Disclosure of Invention
The invention aims to provide a control method, a multi-screen control system and a computer readable storage medium, which can intuitively realize working modes corresponding to a plurality of screens to be launched according to a plurality of mobile phones of a plurality of passengers on a vehicle.
In a first aspect, the present invention provides a control method, and in particular, a control method applied to a vehicle-mounted terminal includes: acquiring the identity marks of a plurality of vehicle-mounted screens and the identity mark of at least one mobile terminal in a preset space; displaying the obtained graphic identifications corresponding to the identity identifications of all the vehicle-mounted screens and the graphic identifications corresponding to the identity identifications of all the mobile terminals; acquiring an adjusting signal; and setting the corresponding relation between the mobile terminal and the vehicle-mounted screen according to the adjusting signal.
Further, the step of obtaining the identities of the plurality of vehicular screens and the identity of the at least one mobile terminal existing in the predetermined space comprises the following steps: and controlling to realize that each mobile terminal is connected with the corresponding vehicle-mounted screen according to the preset corresponding relation.
Further, the adjustment signal corresponds to an adjustment instruction and/or a position detection signal.
Further, the step of displaying the obtained graphic identifiers corresponding to the identification identifiers of all the vehicle-mounted screens and the graphic identifiers corresponding to the identification identifiers of all the mobile terminals further includes: and according to the position relation, the graphic identifier of each mobile terminal and the graphic identifier of the corresponding vehicle-mounted screen are displayed in a combined mode.
Further, the step of displaying the graphic identifier of each mobile terminal and the graphic identifier of the corresponding vehicle-mounted screen in a combined manner according to the position relationship comprises the following steps: obtaining the biological characteristic information of drivers and passengers in the vehicle; acquiring the position relation between each mobile terminal and the plurality of vehicle-mounted screens according to the association relation between each mobile terminal and the biological characteristic information and the position information of the plurality of vehicle-mounted screens; and displaying a position relation graph between each mobile terminal and the plurality of vehicle-mounted screens through the graphic identification of each mobile terminal and the graphic identifications of the plurality of vehicle-mounted terminals.
Further, the biometric information is selected from at least one of voice information, weight information, fingerprint information, iris information, and facial feature information.
Further, the graphic identification of the mobile terminal is the head portrait of the user associated with the mobile terminal.
In a second aspect, the present invention also provides a control method, and in particular, the control method applied to a mobile terminal includes: and sending the identity of the mobile terminal to the vehicle-mounted terminal so that when the vehicle-mounted terminal acquires the identity of a plurality of vehicle-mounted screens in a preset space, the acquired graphic identifiers corresponding to the identity of all the vehicle-mounted screens and the graphic identifiers corresponding to the identity of all the mobile terminals are displayed, an adjustment signal is acquired, and the corresponding relationship between the mobile terminal and the vehicle-mounted screens is set according to the adjustment signal.
In a third aspect, the present invention further provides a multi-screen control system, and in particular, the multi-screen control system includes a vehicle-mounted terminal, a plurality of vehicle-mounted screens, and at least one mobile terminal, wherein the vehicle-mounted terminal is connected to the plurality of vehicle-mounted screens and the at least one mobile terminal, and is configured to execute the control method applied to the vehicle-mounted terminal as described in any one of the above; the mobile terminal is used for executing the control method applied to the mobile terminal.
In a fourth aspect, the invention also provides a computer-readable storage medium, in particular having a computer program stored thereon, which, when being executed by a processor, carries out the steps of the control method according to any one of the preceding claims.
The control method, the multi-screen control system and the computer readable storage medium provided by the invention can intuitively and conveniently realize the working mode corresponding to the release of a plurality of screens according to a plurality of mobile terminals of a plurality of passengers on a vehicle.
Detailed Description
The following detailed description of embodiments of the present invention is provided in connection with the accompanying drawings and examples. The following examples are intended to illustrate the invention but are not intended to limit the scope of the invention.
