CN111050123A - Vehicle-mounted monitoring equipment and control method - Google Patents
Vehicle-mounted monitoring equipment and control method Download PDFInfo
- Publication number
- CN111050123A CN111050123A CN201911146994.7A CN201911146994A CN111050123A CN 111050123 A CN111050123 A CN 111050123A CN 201911146994 A CN201911146994 A CN 201911146994A CN 111050123 A CN111050123 A CN 111050123A
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- user
- processor
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- vehicle
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04N—PICTORIAL COMMUNICATION, e.g. TELEVISION
- H04N7/00—Television systems
- H04N7/18—Closed-circuit television [CCTV] systems, i.e. systems in which the video signal is not broadcast
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B60—VEHICLES IN GENERAL
- B60R—VEHICLES, VEHICLE FITTINGS, OR VEHICLE PARTS, NOT OTHERWISE PROVIDED FOR
- B60R11/00—Arrangements for holding or mounting articles, not otherwise provided for
-
- G—PHYSICS
- G05—CONTROLLING; REGULATING
- G05D—SYSTEMS FOR CONTROLLING OR REGULATING NON-ELECTRIC VARIABLES
- G05D3/00—Control of position or direction
- G05D3/12—Control of position or direction using feedback
Abstract
The invention provides a vehicle-mounted monitoring device and a control method thereof, wherein the device comprises a processor, a calling system, a holder control system, an image transmission interface, a memory and an internet interface which are respectively connected with the processor, and a program system for controlling the vehicle-mounted monitoring device. The calling system distributes a calling instruction for the vehicle-mounted monitoring equipment, receives the calling instruction sent by a user, accesses the user into the processor, and the user can send a control instruction to the processor to control the holder control system installed in the vehicle to shoot. The shot image is transmitted into the processor through the image transmission interface and is transmitted to the user side in real time; meanwhile, the image and the user information are stored in the memory together, and are uploaded to the cloud through the internet interface. The user can log in the cloud end through the registration information and check the image shot by the user.
Description
Technical Field
The invention relates to monitoring equipment, in particular to vehicle-mounted monitoring equipment and a control method.
Background
With the increasingly convenient traffic and the increasing number of people on trips in modern society, the environmental and safety problems on the transportation means are valued by more and more people. Particularly, the number of passengers on a vehicle on holidays is increased so that the passengers and the luggage are separated in many cases and are separated from each other by a long distance, and the passengers are always worried about the safety of the luggage. In addition, a person who goes to a trip or a person who goes to a trip with a child may not be able to sit with a fellow, and for safety reasons, a passenger often wants to check his or her luggage or fellow at intervals to ensure safety. But it is unlikely that a walk-through view on a crowded vehicle will be possible. On the other hand, passengers sometimes encounter an emergency in the transportation, and at this time, the passengers cannot record all pictures or all processes of the event, so that corresponding evidence cannot be provided afterwards.
The passenger can see various situations in the vehicle without moving the position through the camera device, but the existing vehicle-mounted camera device generally comprises the following three types: (1) the automobile data recorder shoots the external environment of the vehicle, and the image is stored in the memory card; (2) the camera equipment is arranged near the vehicle door, and images are presented on a control panel of a driver so as to enable the driver to grasp the opportunity of opening and closing the vehicle door; (3) the camera device installed inside the vehicle shoots the condition of the whole vehicle interior, and the image is stored in the camera device or transmitted to a central office of a company to which the vehicle belongs. Therefore, the cameras cannot provide images of all corners in the vehicle for passengers, and after getting off the vehicle, the passengers need to apply for relevant departments if the passengers want to view the images on the vehicle.
Disclosure of Invention
In view of the above drawbacks and deficiencies of the prior art, the present invention provides a vehicle-mounted camera device and a control method thereof, which allow a passenger to control a camera installed in a vehicle by using a command issuing device such as a mobile phone to view an environment in the vehicle in real time, and upload a captured image to a cloud terminal for the user to log in the cloud terminal to view the captured image at any time.
In order to achieve the above object, the present invention provides a vehicle-mounted monitoring apparatus, including:
a processor, a calling system, a holder control system, an image transmission interface, a memory and an internet interface which are respectively connected with the processor
The calling system distributes a calling instruction for the vehicle-mounted monitoring equipment and receives the calling instruction sent by the equipment sending out by a user through the instruction; and the calling system accesses the user to the processor after receiving the calling instruction sent by the user.
And the holder control system is arranged in the vehicle, receives the control instruction of the processor and shoots images.
And the program system is connected with the processor in a wired or wireless mode and controls the vehicle-mounted monitoring equipment.
