CN116450678A - Remote cabin configuration method, remote cabin and storage medium - Google Patents

Abstract

The invention discloses a configuration method of a remote cabin, the remote cabin and a computer readable storage medium. The configuration method comprises the following steps: receiving the cabin configuration file pushed by the server and storing the cabin configuration file to a remote cabin; according to the vehicle information of the remote cockpit for remote driving service, reading the stored cockpit configuration file to obtain target configuration information; and configuring the remote cabin according to the target configuration information. Under the condition that cabin configuration parameters corresponding to the vehicle types are updated, the cabin configuration files are pushed by the server and stored in the remote cabins, when the remote cabins are used, for different vehicle types, different cameras and various electronic device parameters, corresponding target configuration information can be read to configure the remote cabins according to vehicle information of cabin services, and adaptation of various vehicle types can be achieved without redevelopment and updating of software.

Description

Remote cabin configuration method, remote cabin and storage medium

Technical Field

The present invention relates to the field of remote driving service technologies, and in particular, to a method for configuring a remote cabin, and a computer readable storage medium.

Background

For remote ride service, the security officer remotely controls the vehicle travel through the remote cabin. For different vehicle types, under the condition that parameters of a camera and various electronic devices are different, certain service units of a remote cabin often need to reset the parameters, and the parameters are troublesome, and the new research and development investment is involved. In order to update the software version of the new vehicle model, the software version is troublesome, and a new round of testing, auditing, pushing software updating and other programs are needed.

Disclosure of Invention

In view of this, the present invention provides a method of configuring a remote cockpit, and a computer readable storage medium.

The configuration method of the remote cabin provided by the invention comprises the following steps: receiving a cabin configuration file pushed by a server and storing the cabin configuration file to the remote cabin; according to the vehicle information of the remote cabin for remote driving service, reading the stored cabin configuration file to obtain target configuration information; and configuring the remote cabin according to the target configuration information.

In this way, in the configuration method of the remote cabin, under the condition that cabin configuration parameters corresponding to vehicle types are updated, cabin configuration files are pushed by the server and stored in the remote cabin, when the remote cabin is used, different cameras and various electronic device parameters for different vehicle types can be read according to vehicle information of cabin services to configure the remote cabin, and adaptation of various vehicle types can be realized without redevelopment and updating of software.

The cabin profile comprises: the method comprises the steps of presetting a vehicle model name, configuring a version, and configuring one or more of the size of a camera output image, the cutting position and size of the camera image, the display position and size of the camera image in a remote seat cabin, the size of a vehicle-mounted display screen image, the cutting position and size of the vehicle-mounted display screen image, the display position and size of the vehicle-mounted display screen image in the remote seat cabin, steering wheel parameters, brake pedal parameters, accelerator pedal parameters, the type and number of electronic appliances and the control mode of the electronic appliances corresponding to the preset vehicle model.

Thus, each preset vehicle type correspondingly comprises one set of configuration information, and corresponding target configuration information can be obtained by matching the stored cabin configuration file through the obtained vehicle type information in the vehicle information. The configuration version is used to determine whether the current cabin profile belongs to the latest version. The remote cabin is configured through the configuration information, so that feedback of the vehicle driving process in the remote cabin corresponds to parameters of vehicle parts, and driving safety is guaranteed.

The receiving the cabin configuration file pushed by the server and storing the cabin configuration file locally comprises the following steps: acquiring a configuration version of the saved vehicle configuration file and sending the configuration version to the server; receiving the cabin configuration file pushed by the server according to the configuration version under the condition that version update exists; and storing the configuration file to the remote cabin.

In this way, after the remote cabin is started, the remote cabin can be in communication connection with the server, the remote cabin sends the configuration version of the cabin configuration file which is stored currently to the server, and under the condition that the configuration version is updated, the server can push the new cabin configuration file to the remote cabin, and after the new cabin configuration file is received, the remote cabin stores the new cabin configuration file to the remote cabin, so that the remote cabin can be configured with the new cabin configuration file.