In a first aspect, the present invention first provides a control method applied to a vehicle-mounted terminal. Fig. 1 is a flowchart of a control method according to an embodiment of the invention.
As shown in fig. 1, in an embodiment, a control method applied to a vehicle-mounted terminal includes:
s11: the method comprises the steps of obtaining the identity marks of a plurality of vehicle-mounted screens and the identity mark of at least one mobile terminal in a preset space.
The vehicle-mounted terminal firstly defines all screens capable of establishing a connection relationship with the mobile terminal on the vehicle, and the screen of the vehicle-mounted terminal can be one of the vehicle-mounted screens or other screens different from the following vehicle-mounted screen. The vehicle-mounted terminal acquires the identity of at least one mobile terminal and can definitely connect to all the mobile terminals.
S12: and displaying the obtained graphic identifications corresponding to the identity identifications of all the vehicle-mounted screens and the graphic identifications corresponding to the identity identifications of all the mobile terminals.
The vehicle-mounted terminal configures corresponding graphic identifiers for each identity identifier, and the graphic identifiers of the mobile terminal and the graphic identifiers of the vehicle-mounted screens are respectively displayed through one of the vehicle-mounted screens.
S13: an adjustment signal is acquired.
When a program or a user needs to set the corresponding relation between the mobile terminal and the vehicle-mounted screen, the system can generate an adjusting signal and send the adjusting signal to the vehicle-mounted terminal.
S14: and setting the corresponding relation between the mobile terminal and the vehicle-mounted screen according to the adjusting signal.
And when the vehicle-mounted host receives the adjusting signal, setting the corresponding relation between the mobile terminal and the vehicle-mounted screen according to a program or a user instruction.
In one embodiment, the graphic identifiers of all connected mobile terminals are listed separately, and the graphic identifiers of all vehicle-mounted screens are listed separately at the same time. In another embodiment, the connected graphic identifiers of the mobile terminal and the vehicle-mounted screen are separately listed, and meanwhile, the corresponding relation graph between the current mobile terminal and the vehicle-mounted screen is displayed in common representation modes such as different colors, lines, position relations and the like according to the corresponding relation between the mobile terminal and the vehicle-mounted screen. And when the vehicle-mounted terminal receives the adjusting instruction, the corresponding relation graph displayed on the screen is also synchronously adjusted.
In one embodiment, in executing step S11: and controlling each mobile terminal to be connected with at least one corresponding vehicle-mounted screen according to a preset corresponding relation.
Specifically, the correspondence between the mobile terminal and the in-vehicle screen that was set last time may be loaded according to the riding preference of the occupant. The system can also automatically allocate the corresponding relation between the mobile terminal of each passenger and the vehicle-mounted screen according to the real-time position relation. The corresponding relation can also be not automatically distributed, but the user is waited to send out the adjusting instruction of the corresponding relation to establish the corresponding relation. By establishing the connection, the mobile terminal of the passenger can control the corresponding at least one vehicle-mounted screen to perform functions such as data release, audio transmission, video release, interaction of control signals and the like, so that the working mode corresponding to the release of a plurality of screens can be automatically realized according to a plurality of mobile terminals of a plurality of passengers on the vehicle.
In one embodiment, the adjustment signal corresponds to the adjustment command and/or the detection signal.
The adjustment command may be an action command, a voice command, a touch screen command, or the like, and the detection signal may be a software signal, a position change signal of the mobile terminal detected by an in-vehicle sensor, a camera, or the like. And when the vehicle-mounted terminal detects the adjusting instructions and/or the detection signals, generating adjusting signals, and resetting the corresponding relationship between the corresponding mobile terminal and the vehicle-mounted terminal.
In one embodiment, at execution S11: the step of taking the identities of the plurality of vehicle-mounted screens and the identity of the at least one mobile terminal existing in the predetermined space further comprises the following steps:
the vehicle-mounted terminal is connected with at least one mobile terminal through a network.