Further, the vehicle-mounted monitoring device, wherein the calling system includes an instruction distribution device, a receiver, and an interactor; the instruction distribution equipment distributes a call instruction for the vehicle-mounted monitoring equipment, the receiver receives the call instruction sent by the user by using the instruction sending equipment, performs queue control on the received multiple instructions, identifies the user through the interactor according to the sequence of the call, accesses the user to the processor, and controls the access time of the accessed user; the access user may issue control instructions to the processor through the instruction issue device.
Further, the vehicle-mounted monitoring device, wherein the access user needs to register as a login user, and registration information is stored in the memory and transmitted to the internet cloud through the internet interface.
Further, the vehicle-mounted monitoring device, wherein the cradle head control system comprises a cradle head instruction interface, a cradle head, and an image acquisition device; the image acquisition device is connected to the cloud platform, and the cloud platform instruction interface receives the control command that the processor sent, control cloud platform and image acquisition device's shooting angle, and shoot.
Further, the vehicle-mounted monitoring device, wherein the memory includes an image memory, a user memory, and a terminal memory, the image memory stores images, the user memory stores registration information of a user, and the terminal memory stores a call instruction.
Further, the vehicle-mounted monitoring device, wherein the program system includes:
the call control unit is used for controlling the call system to distribute a call instruction for the vehicle-mounted monitoring equipment, receiving the call instruction sent by a user and accessing the call instruction into the processor according to the time sequence of the call; and transmitting the control instruction sent by the access user to the processor; and allowing the access user to register as the login user by the call control unit.
The image acquisition unit receives a control instruction from the processor, controls the holder control system to shoot images, transmits the images to the processor in real time through an image transmission interface, stores the images in the memory under the folder of the login user, and controls an internet interface to upload the images in the processor under the folder of the login user at the network cloud end;
the image output unit is used for controlling the processor, transmitting the real-time image in the processor to the instruction sending equipment of the user through the image output interface, and allowing the access user to check the real-time image; and the image output unit is used for identifying login information sent by the login user, and extracting pictures in a memory and the folder of the login user in the network cloud end through a processor for the login user to check.
In order to achieve the above object, the present invention further provides a control method of the vehicle-mounted monitoring device, including the following steps:
the method comprises the following steps: terminal allocation, namely allocating a call instruction to the vehicle-mounted monitoring equipment through the call control unit;
step two: a user calls in, and the external user sends a call instruction to the call control unit through the instruction sending device;
step three: queue control, if multiple external users send out commands, the call control unit will access the users to the processor respectively in the order of the time of sending out commands, and at the same time, control the time of accessing to the processor, and the accessed users need to register as login users;
step four: the login user transmits a control instruction to the image acquisition control unit through the call control unit to shoot an image; the image acquisition control unit stores the shot image under the folder of the login user in the memory and simultaneously stores the shot image under the folder of the login user in the network cloud;
step six: and image output, wherein the processor, the memory and the network cloud are controlled to transmit the image to the login user through the image output unit.
Further, the control method of the vehicle-mounted monitoring device, wherein the image output includes a real-time image output or a login image output. The real-time image output means that the image output unit sends an instruction to transmit the shot real-time image from the processor to the login user; and outputting the login image, namely, identifying login information of the login user by the image output unit, extracting an image according to a time node from the memory or a folder of the login user in the network cloud, and transmitting the image to the login user.
The invention has the advantages that:
(1) by means of the invention, passengers can monitor the companions or luggage far away from the passengers in real time in any position in the vehicle through own instruction sending equipment such as a mobile phone or a tablet personal computer and the like so as to ensure the safety of the passengers.
(2) By means of the invention, passengers can shoot various conditions such as conflict, theft and the like encountered in the transportation means through own instruction sending equipment such as mobile phone tablet personal computers and the like, and after getting off the vehicle, the images are extracted to the mobile phone or the tablet personal computer and then stored as evidence.
Drawings
Fig. 1 is a schematic composition diagram of an in-vehicle monitoring apparatus.
Fig. 2 is a schematic diagram of a program system of the on-vehicle monitoring apparatus.
Fig. 3 is an operation flow diagram of the vehicle-mounted monitoring device control method.
Detailed Description
The technical means adopted by the invention to achieve the predetermined object of the invention are further described below with reference to the drawings and the preferred embodiments of the invention.
The invention discloses a vehicle-mounted monitoring device and a control method, as shown in figure 1, the vehicle-mounted monitoring device comprises: the system comprises a processor, a calling system, a holder control system, an image transmission interface, a memory, an internet interface and a program system.
The processor respectively carries out information interaction with the calling system, the holder control system, the image transmission interface, the memory and the internet interface. And the program system is connected with the processor in a wired or wireless mode and controls the vehicle-mounted monitoring equipment.