The receiving the cabin configuration file pushed by the server and saving the cabin configuration file to the remote cabin comprises the following steps: acquiring cabin information of the remote cabin and sending the cabin information to the server; receiving the cabin configuration file pushed by the server according to the cabin information; and storing the configuration file to the remote cabin.

Therefore, after the cabin information is sent to the server, the server can push the cabin configuration file matched with the remote cabin according to the type of the remote cabin, and the cabin configuration file is stored in the local of the remote cabin after being received by the remote cabin, so that the cabin can finish configuration of each information according to the stored cabin configuration file.

The configuring the remote cabin according to the target configuration information comprises: determining a target cabin unit corresponding to the target configuration information, wherein the remote cabin comprises at least one target cabin unit; and converting the target configuration information into a configuration data structure corresponding to the target cabin unit.

Thus, after the target configuration information is determined according to the vehicle information, the target cabin unit to be configured can be further determined, so that the target configuration information is converted into a configuration data structure which can be understood by the target cabin unit.

The configuring the remote cabin according to the target configuration information comprises: and configuring the target cabin unit according to the configuration data structure.

In this way, after the target configuration information is converted into a configuration data structure that can be understood by the target cabin unit, the configuration of the corresponding target cabin unit can be achieved by using the configuration data structure.

The configuring the target cabin unit according to the configuration data structure comprises: controlling the target cabin unit to stop working; transmitting the configuration data structure to the target cabin unit; and after the target cabin unit is configured according to the configuration data structure, starting the target cabin unit.

In this way, the target cabin unit needs to stop working first in the configuration process, then the configuration data structure is sent to the target cabin unit so that the target cabin unit can be configured according to the configuration data structure, and after the target cabin unit is configured, the target cabin unit is started so that the target cabin unit operates according to the configured parameters.

The invention provides a remote cabin which comprises a storage module, a reading module and a configuration module; the storage module is used for receiving the cabin configuration file pushed by the server and storing the cabin configuration file to the remote cabin; the reading module is used for reading the stored cabin configuration file to obtain target configuration information according to the vehicle information of the remote cabin for remote driving service; the configuration module is used for configuring the remote cabin according to the target configuration information.

The remote cabin can realize that the cabin configuration file is pushed by the server and stored in the remote cabin under the condition that cabin configuration parameters corresponding to vehicle types are updated, and when the remote cabin is used, different cameras and various electronic device parameters for different vehicle types can be read according to vehicle information of cabin services to configure the remote cabin, and the adaptation of various vehicle types can be realized without redevelopment and updating of software.

The invention provides a remote cabin comprising a processor and a memory, the memory storing a computer program which, when executed by the processor, implements a configuration method as described in any one of the above.

The remote cabin of the invention executes the computer program by the processor, so that under the condition that cabin configuration parameters corresponding to vehicle types are updated, cabin configuration files are pushed by the server and stored in the remote cabin, when the remote cabin is used, different cameras and various electronic device parameters for different vehicle types can be read according to vehicle information of cabin services to configure the remote cabin, and the adaptation of various vehicle types can be realized without re-developing and updating software. .

The present invention also provides a non-transitory computer readable storage medium storing a computer program which, when executed by one or more processors, implements the configuration method of any one of the above.

When the computer program stored in the nonvolatile computer readable storage medium is executed by the processor, the cabin configuration file is pushed by the server and stored in the remote cabin under the condition that cabin configuration parameters corresponding to the vehicle type are updated, and when the remote cabin is used, the remote cabin can be configured by reading corresponding target configuration information according to vehicle information of cabin services for different vehicle types and different cameras and various electronic device parameters, and the adaptation of various vehicle types can be realized without redevelopment and updating of software.

Additional aspects and advantages of embodiments of the invention will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the invention.

Drawings

The foregoing and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings, in which:

fig. 1 is a flow chart of a method of configuring a remote cockpit of the present invention.

Figure 2 is a schematic diagram of the modules of the remote cockpit of the present invention.

Fig. 3 is a flow chart of a method of configuring a remote cockpit of the present invention.

Fig. 4 is a schematic diagram of the modules in the remote cockpit according to the invention.