The control of the mobile terminal to the vehicle-mounted screen can be realized only by establishing network connection in advance. The network connection mode can be Bluetooth connection, WIFI connection, USB connection and the like.
In one embodiment, at execution S12: the step of displaying the obtained graphic identifiers corresponding to the identification identifiers of all the vehicle-mounted screens and the graphic identifiers corresponding to the identification identifiers of all the mobile terminals further comprises the following steps:
and according to the position relation, the graphic identifier of each mobile terminal and the graphic identifier of the corresponding at least one vehicle-mounted screen are displayed in a combined mode.
According to the position relation between the vehicle-mounted screen and the mobile terminal, the mobile terminal establishing the corresponding relation is combined with the graphic identifier of the vehicle-mounted screen for display, and the current corresponding relation can be visually displayed. The combination display mode can be various combination display modes such as color combination, icon combination, number combination and position combination.
In one embodiment, the step of performing combined display of the graphic identifier of each mobile terminal and the graphic identifier of the corresponding at least one vehicle-mounted screen according to the position relationship comprises:
obtaining the biological characteristic information of drivers and passengers in the vehicle; acquiring the position relation between each mobile terminal and a plurality of vehicle-mounted screens according to the association relation between each mobile terminal and the biological characteristic information and the position information of the plurality of vehicle-mounted screens; and displaying a position relation graph between each mobile terminal and the plurality of vehicle-mounted screens through the graphic identification of each mobile terminal and the graphic identifications of the plurality of vehicle-mounted terminals.
The occupant is first detected by various sensors or detectors. In one embodiment, the biometric information is selected from at least one of voice information, weight information, fingerprint information, iris information, facial feature information, and other common personal identification information. Accordingly, the vehicle-mounted terminal acquires the biometric information of the driver and the passenger in the vehicle through the microphone, the weight sensor, the fingerprint detector, the iris detector, the camera and the like.
The association relationship between the mobile terminal and the biometric information of the user may be preset, such as weight data acquisition, voice data acquisition, fingerprint data acquisition, iris data acquisition, facial feature data acquisition, and the like, and may be stored in correspondence with the identification information of the mobile terminal. After the association relationship is established, the position relationship between the mobile terminal and the vehicle-mounted screen can be determined according to the biological characteristic information of the driver and the passenger detected in the vehicle and the riding position.
The position relation graph between the mobile terminal and the vehicle-mounted screen is displayed on the screen, and the current situation between the mobile terminal and the vehicle-mounted screen can be visually seen.
In an embodiment, the identity of the vehicle-mounted screen is an interface address of the vehicle-mounted screen, and the identity of the mobile terminal is an interface address of the vehicle-mounted screen.
The identity of the vehicle-mounted screen and the identity of the mobile terminal are distinguished according to the interface address, and the method is the most convenient mode. The interface address may be a hardware interface address or a software interface address.
In one embodiment, the graphical representation of the mobile terminal is an avatar of a user associated with the mobile terminal.
The graphic identification can be various pictures or graphics, and the user head portrait is used as the graphic identification of the mobile terminal, so that the affiliation relationship of each mobile terminal can be visually distinguished, and the corresponding relationship between the mobile terminal and the vehicle-mounted screen can be conveniently set.
In a second aspect, the present invention also provides a control method applied to a mobile terminal.
In one embodiment, the control method applied to the mobile terminal comprises the following steps: and sending the identity of the mobile terminal to the vehicle-mounted terminal so that when the vehicle-mounted terminal acquires the identity of a plurality of vehicle-mounted screens in a preset space, the acquired graphic identifiers corresponding to the identity of all the vehicle-mounted screens and the graphic identifiers corresponding to the identity of all the mobile terminals are displayed, an adjusting signal is acquired, and the corresponding relation between the mobile terminal and the vehicle-mounted screens is set according to the adjusting signal.
