively correspond to the websocket clients. One of the socket servers may be used to transmit image information, and the other socket server may be used to transmit instructions, so as to improve transmission efficiency between the server and the second terminal.

Further, the second terminal may be an electronic device such as a Personal Computer (PC) or a mobile phone, where the PC includes: desktop, all-in-one, notebook, palm, etc. In the process of acquiring the motion information by the second terminal, the second terminal is configured to call a relevant API (application programming Interface) through an application layer to acquire the motion information of the second terminal. Further, the second terminal is configured to call native Java (Java is a door-to-object programming language) or Objective-C (Objective-C is a general, high-level, and object-to-object programming language) through a js layer, and further call a related API (application programming Interface) to collect motion information of the second terminal, where the motion information refers to parameter information related to motion of the second terminal.

In the embodiment of the present invention, when the second terminal moves, the second terminal may send a control instruction to the adjustment bracket, where the control instruction carries motion information, and the motion information is parameter information related to the movement of the second terminal. After the control instruction received by the adjusting bracket is received, analyzing the control instruction to obtain motion information, and controlling the motion of the adjusting bracket according to the motion information, for example: and the adjusting bracket controls the self movement or rotation movement according to the movement information. Therefore, under the condition that the second terminal moves, the second terminal can control the adjusting support to move synchronously, and then drives the first terminal fixed on the adjusting support to move, so that the problem that a user cannot operate the terminal in the process of purchasing the terminal on the internet is solved, and the user experience can be improved.

In addition, different manufacturers can synchronize a plurality of first terminals produced by the manufacturers into a server (such as a cloud platform) of the control system, and a user can reserve and experience the first terminals on a second terminal of the control system. For example: when a terminal manufacturer has a new product of the first terminal to be listed, the terminal manufacturer can connect the new product of the first terminal into the control system for user experience at the first time, and the problem that the terminal function can be experienced after long delay is avoided. Meanwhile, a terminal manufacturer can be a domestic or foreign manufacturer, namely, the control system of the terminal provided by the embodiment of the invention can break the domestic and foreign boundaries and enable a user to experience various foreign devices.

In an embodiment of the present invention, the motion information may include one or more of the following: acceleration sensor detection information, gyroscope detection information, position information, and compass detection information.

It should be noted that the location information is the geographic location information of the second terminal, where the location information of the second terminal may be detected through a positioning System, and the positioning System may be a Global Positioning System (GPS), an indoor positioning System, a bluetooth positioning System, or an Ultra Wide Band (UWB) positioning System, and the like. It is understood that different positioning systems may be used to detect the location information of the second terminal according to different accuracy requirements.

In the process that the second terminal controls the adjusting bracket to move, the adjusting bracket is used for acquiring one or more items of acceleration sensor detection information, gyroscope detection information, position information and compass detection information from the control instruction; and controlling one or more of the moving direction, the moving distance, the rotating direction and the rotating angle of the adjusting bracket according to one or more of the acceleration sensor detection information, the gyroscope detection information, the position information and the compass detection information.

For example: the adjusting bracket can control the self-movement according to the position information and compass detection information of the second terminal, or the adjusting bracket can control the self-rotation according to the gyroscope detection information of the second terminal.

Specifically, in the process that the adjusting bracket controls the adjusting bracket to move, the adjusting bracket is used for acquiring position information and compass detection information from the control instruction, and controlling the moving direction and the moving distance of the adjusting bracket according to the position information and the compass detection information. And in the process of controlling the self rotation by the adjusting bracket, the adjusting bracket is used for acquiring gyroscope detection information from the control instruction and controlling the rotation direction and the rotation angle of the adjusting bracket according to the gyroscope detection information.

For example: and in the process that the user controls the first terminal to shoot through the second terminal, the camera of the first terminal needs to be aligned to the object to be shot. In the process of aligning the object to be shot, the user needs to move left and right, move front and back or rotate the second terminal, at the moment, the second terminal sends a control instruction carrying motion information to the server, and the server sends the control instruction to the adjusting bracket. The adjusting bracket analyzes the position information and compass detection information of the second terminal from the received control instruction, and then controls the adjusting bracket to move left and right or move front and back through the position information and the compass detection information, and further drives the first terminal to move left and right or move front and back through the adjusting bracket. Or the adjusting bracket analyzes the gyroscope detection information from the received control instruction, and then controls the adjusting bracket to rotate through the gyroscope detection information, so that the adjusting bracket drives the first terminal to rotate, and the process that the first terminal aligns to the object to be shot is completed.