Fig. 5 is a flow chart of a method of configuring a remote cockpit of the present invention.

Fig. 6 is a flow chart of a method of configuring a remote cockpit of the present invention.

Fig. 7 is a flow chart of a method of configuring a remote cockpit of the present invention.

Detailed Description

Embodiments of the present invention are described in detail below, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to like or similar elements or elements having like or similar functions throughout. The embodiments described below by referring to the drawings are exemplary only for explaining the embodiments of the present invention and are not to be construed as limiting the embodiments of the present invention.

Referring to fig. 1 and 2, the configuration method of a remote cabin 100 provided by the present invention includes:

01, receiving the cabin configuration file pushed by the server and storing the cabin configuration file to the remote cabin 100;

02, reading the stored cabin configuration file to obtain target configuration information according to the vehicle information of the remote cabin 100 for remote driving service;

03, configuring the remote cockpit 100 according to the target configuration information.

The invention also provides a remote cockpit 100 comprising a saving module 110, a reading module 120 and a configuration module 130. Step 01 may be implemented by the save module 110, step 02 may be implemented by the read module 120, and step 03 may be implemented by the configure module 130. That is, the save module 110 may be configured to receive the cabin profile pushed by the server and save the cabin profile to the remote cabin 100. The reading module 120 may be configured to read the stored cabin configuration file to obtain the target configuration information according to the vehicle information of the remote cabin 100 for performing the remote driving service. The configuration module 130 may be used to configure the remote cockpit 100 according to the target configuration information.

The present invention also provides a remote cockpit 100 that includes a processor and memory. The memory stores a computer program which when executed by the processor, implements the interactive method of remote driving service of the invention. For example, when the computer program is executed by the processor, the processor is configured to receive the cabin configuration file pushed by the server, save the cabin configuration file to the remote cabin 100, read the saved cabin configuration file to obtain target configuration information according to vehicle information of the remote cabin 100 for performing the remote driving service, and configure the remote cabin 100 according to the target configuration information.

The vehicle user may initiate a service order on a terminal device such as a mobile phone, a vehicle-mounted terminal, a tablet computer, a notebook computer, a desktop computer, a wearable device, etc., for example, initiate a remote driving service order on an application program, an applet or a browser web page of the terminal device, where the remote driving service order may include information such as vehicle information, service content, a location of a driving vehicle, and a destination of a driving service. The service management platform of the remote driving service can distribute the service order initiated by the user to an idle safety officer, and the safety officer receives the order in the remote driving service cabin, so that the safety officer can remotely control the vehicle of the user to travel to a destination according to the requirement of the remote driving service order.

A driving kit is provided in the remote cabin 100 for a safety operator to operate, and the remote cabin 100 can remotely control the user's vehicle travel according to the safety operator's operation of the driving kit. The driving suite comprises a steering wheel, a brake pedal, an accelerator pedal, a gear lever and the like, wherein keys can be arranged on the steering wheel, and the control of vehicle parts, electronic appliances and the like can be realized through the operation of the driving suite. For example, a security operator's operation of a steering wheel in a driving kit may be used to remotely control the direction of travel of the vehicle, operation of a brake pedal in the driving kit may be used to control vehicle braking, operation of an accelerator pedal in the driving kit may be used to remotely control acceleration of the vehicle, and operation of a gear lever in the driving kit may be used to control vehicle travel gear. For another example, the operation of the safety officer on the buttons of different steering wheels can be used for remotely controlling the electronic appliances such as the horn, the air conditioner, the car window, the windscreen wiper and the like corresponding to the vehicle to work.

In addition, a driving display screen is also provided in the remote cockpit 100, and includes a first display screen (also referred to as a main display screen) and a second display screen (also referred to as a sub display screen). The first display screen can display video images, helps a safety person in the cabin to sense the surrounding environment of the vehicle, and provides assistance for safety monitoring and driving. The second display screen can be used for touch operation, support to display order information and flow, and comprises prompts of vehicle driving states and order states in the process, and a safety person can operate various information such as an operation entrance, a map and the like of vehicle control, so that the safety person can better conduct remote driving service flow. The security officer 1 to 1 supervises and controls the vehicle within the remote cabin 100. And for the scene which cannot be covered by the automatic driving of the vehicle, the manual remote driving is performed, and the driving safety is ensured.