By displaying the graphic identifiers of the vehicle-mounted screen and the mobile terminal, a user can intuitively send an adjusting signal through a program or operation, set or reset the direct corresponding connection relation between the vehicle-mounted screen and the mobile terminal, and perform functions such as data transmission, audio delivery, video delivery, control signal interaction and the like, so that the working mode of corresponding delivery of a plurality of screens to a plurality of mobile terminals of a plurality of passengers on a vehicle is realized.
In a third aspect, the invention also provides a control system for multiple screens. Fig. 2 is a block diagram of a control system for multiple screens according to an embodiment of the present invention.
As shown in fig. 2, the control system for multiple screens includes a vehicle-mounted terminal 1, a plurality of vehicle-mounted screens 2, and at least one mobile terminal 3.
In which the in-vehicle terminal 1 is connected to a plurality of in-vehicle screens 2 and at least one mobile terminal 3 for performing the control method applied to the in-vehicle terminal as described above. The mobile terminal 3 is for executing the control method applied to the mobile terminal as described above.
In one embodiment, when the passenger gets on the vehicle, the vehicle-mounted host is connected with the mobile terminal of the passenger, such as a mobile phone, a telephone watch, a tablet computer and the like. The vehicle-mounted host acquires the user identification of the vehicle-mounted screen and the user identification of the mobile terminal, displays all the acquired graphic identifications of the vehicle-mounted screen and the mobile terminal on the instrument screen, and the system can enable the mobile terminal and the vehicle-mounted screen to be connected according to a preset corresponding relation so that the mobile terminal controls at least one corresponding vehicle-mounted screen, and achieves the interconnected functions of screen projection, music entertainment, work, game playing and the like displayed through the vehicle-mounted screen. By displaying the graphic identifiers of the vehicle-mounted screen and the mobile terminal, a user can intuitively send an adjusting signal through a program or operation, set or reset the direct corresponding connection relation between the vehicle-mounted screen and the mobile terminal, and perform functions such as data transmission, audio delivery, video delivery, control signal interaction and the like, so that the working mode of corresponding delivery of a plurality of screens to a plurality of mobile terminals of a plurality of passengers on a vehicle is realized.
In one embodiment, the screen projection data of the vehicle-mounted terminal is screen display data of the mobile terminal, so that the screen display data serves as a second screen of the mobile terminal.
In an embodiment, the vehicle-mounted terminal may acquire or reset the user avatar as the graphical identifier of the mobile terminal through terminal software of the mobile terminal, or may acquire or reset the graphical identifier of the mobile terminal through a picture in the memory. The vehicle-mounted terminal can visually see the positions of all the vehicle-mounted screens, such as a center console screen, a right front screen, a right rear screen, a left rear screen and the like, by displaying all the vehicle-mounted screens.
In one embodiment, the corresponding relation between the mobile terminal and the vehicle-mounted screen is reset through an adjusting instruction sent by a user. The corresponding relation can be established by key operation or touch screen operation, for example, by sliding and drawing up the graphic identifier of the mobile terminal shown on the screen or drawing in the identifier of the corresponding vehicle-mounted screen. After the corresponding relation is reset, the vehicle-mounted host stores the corresponding relation so as to facilitate the next direct calling. The corresponding relation is changed by simply moving the head portrait, so that the use is more convenient and faster.
Fig. 3 is a schematic diagram illustrating graphical identifiers according to an embodiment of the invention.