For another example: the user can control the second terminal to do in-plane rotation motion, at the moment, the second terminal sends a control instruction to the adjusting support, the control instruction carries gyroscope detection information, the adjusting support obtains the gyroscope detection information through analysis from the control instruction, the adjusting support does synchronous rotation motion according to the gyroscope detection information, and the adjusting support further drives the first terminal to do rotation motion to adjust the screen display direction of the first terminal.

Meanwhile, the second terminal can control the movement of the adjusting bracket, and can also operate on the first terminal, at this time, the second terminal is a terminal device implementing active control, and the first terminal is a controlled terminal device. The first terminal can be a mobile phone, a tablet computer or wearable equipment and other terminal equipment.

Further, the operation of the second terminal on the first terminal is performed by the following general processes: the second terminal is used for sending an operation instruction to the server; the server is used for receiving the operation instruction sent by the second terminal and sending the operation instruction to the first terminal; the first terminal is used for receiving the operation instruction sent by the server and carrying out corresponding operation according to the operation instruction.

For example: the operation instruction can be a click instruction, a double click instruction, a sliding instruction or an input instruction. Correspondingly, after receiving the operation instruction, the first terminal can execute operations such as clicking, double clicking, sliding or inputting and the like corresponding to the operation instruction. In this way, by sending an operation instruction to the first terminal by the second terminal to perform a corresponding operation on the first terminal, various functions of the first terminal can be better verified, for example: through some functions such as gyroscope or compass can be experienced to the second terminal, and then user experience can be strengthened, further solve the problem that the user can't operate the terminal at the in-process of online shopping terminal.

The operation command includes information necessary for operation, for example: type of operation and operating parameters, etc.

Taking the click operation on the first terminal as an example, the first terminal sends the screenshot of the first terminal to the second terminal, and the second terminal receives the screenshot of the first terminal and displays the screenshot of the first terminal. If the second terminal monitors that the user performs click operation on the second terminal, the second terminal sends an operation instruction to the server, wherein the operation instruction at least comprises the following information: and clicking operation, coordinate information of the clicking position in the screenshot, and the like. It is understood that the operation type is a click operation, and the operation parameter is coordinate information of the click position in the screenshot. And the server receives an operation instruction sent by the second terminal and sends the operation instruction to the first terminal, and after the first terminal receives the operation instruction, the first terminal executes corresponding click operation according to the operation instruction.

It should be noted that the control system in the above embodiment has the following problems: since the server is connected with a plurality of first terminals and adjusting brackets, the transmission pressure and the calculation pressure of the server are increased. In order to solve the problem of large transmission pressure and calculation pressure of the server, referring to fig. 2, on the basis of the foregoing embodiment, the control system of the terminal further includes: the third terminal is respectively connected with the first terminal, the adjusting bracket and the server side. Therefore, by adding the third terminal between the first terminal and the adjusting bracket and the server, partial pressure of the server can be transferred to the third terminal, so that the pressure of the server can be relieved, and meanwhile, the transmission efficiency of the control system can be improved.

It is understood that, before the second terminal controls the adjusting bracket, the server obtains the connection state of the first terminal and the third terminal and/or the connection state of the adjusting bracket and the third terminal, and generating a list of available devices according to the connection state of the first terminal and the third terminal and/or the connection state of the adjusting bracket and the third terminal, and sending the available device list to a second terminal, the second terminal displaying the available device list, a user being able to select an available first terminal and an adjustment bracket corresponding to the first terminal on the second terminal, and the user being able to operate on the available first terminal, and the second terminal further controls the movement of the available first terminal by controlling the movement of the adjusting bracket.

Further, the list of available devices may be displayed on a platform interface of the second terminal, an Application (app), or a Web page of a browser (World Wide Web).

It should be noted that the third terminal may be a PC, but is not limited thereto. The first terminal and the adjusting bracket may be connected with the third terminal in a wireless or wired manner. If the first terminal and the adjusting bracket are connected with the third terminal in a wired manner, the first terminal and the adjusting bracket may be connected with the third terminal through a Universal Serial Bus (USB) interface, a micro USB interface, a USB type C interface (C-type USB interface), or a USB type B interface (B-type USB interface). If the first terminal and the adjusting bracket are connected with the third terminal in a Wireless manner, the first terminal and the adjusting bracket may be connected with the third terminal through Wi-Fi (Wireless Fidelity) or bluetooth.