In this way, in the configuration method of the remote cabin 100 of the present invention, when cabin configuration parameters corresponding to a vehicle model are updated, the cabin configuration file is pushed by the server and stored in the remote cabin 100, and when the remote cabin 100 is used, for different vehicle models, different cameras and various electronic device parameters, according to vehicle information of cabin services, the corresponding target configuration information can be read to configure the remote cabin 100, and the adaptation of various vehicle models can be realized without redevelopment and updating of software.

The cabin profile includes: the method comprises the steps of presetting a vehicle model name, configuring a version, presetting one or more configuration information of a camera output image size, a camera image cutting position and size, a display position and size of a camera image in the remote cabin 100, a vehicle-mounted display screen image size, a vehicle-mounted display screen image cutting position and size, a display position and size of a vehicle-mounted display screen image in the remote cabin 100, steering wheel parameters, brake pedal parameters, accelerator pedal parameters, electronic appliance types and numbers and an electronic appliance control mode corresponding to the vehicle model.

It can be understood that each preset vehicle type corresponds to a set of configuration information, and corresponding target configuration information can be obtained by matching the obtained vehicle type information in the vehicle information from the stored cabin configuration file. The configuration version is used to determine whether the current cabin profile belongs to the latest version. The remote cabin 100 is configured through the configuration information, so that feedback of the vehicle driving process in the remote cabin 100 corresponds to parameters of vehicle parts, and driving safety is guaranteed.

The configuration information such as the size of the image output by the camera, the clipping position and size of the image of the camera, the display position and size of the image of the camera in the remote cabin 100, the size of the image of the vehicle-mounted display screen, the clipping position and size of the image of the vehicle-mounted display screen in the remote cabin 100 and the like can be suitable for configuring the first display screen and/or the second display screen of the remote cabin 100, so that the content displayed in the remote cabin 100 can correspond to the parameters of the camera corresponding to the vehicle type, and the safety personnel in the remote cabin 100 can know the environmental information and the state information of the vehicle.

The configuration parameters such as the steering wheel parameter, the brake pedal parameter, the accelerator pedal parameter, the type and the number of the electronic appliances, the control mode of the electronic appliances and the like can be configured on the driving suite and the second display screen, so that the driving control operation in the remote cabin 100 can be matched with the model of the vehicle, and a safety person can accurately remotely control the vehicle.

Referring to fig. 3, step 01 includes:

011, acquiring a configuration version of the saved vehicle configuration file and sending the configuration version to a server;

012, in case of version update, receiving cabin configuration files pushed by the server according to the configuration version;

013, saving the configuration file to the remote cockpit 100.

Referring to fig. 4, the saving module 110 includes a transmitting unit 111, a receiving unit 112, and a saving unit 113. Step 011 may be implemented by the transmitting unit 111, step 012 may be implemented by the receiving unit 112, and step 013 may be implemented by the holding unit 113. That is, the transmitting unit 111 may be configured to acquire the configuration version of the saved vehicle profile and transmit the configuration version to the server. The receiving unit 112 may be configured to receive, in the presence of a version update, a cabin profile pushed by the server according to the configuration version. The save unit 113 may be used to save the configuration file to the remote capsule 100.

After the remote cabin 100 is started, the remote cabin 100 can be in communication connection with a server, the remote cabin 100 sends the configuration version of the cabin configuration file which is stored currently to the server, the server can determine whether the configuration version of the cabin configuration file which is stored currently is the latest version, and if so, the remote cabin 100 configures the cabin with the configuration file which is stored currently from the cabin; if not the latest version, the server pushes the new cabin configuration file to the remote cabin 100, and the remote cabin 100 saves the new cabin configuration file to the remote cabin 100 after receiving the new cabin configuration file, so that the remote cabin 100 can be configured with the new cabin configuration file.

