WO2018195760A1 - Smart vehicle-mounted system based on remote control mode - Google Patents

Abstract

A smart vehicle-mounted system based on a remote control mode, comprising a client (1), a smart vehicle-mounted system server (2), a controller (3), and a smart vehicle-mounted system device (4). The client (1) is configured to send an operation instruction to the vehicle-mounted system server (2). The vehicle-mounted system server (2) is configured to receive the operation instruction of the client (1), and issue a control instruction to the controller (3). The controller (3) is configured to receive the control instruction of the vehicle-mounted system server (2) and issue a control instruction to the vehicle-mounted system device (4). The vehicle-mounted system device (4) is configured to receive the control instruction of the controller (3) and perform a control operation. The vehicle-mounted system allows controllers (3) having interfaces of different standards to connect to the vehicle-mounted system server (2), facilitating the development of vehicle-mounted system services.

Description

Intelligent on-board system based on remote control mode Technical field

The invention relates to the technical field of intelligent vehicle systems, in particular to an intelligent vehicle system based on a remote control mode.

Background technique

With the continuous advancement of intelligent in-vehicle system technology and the constant pursuit of quality of life, the intelligent in-vehicle system, which is one of the Internet of Things applications, will become the basic form of the in-vehicle system in the future and has broad market application prospects.

The intelligent in-vehicle system utilizes advanced computer technology, network communication technology, and various subsystems that will be related to the life of the in-vehicle system, and organically integrates intelligent control and management through network, making people's in-vehicle system life more comfortable and safe. High efficiency.

However, in the process of implementing the present invention, the inventors have found that the existing intelligent in-vehicle system remote control system has the following drawbacks: At present, one of the defects of the intelligent vehicle remote control system is that end-to-end content encryption cannot be realized. Because the intelligent in-vehicle system business involves the control and operation of the intelligent in-vehicle system equipment in the user's home and the remote transmission of the video and audio media, whether the smart in-vehicle system business is safe is crucial for the intelligent in-vehicle system users. That is to say, in addition to the user name/password verification, the content transmitted between the in-vehicle system controller and the client needs to be encrypted and protected.

Summary of the invention

It is an object of the present invention to provide an intelligent in-vehicle system based on a remote control mode in order to overcome the above technical disadvantages.

The technical solution adopted by the present invention is: an intelligent in-vehicle system based on a remote control mode, including a client, an intelligent in-vehicle system server, a controller, and an intelligent in-vehicle system device, the client and the intelligent in-vehicle system server passing the Internet Connection And the intelligent in-vehicle system server is connected to the smart car system server, and the client is configured to send an operation instruction to the smart in-vehicle system server to receive an operation response of the smart in-vehicle system server, where the smart in-vehicle system server is configured to receive The operation instruction of the client sends a control instruction to the controller, receives a control response of the controller, returns an operation response to the client, and the controller is configured to receive a control instruction of the intelligent in-vehicle system server And transmitting a control command to the smart in-vehicle system device, receiving a control response of the smart in-vehicle system device, and returning a control response to the smart in-vehicle system server, where the smart in-vehicle system device is configured to receive the control of the controller An instruction to perform a control operation to return a control response to the controller.

Preferably, the intelligent in-vehicle system server is connected to a third-party server, and the third-party server provides a third-party service to the intelligent in-vehicle system user through the intelligent in-vehicle system server.

Preferably, the intelligent in-vehicle system server is connected to a network application, and the intelligent in-vehicle system server provides an intelligent in-vehicle system service to the network application through an application program interface.

Preferably, the controller actively reports status information of the smart in-vehicle system device to the client by using the smart in-vehicle system server.

Preferably, the controller and the client both set an encryption key and a decryption key.

The invention has the beneficial effects that the intelligent in-vehicle system server provided by the invention provides a third-party service to the intelligent in-vehicle system user through the accessed third-party server, thereby enhancing the service characteristics of the intelligent in-vehicle system, and simultaneously, through the application program interface Network applications provide intelligent in-vehicle system services that increase the openness of smart in-vehicle systems. In addition, the intelligent in-vehicle system remote control system provided by the invention realizes end-to-end content encryption between the controller and the client, improves the security of the intelligent in-vehicle system service, and realizes the status information of the intelligent in-vehicle system device to the client. Active reporting to meet the real-time interaction needs of users of intelligent in-vehicle systems.

DRAWINGS

1 is a schematic structural view of a first embodiment of a remote control system of the present invention.

2 is a schematic structural view of a second embodiment of the remote control system of the present invention.

3 is a functional block diagram of a controller of the remote control system of FIG. 2.

detailed description

The technical solution of the present invention will be further described in detail below in conjunction with specific embodiments.

As shown in FIG. 1, it is a schematic structural diagram of a first embodiment of a remote control system of the present invention.