Because signal interference exists in the process of interaction between different first terminals or the adjusting bracket and the third terminal, in order to ensure the stability of transmission, the first terminals and the adjusting bracket can be connected with the third terminal in a wired mode. The third terminal may be connected to the server through a socket (socket), that is, the third terminal starts a socket server and is connected to the server through the socket server, thereby establishing a long connection from the third terminal to the server.

It should be explained that starting the Socket server at the third terminal aims at establishing a communication channel with the third terminal when the server sends an operation instruction such as clicking or inputting, and at this time, a Socket client for establishing a connection with the third terminal to transmit the operation instruction can be restarted at the server.

It should be emphasized that the process of acquiring the connection state between the first terminal and the third terminal and/or the connection state between the adjusting bracket and the third terminal by the third terminal is a real-time acquisition process, and once there is another first terminal or adjusting bracket disconnected from the third terminal, the third terminal can immediately notify the server.

In the embodiment of the present invention, a driver may be installed on the third terminal, and the driver may be configured to detect whether the first terminal or the adjustment bracket is connected to the third terminal. The third terminal sends heartbeat information to the first terminal or the adjusting bracket according to a preset time period through the driving software, and if the third terminal receives response information returned by the first terminal or the adjusting bracket, the third terminal indicates that the first terminal or the adjusting bracket is connected with the third terminal; and if the third terminal does not receive the response information returned by the first terminal or the adjusting support, indicating that the first terminal or the adjusting support is not connected with the third terminal.

When detecting whether the first terminal is connected to the USB interface through the driver software, the first terminal may be a terminal device of an android or iOS (iOS is a mobile operating system developed by apple inc.). When the third terminal detects whether the first terminal of the iOS is connected thereto, the third terminal may employ a Mac (Macintosh, Macintosh computer) system. When the third terminal detects whether the first terminal is connected with an android, the third terminal may adopt an android system, a Mac system, a Unix (Unix) system or a Windows system (a Windows operating system is a set of operating systems developed by microsoft corporation in the united states), and the like. Similarly, when the third terminal detects whether an adjusting bracket is connected thereto, the third terminal may adopt an android system, a Mac system, a Unix or windows system, or the like.

In addition, the second terminal can control the shooting process of the first terminal, and after the first terminal finishes shooting, the shot picture can be led out to the third terminal, so that the shot picture can be sent to the second terminal through the server side and stored in an album of the second terminal, and therefore a user can check the quality of the shot picture in the second terminal.

In the embodiment of the present invention, the function of the adjusting bracket is to drive the first terminal to move or rotate according to the control command sent by the second terminal, and there are various embodiments that can achieve the above function, and a preferred embodiment thereof will be described below.

Wherein the adjustment bracket includes:

a moving part including: a guide rail and a slider; the sliding block is connected with the sliding rail in a sliding manner;

the rotating part is connected with the sliding block; the first terminal is fixed on the rotating part;

a control unit connected to the server, the moving unit, and the rotating unit; the control part is used for receiving a control instruction sent by the second terminal, analyzing motion information from the control instruction and controlling the motion of the moving part and/or the rotating part according to the motion information.

Further, the motion information includes one or more of: acceleration sensor detection information, gyroscope detection information, position information, and compass detection information.

In the process that the control part controls the rotating part and/or the moving part to move correspondingly according to the motion information, the control part firstly acquires one or more items of acceleration sensor detection information, gyroscope detection information, position information and compass detection information from the control command; and controlling a moving direction and a moving distance of the moving part and/or controlling a rotating direction and a rotating angle of the rotating part according to one or more of acceleration sensor detection information, gyroscope detection information, position information, and compass detection information.

For example: if the control instruction contains position information and compass detection information, the position information and the compass detection information are sent to the mobile part, and the mobile part is used for receiving the position information and the compass detection information and controlling the self moving direction and moving distance according to the position information and the compass detection information; and if the control instruction contains gyroscope detection information, sending the gyroscope detection information to the rotating part, wherein the rotating part is used for receiving the gyroscope detection information sent by the control part and controlling the rotating direction and the rotating angle of the rotating part according to the gyroscope detection information.

Further, the rotating part may be a multi-angle rotating robot arm, but is not limited thereto.

Further, the control unit may be connected to the server via the third terminal. It can be understood that the server is configured to receive a control instruction sent by a second terminal, and send the control instruction to the third terminal; the third terminal is used for receiving the control instruction sent by the server and sending the control instruction to the control part; and the control part receives a control command sent by the third terminal and analyzes the motion information from the control command.

On the basis of the above embodiment, the adjusting bracket further includes: the base, the base with remove the portion and be connected, the base is used for supporting remove the portion with the rotating part.