Referring to fig. 5, step 01 further includes:

014, acquiring the cabin information of the remote cabin 100 and sending the cabin information to the server;

015, receiving a cabin configuration file pushed by a server according to cabin information;

016, save the configuration file to the remote cockpit 100.

Step 014 may be implemented by the transmitting unit 111, step 015 may be implemented by the receiving unit 112, and step 016 may be implemented by the holding unit 113. That is, the transmitting unit 111 may be used to acquire the cabin information of the remote cabin 100 and transmit the cabin information to the server. The receiving unit 112 may be configured to receive a cabin profile pushed by the server according to the cabin information. The save unit 113 may be used to save the configuration file to the remote capsule 100.

Thus, the hardware of the remote cabin 100 of different types may also be different, for example, the display parameters and the size of the first display screen, the display parameters and the size of the second display screen, the parameter range of each component in the driving suite, the number of keys, and the like may be different, after the cabin information is sent to the server, the server may push the cabin configuration file matched with the remote cabin 100 according to the type of the remote cabin 100, and the cabin configuration file is stored in the local of the remote cabin 100 after being received by the remote cabin 100, so as to ensure that the cabin can complete the configuration of each information according to the stored cabin configuration file.

Referring to fig. 6, step 03 includes:

031, determining a target cabin unit corresponding to the target configuration information, where the remote cabin 100 includes at least one target cabin unit;

032, converting the target configuration information into a configuration data structure corresponding to the target cabin unit.

Steps 031 and 032 may be implemented by configuration module 130. That is, the configuration module 130 may be configured to determine a target cabin unit to which the target configuration information corresponds, the remote cabin 100 including at least one target cabin unit, and to convert the target configuration information into a configuration data structure to which the target cabin unit corresponds.

It should be noted that the target cabin unit may be each part of the driving kit, the first display screen, the second display screen, and the like. After the target configuration information is determined according to the vehicle information, the target cabin unit to be configured can be further determined, so that the target configuration information is converted into a configuration data structure which can be understood by the target cabin unit.

Step 03 comprises:

033, configuring the target cabin unit according to the configuration data structure.

Step 033 may be implemented by configuration module 130. That is, the configuration module 130 may be used to configure the target cabin unit according to a configuration data structure.

In this way, after the target configuration information is converted into a configuration data structure that can be understood by the target cabin unit, the configuration of the corresponding target cabin unit can be achieved by using the configuration data structure.

Referring to fig. 7, step 033 includes:

0331, controlling the target cabin unit to pause operation;

0332, sending the configuration data structure to the target cabin unit;

0333, after the configuration of the target cabin unit according to the configuration data structure is completed, opening the target cabin unit.

Step 0331, step 0332, and step 0333 may be implemented by configuration module 130. That is, the configuration module 130 may be configured to control the target cabin unit to suspend operation, send the configuration data structure to the target cabin unit, and turn on the target cabin unit after the target cabin unit is configured according to the configuration data structure.

In this way, the target cabin unit needs to stop working first in the configuration process, then the configuration data structure is sent to the target cabin unit so that the target cabin unit can be configured according to the configuration data structure, and after the target cabin unit is configured, the target cabin unit is started so that the target cabin unit operates according to the configured parameters.

It should be noted that, the configuration of each cabin unit in the remote cabin 100 does not affect each other, that is, when one cabin unit stops working in the configuration process, the operation of other cabin units is not affected, or when a plurality of cabin units are configured at the same time, each cabin unit may be configured at the same time and not affect each other.

Embodiments of the present invention also provide a non-transitory computer-readable storage medium storing a computer program, which when executed by one or more processors, implements the configuration method of any one of the above.

Those skilled in the art will appreciate that implementing all or part of the processes in the methods of the embodiments described above may be accomplished by computer programs to instruct related software. The program may be stored in a non-transitory computer readable storage medium, which when executed may include the flow of embodiments of the methods described above. The storage medium may be a magnetic disk, an optical disk, a Read-Only Memory (ROM), etc.