As shown in fig. 3, in an embodiment, before the correspondence relationship is established, the graphic identifier M1 of the first mobile terminal, the graphic identifier M2 of the second mobile terminal, the graphic identifier C1 of the front right screen, the graphic identifier C2 of the rear left screen, and the graphic identifier C3 of the rear right screen are individually listed. Through the touch screen operation, the user selects the graphic identifier M1 of the first mobile terminal and releases the selected graphic identifier M1 to the vicinity of the graphic identifier C3 of the right rear screen, and then the first mobile terminal and the right rear screen are set in a corresponding relationship. After the corresponding relation is established, the vehicle-mounted terminal controls the first mobile terminal to be connected with the right rear screen, and the graphic identifier M1 of the first mobile terminal and the graphic identifier C3 of the right rear screen are combined together in a close distance on the screen to be displayed, so that the corresponding relation between the first mobile terminal and the right front screen is visually displayed.
In another embodiment, the in-vehicle terminal resets the correspondence between the mobile terminal and the in-vehicle screen through a detection signal detected by the in-vehicle sensor. The identity of a user and the seat where a passenger is located can be detected and identified through a weight sensor under the seat; and/or detecting and identifying the voice characteristics of the passenger through a voice sensor, and identifying the identity of the user and the seat where the passenger is located through voiceprints and voice directions; and/or, identifying the identity of the user and the seat where the passenger is located through a camera, an iris detector and a fingerprint detector. And simultaneously, the corresponding relation between the mobile terminal of the user and the identity of the user is identified through the software or hardware interface address and/or parameter setting of the mobile terminal, so that the corresponding relation between the mobile terminal and the vehicle-mounted screen is automatically set or reset.
In a use scene, when the copilot position is too-to-ride, the copilot screen is preferentially connected with the too-to-ride mobile phone, the copilot screen plays a song of the too-to-ride mobile phone, and the copilot screen plays a video of the too-to-ride mobile phone. When a child sits on the right rear seat, the right rear screen is preferentially connected with the mobile phone of the child, the right rear screen plays a game interface of the child, the right rear screen receives a game operation instruction of the child to the screen and transmits the game operation instruction back to the mobile phone, and the right rear screen plays game audio of the child. In another usage scenario, one mobile terminal may deliver the content of the mobile terminal to multiple vehicle-mounted screens through different ports in the same application program or different application programs, such as different projection APPs in a mobile phone, so as to realize functions of synchronously watching movies, synchronously playing games, synchronously playing documents, and the like.
In one embodiment, the same mobile terminal can be correspondingly connected to a plurality of vehicle-mounted screens for a plurality of times through different terminal software or different modules in the same terminal software.
In a fourth aspect, the invention also provides a computer-readable storage medium.
In particular, the computer readable storage medium has stored thereon a computer program which, when being executed by a processor, realizes the steps of the control method as described above. Please refer to the above embodiments for the implementation method, which is not described herein again.
The control method, the multi-screen control system and the computer readable storage medium provided by the invention can intuitively and conveniently realize the working mode corresponding to the release of a plurality of screens according to a plurality of mobile terminals of a plurality of passengers on a vehicle.
In this document, unless expressly stated or limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms can be understood in a specific case to those of ordinary skill in the art.
As used herein, the ordinal adjectives "first", "second", etc., used to describe an element are merely to distinguish between similar elements and do not imply that the elements so described must be in a given sequence, either temporally, spatially, in ranking, or in any other manner.
As used herein, the meaning of "a plurality" or "a plurality" is two or more unless otherwise specified.
It will be understood by those skilled in the art that all or part of the steps of implementing the above method embodiments may be implemented by hardware associated with program instructions, and the program may be stored in a computer readable storage medium, and when executed, performs the steps including the above method embodiments. The foregoing storage medium includes: various media that can store program codes, such as ROM, RAM, magnetic or optical disks.
The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.
As used herein, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, including not only those elements listed, but also other elements not expressly listed.
The above description is only an embodiment of the present invention, but the scope of the present invention is not limited thereto. Any person skilled in the art can easily conceive of changes or substitutions within the technical scope of the present disclosure, and all such changes or substitutions are included in the scope of the present disclosure. Therefore, the protection scope of the present invention shall be subject to the protection scope of the appended claims.