Fig. 3 is a flowchart illustrating a control method of a terminal according to an embodiment of the present invention, where the control method may be applied to the control system shown in fig. 1, and as shown in fig. 3, the specific steps of the control method of the terminal include:

step 301: under the condition that the second terminal moves, the second terminal collects the motion information of the second terminal and sends a control instruction to the server side, wherein the control instruction comprises the motion information of the second terminal.

In the embodiment of the present invention, the second terminal may call a relevant API through an application layer to acquire the motion information of the second terminal. The second terminal can call native Java or Objective-C through a js layer, and then call a related API to acquire the motion information of the second terminal.

In an embodiment of the present invention, the motion information may include one or more of the following: acceleration sensor detection information, gyroscope detection information, position information, and/or compass detection information.

Step 302: and the server receives the control instruction sent by the second terminal and sends the control instruction to the adjusting bracket.

Step 303: and the adjusting bracket used for fixing the first terminal receives the control instruction sent by the server and controls the self-movement according to the movement information in the control instruction.

Wherein, step 303 may specifically include: the adjusting bracket acquires one or more items of acceleration sensor detection information, gyroscope detection information, position information and compass detection information from the control instruction; the adjusting support controls one or more of the moving direction, the moving distance, the rotating direction and the rotating angle of the adjusting support according to one or more of acceleration sensor detection information, gyroscope detection information, position information and compass detection information.

For example: the adjusting bracket acquires position information and compass detection information from the control instruction; the adjusting bracket controls the moving direction and the moving distance of the adjusting bracket according to the position information and the compass detection information; or the adjusting bracket acquires gyroscope detection information from the control instruction; and the adjusting bracket controls the rotating direction and the rotating angle of the adjusting bracket according to the gyroscope detection information.

On the basis of the above embodiment, before step 301, the method further includes:

the third terminal acquires the connection state of the first terminal and the third terminal and/or the connection state of the adjusting bracket and the third terminal, and sends the connection state of the first terminal and the third terminal and/or the connection state of the adjusting bracket and the third terminal to the server side;

the server receives the connection state of the first terminal and the third terminal and/or the connection state of the adjusting bracket and the third terminal, generates an available equipment list according to the connection state of the first terminal and the third terminal and/or the connection state of the adjusting bracket and the third terminal, and sends the available equipment list to the second terminal; and the second terminal displays the available equipment list.

It can be understood that the server obtains the connection state between the first terminal and the third terminal and/or the connection state between the adjustment bracket and the third terminal, generates an available device list according to the connection state between the first terminal and the third terminal and/or the connection state between the adjustment bracket and the third terminal, and sends the available device list to the second terminal, where the second terminal displays the available device list, a user may select an available first terminal on the second terminal, and the user may perform an operation on the available first terminal, and the second terminal further controls the movement of the available first terminal by controlling the movement of the adjustment bracket.

When the second terminal operates on the first terminal, the second terminal sends an operation instruction to the server; the server receives the operation instruction and sends the operation instruction to the first terminal; and the first terminal carries out corresponding operation according to the operation instruction.

Taking the click operation on the first terminal as an example, the first terminal sends the screenshot of the first terminal to the second terminal, and the second terminal receives the screenshot of the first terminal and displays the screenshot of the first terminal. If the second terminal monitors that a user performs click operation on the second terminal, the server of the second terminal sends an operation instruction, wherein the operation instruction at least comprises the following information: and clicking operation, coordinate information of the clicking position in the screenshot, and the like. It is understood that the operation type is a click operation, and the operation parameter is coordinate information of the click position in the screenshot. And the server receives an operation instruction sent by the second terminal and sends the operation instruction to the first terminal, and after the first terminal receives the operation instruction, the first terminal executes corresponding click operation according to the operation instruction.

It should be noted that the implementation principle of the control method of the terminal according to the embodiment of the present invention is similar to that of the control system described above, and the details of the similar parts are not repeated in order to avoid redundancy.

Fig. 4 is a flowchart illustrating a control method of a terminal according to an embodiment of the present invention, where the control method may be applied to the control system shown in fig. 2, and as shown in fig. 4, the specific steps of the control method of the terminal include:

step 401: the third terminal obtains the connection state of the first terminal and the third terminal and/or the connection state of the adjusting support and the third terminal, and sends the connection state of the first terminal and the third terminal and/or the connection state of the adjusting support and the third terminal to the server side.

Step 402: the server receives the connection state of the first terminal and the third terminal and/or the connection state of the adjusting bracket and the third terminal, generates an available equipment list according to the connection state of the first terminal and the third terminal and/or the connection state of the adjusting bracket and the third terminal, and sends the available equipment list to the second terminal.