In the description of the present specification, reference is made to the terms "one embodiment," "some embodiments," "illustrative embodiments," "examples," "specific examples," or "some examples," etc., meaning that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiments or examples. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples. Furthermore, the different embodiments or examples described in this specification and the features of the different embodiments or examples may be combined and combined by those skilled in the art without contradiction. Meanwhile, the descriptions of the terms "first," "second," and the like are intended to distinguish similar or analogous operations, and the "first" and "second" have a front-to-back logical relationship in some embodiments, and in some embodiments do not necessarily have a logical or front-to-back relationship, and need to be determined according to actual embodiments, and should not be determined by literal meaning.

Any process or method descriptions in flow charts or otherwise described herein may be understood as representing modules, segments, or portions of code which include one or more executable instructions for implementing specific logical functions or steps of the process, and further implementations are included within the scope of the preferred embodiment of the present invention in which functions may be executed out of order from that shown or discussed, including substantially concurrently or in reverse order, depending on the functionality involved, as would be understood by those reasonably skilled in the art of the present invention.

While embodiments of the present invention have been shown and described above, it will be understood that the above embodiments are illustrative and not to be construed as limiting the invention, and that variations, modifications, alternatives and variations may be made to the above embodiments by one of ordinary skill in the art within the scope of the invention.

Claims (10)

1. A method of configuring a remote cockpit, comprising:

receiving a cabin configuration file pushed by a server and storing the cabin configuration file to the remote cabin;

according to the vehicle information of the remote cabin for remote driving service, reading the stored cabin configuration file to obtain target configuration information;

and configuring the remote cabin according to the target configuration information.

2. The configuration method according to claim 1, wherein the cabin profile comprises: presetting a vehicle model name, a configuration version, and one or more configuration information of the size of a camera output image, the cutting position and size of the camera image, the display position and size of the camera image in the remote seat cabin, the size of a vehicle-mounted display screen image, the cutting position and size of the vehicle-mounted display screen image, the display position and size of the vehicle-mounted display screen image in the remote seat cabin, steering wheel parameters, brake pedal parameters, accelerator pedal parameters, the type and number of electronic appliances and the control mode of the electronic appliances corresponding to the preset vehicle model.

3. The configuration method according to claim 1, wherein the receiving the cabin profile pushed by the server and saving the cabin profile locally comprises:

acquiring a configuration version of the saved vehicle configuration file and sending the configuration version to the server;

receiving the cabin configuration file pushed by the server according to the configuration version under the condition that version update exists;

and storing the configuration file to the remote cabin.

4. The configuration method according to claim 1, wherein the receiving the cabin profile pushed by the server and saving the cabin profile to the remote cabin comprises:

acquiring cabin information of the remote cabin and sending the cabin information to the server;

receiving the cabin configuration file pushed by the server according to the cabin information;

and storing the configuration file to the remote cabin.

5. The configuration method according to claim 1, wherein said configuring the remote capsule according to the target configuration information comprises:

determining a target cabin unit corresponding to the target configuration information, wherein the remote cabin comprises at least one target cabin unit;

and converting the target configuration information into a configuration data structure corresponding to the target cabin unit.

6. The configuration method of claim 5, wherein said configuring the remote capsule according to the target configuration information comprises:

and configuring the target cabin unit according to the configuration data structure.

7. The configuration method according to claim 6, wherein said configuring the target cabin unit according to the configuration data structure comprises:

controlling the target cabin unit to stop working;

transmitting the configuration data structure to the target cabin unit;

and after the target cabin unit is configured according to the configuration data structure, starting the target cabin unit.

8. A remote cockpit, comprising:

the storage module is used for receiving the cabin configuration file pushed by the server and storing the cabin configuration file to the remote cabin;

the reading module is used for reading the stored cabin configuration file to obtain target configuration information according to the vehicle information of the remote cabin for remote driving service;

and the configuration module is used for configuring the remote cabin according to the target configuration information.

9. A remote cockpit comprising a processor and a memory, said memory storing a computer program which, when executed by said processor, implements the configuration method of any one of claims 1-7.

10. A non-transitory computer readable storage medium storing a computer program, characterized in that the configuration method of any one of claims 1-7 is implemented when the computer program is executed by one or more processors.