The remote control system of the present invention comprises a client 1, an intelligent in-vehicle system server 2, a controller 3 and an intelligent in-vehicle system device 4; the client 1 and the intelligent in-vehicle system server 2 are connected via the Internet; the intelligent in-vehicle system server 2 and the controller 3 Connected via the Internet; the controller 3 and the intelligent in-vehicle system device 4 are connected by wire.

The client 1 is configured to send an operation instruction to the intelligent in-vehicle system server 2 to receive an operation response of the intelligent in-vehicle system server 2.

The intelligent in-vehicle system server 2 is configured to receive an operation instruction of the client 1, send a control command to the controller 3, receive a control response of the controller 3, and return an operation response to the client 1. The controller 3 is configured to receive a control command of the intelligent in-vehicle system server 2, issue a control command to the intelligent in-vehicle system device 4, receive a control response of the intelligent in-vehicle system device 4, and return a control response to the intelligent in-vehicle system server 2.

The intelligent in-vehicle system device 4 is configured to receive a control command of the controller 3, perform a control operation, and return a control response to the controller 3.

As shown in FIG. 2, it is a schematic structural view of a second embodiment of the remote control system of the present invention.

The remote control system of the second embodiment of the present invention is basically the same as the first embodiment, and includes a client 1, an intelligent in-vehicle system server 2, a controller 3, and an intelligent in-vehicle system device 4, except that it also includes an intelligent in-vehicle system. The third party server 5 connected to the server 2, the third party server 5 provides a third party service to the intelligent in-vehicle system user through the intelligent in-vehicle system server 2. As shown in FIG. 3, the information transceiver module 31, the key setting module 32, and the encryption and decryption module 33 are included. The information transceiver module 31 is configured to send and receive information of the controller. The key setting module 32 is configured to preset an encryption key and a decryption key, and can also be used to preset an encryption algorithm and a decryption algorithm. The encryption and decryption module 33 is configured to encrypt the information according to the encryption key and the encryption algorithm preset by the key setting module 32 before the information transceiver module 31 transmits the information; and after receiving the information by the information transceiver module 31, according to the key Setting the decryption key preset by module 32 And the decryption algorithm decrypts the information. Further, before the information transceiver module 31 sends the information to the client, the encryption and decryption module 33 encrypts the information according to the encryption key and the encryption algorithm preset by the key setting module 32; and receives the client information at the information transceiver module 31. Thereafter, the information is decrypted by the encryption/decryption module 33 based on the decryption key and the decryption algorithm preset by the key setting module 32.

The controller provided in this embodiment can implement end-to-end information encryption between the controller and the client, and improve the security of the intelligent in-vehicle system service.

The intelligent in-vehicle system server provided by the invention provides a third-party service to the intelligent in-vehicle system user through the accessed third-party server, enhances the service characteristics of the intelligent in-vehicle system, and provides the intelligent in-vehicle system service to the network application through the application program interface, thereby improving The openness of the intelligent in-vehicle system. In addition, the intelligent in-vehicle system remote control system provided by the invention realizes end-to-end content encryption between the controller and the client, improves the security of the intelligent in-vehicle system service, and realizes the status information of the intelligent in-vehicle system device to the client. Active reporting to meet the real-time interaction needs of users of intelligent in-vehicle systems.

Claims (4)

An intelligent in-vehicle system based on a remote control mode, comprising a client, an intelligent in-vehicle system server, a controller, and an intelligent in-vehicle system device, wherein: the client is connected to the intelligent in-vehicle system server via the Internet, and the control And the smart in-vehicle system server is connected to the Internet, and the client is configured to send an operation instruction to the smart in-vehicle system server to receive an operation response of the smart in-vehicle system server, where the smart in-vehicle system server is configured to receive Determining an operation instruction of the client, issuing a control instruction to the controller, receiving a control response of the controller, returning an operation response to the client, the controller being configured to receive a control instruction of the intelligent in-vehicle system server, Sending a control command to the smart in-vehicle system device, receiving a control response of the smart in-vehicle system device, returning a control response to the smart in-vehicle system server, the smart in-vehicle system device receiving a control command of the controller , performing a control operation, returning to the controller Control response, the intelligent vehicle system server after the client receives the operation instruction, the operation instruction is converted control command can be identified by the controller, the controller to send the next control instruction. The intelligent in-vehicle system based on a remote control mode according to claim 1, wherein the intelligent in-vehicle system server is connected to a third-party server, and the third-party server provides the smart in-vehicle system user through the smart in-vehicle system server. Third party service. The intelligent in-vehicle system based on a remote control mode according to claim 1, wherein the intelligent in-vehicle system server is connected to a network application, and the intelligent in-vehicle system server provides an intelligent in-vehicle system to the network application through an application program interface. service. The intelligent in-vehicle system based on a remote control mode according to claim 1, wherein the controller and the client both set an encryption key and a decryption key.

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