Step 403: and the second terminal displays the available equipment list.

In the embodiment of the invention, a user can view the available equipment list through the second terminal, and can select the first terminal for operation and the adjusting bracket corresponding to the first terminal from the available equipment list.

Step 404: and the second terminal determines a first terminal to be operated selected by the user from the available equipment list, and establishes connection with the first terminal and an adjusting bracket corresponding to the first terminal through the server.

In the embodiment of the present invention, the server may be connected to the second terminal through a full duplex communication protocol, and the server may be connected to the first terminal and the adjusting bracket in a wireless or wired manner.

Step 405: and under the condition that the second terminal moves, the second terminal is used for acquiring the motion information of the second terminal and sending a control instruction to the server, wherein the control instruction comprises the motion information of the second terminal.

Step 406: and the server is used for receiving the control instruction of the second terminal and sending the control instruction to the adjusting bracket.

Step 407: the adjusting bracket is used for receiving the control instruction sent by the server and controlling the self-movement according to the movement information in the control instruction.

Step 408: and when the user operates on the second terminal, the second terminal sends an operation instruction to the server.

The adjusting bracket acquires one or more items of acceleration sensor detection information, gyroscope detection information, position information and compass detection information from the control command; the adjusting bracket can control one or more of the moving direction, the moving distance, the rotating direction and the rotating angle of the adjusting bracket according to one or more of acceleration sensor detection information, gyroscope detection information, position information and compass detection information.

For example: and in the process of controlling the self movement of the adjusting bracket, the adjusting bracket is used for acquiring position information and compass detection information from the control instruction and controlling the movement direction and the movement distance of the adjusting bracket according to the position information and the compass detection information. And in the process of controlling the self rotation by the adjusting bracket, the adjusting bracket is used for acquiring gyroscope detection information from the control instruction and controlling the rotation direction and the rotation angle of the adjusting bracket according to the gyroscope detection information.

In the embodiment of the present invention, the operation instruction may be a click, double click, slide, or input instruction. The operation command includes information necessary for operation, for example: type of operation and operating parameters, etc.

Step 409: and the server receives the operation instruction and sends the operation instruction to the first terminal.

Step 410: and the first terminal carries out corresponding operation according to the operation instruction.

Correspondingly, after receiving the operation instruction, the first terminal can execute operations such as clicking, double clicking, sliding or inputting and the like corresponding to the operation instruction. In this way, by sending an operation instruction to the first terminal by the second terminal to perform a corresponding operation on the first terminal, various functions of the first terminal can be better verified, for example: through some functions such as gyroscope or compass can be experienced to the second terminal, and then user experience can be strengthened, further solve the problem that the user can't operate the terminal at the in-process of online shopping terminal.

The above-described embodiments should not be construed as limiting the scope of the invention. Those skilled in the art will appreciate that various modifications, combinations, sub-combinations, and substitutions can occur, depending on design requirements and other factors. Any modification, equivalent replacement, and improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. A control system of a terminal, comprising: the system comprises an adjusting bracket, a second terminal and a server, wherein the adjusting bracket is used for fixing a first terminal;

2. The control system of claim 1, wherein the motion information comprises one or more of: acceleration sensor detection information, gyroscope detection information, position information, and compass detection information.

3. The control system of claim 2, wherein the adjustment bracket is configured to obtain one or more of acceleration sensor detection information, gyroscope detection information, position information, and compass detection information from the control commands; and controlling one or more of the moving direction, the moving distance, the rotating direction and the rotating angle of the adjusting bracket according to one or more of the acceleration sensor detection information, the gyroscope detection information, the position information and the compass detection information.

4. The control system of claim 1, wherein the control system of the terminal further comprises: a first terminal and a third terminal;

5. The control system of claim 4, wherein the second terminal is configured to send an operation instruction to the server;

6. A control method of a terminal, comprising:

the server receives a control instruction sent by the second terminal and sends the control instruction to an adjusting bracket;

7. The control method of claim 6, wherein the motion information comprises one or more of: acceleration sensor detection information, gyroscope detection information, position information, and compass detection information.

8. The control method according to claim 7, wherein the adjusting bracket controls the movement of the adjusting bracket according to the movement information in the control command, and the method comprises the following steps:

9. The control method according to claim 6, characterized in that the method further comprises:

and the second terminal displays the available equipment list.

10. The control method according to claim 9, characterized in that the method further comprises:

the second terminal sends an operation instruction to the server;