The calling system comprises an instruction distribution device, a receiver and an interactor (not identified in the figure). The instruction distribution equipment distributes a calling instruction for the vehicle-mounted monitoring equipment, and the calling instruction is stored in the memory through the interactor and the processor; the receiver receives a call instruction sent by a user by using an instruction sending device, performs queue control on a plurality of users, accesses the processor through the interactor according to the time sequence of the call, simultaneously can control the access time of one user, switches the access of the next user after a certain time, the accessed user needs to be registered as a login user through the interactor and the processor, and the registration information is stored in the memory and is transmitted to the network cloud end through the internet interface; the login user can send a control instruction to the processor through the instruction sending device. The call command may be a string of numbers, but is not limited thereto. The instruction issuing device may be a mobile phone, a tablet computer, or the like, but is not limited thereto.
The holder control system comprises: a cradle head instruction interface, a cradle head and an image acquisition device (not marked in the figure). The image acquisition device is connected to the holder, the holder is arranged in the middle of the top in the vehicle and can drive the image acquisition device to move 360 degrees in the horizontal direction and 180 degrees in the direction perpendicular to the horizontal direction, so that pictures of all corners in the whole vehicle or carriage can be acquired; and the holder instruction interface receives the control instruction of the processor, controls the shooting angles of the holder and the image acquisition device and shoots the image. The image acquisition device may be a video camera, various monitoring cameras, but not limited thereto.
The image transmission interface, as shown in fig. 1, includes an image input interface and an image output interface, where the image input interface is connected to an image acquisition device and transmits an acquired image to a processor. The image transmission interface can transmit the image received in the processor to the user terminal.
As shown in fig. 1, the memory includes an image memory for storing images in the processor, a user memory for storing registration information of the logged-in user, and a terminal memory for storing a call instruction assigned by the call system.
The program system, as shown in fig. 2, includes: the system comprises a call control unit, an image acquisition control unit and an image output unit.
As shown in fig. 1 and fig. 2, the call control unit includes a terminal allocation unit, an interaction unit, a queue control unit, an identifier processing unit, and a control instruction processing unit. And the terminal distribution unit controls the instruction distribution equipment to distribute the call instruction for the vehicle-mounted monitoring equipment and stores the call instruction in the terminal memory. The interaction unit controls the receiver to interact information with the instruction sending equipment; and the queue control unit controls the receiver to receive the call instructions sent by a plurality of users and accesses the processor through the interactor in time sequence. The identification processing unit controls the interaction device and the processor, registers a user accessing the processor and binds the instruction sending device, thereby completing user login; the registration information of the user is stored in the user memory through the processor, and is uploaded to the network cloud end through the internet interface. And the control instruction unit processes various control instructions sent by the instruction sending equipment which is accessed to the processor through the interactor and transmits the control instructions to the processor.
As shown in fig. 1 and 2, the image acquisition control unit includes a pan-tilt control unit and an image acquisition unit. And the holder control unit receives the control instruction in the processor through the holder instruction interface, controls the shooting angles of the holder and the image acquisition device and shoots the image. The image acquisition unit controls the image input interface to transmit the shot picture to the processor, the image is stored in the login user folder in the image memory through the processor, and is transmitted to the position below the login user folder in the network cloud end through the internet interface. The user can log in the cloud end through the registration information and check the image shot by the user according to the time point.
As shown in fig. 1 and fig. 2, the image output unit includes a user identification unit and an image extraction unit. The user identification unit can control the processor and the network cloud to identify login information of a user, and allows the user to login the cloud or the vehicle-mounted monitoring equipment. The image extraction unit allows a logged-in user to extract a self-shot image from an image memory of the memory or the network cloud according to a time node; while also allowing the logged-in user to extract real-time images from the processor.
The control method for the vehicle-mounted monitoring apparatus described above, as shown in fig. 3, includes the steps of:
the method comprises the following steps: terminal allocation, after the start, the terminal allocation unit controls the instruction allocation system to allocate a call instruction for the vehicle-mounted control system; and meanwhile, the call instruction is stored into the terminal memory through the interactor and the processor.
Step two: the user calls in, and the receiver is controlled by the interaction unit to receive the call instruction sent by the user through the instruction sending equipment;
step three: and the queue control unit controls the receiver and the interactor to be accessed into the processor according to the sequence of the call instruction, a user accessed into the processor can register and bind the instruction issuing equipment, and register information is stored in a user memory and uploaded to the network cloud end through the processor to complete login.
Step four: camera control and image storage, wherein a logged-in user can control the shooting angles of the cradle head and the image acquisition device through a cradle head control unit and shoot images; and the image acquisition unit controls the image input interface to transmit the shot real-time image to the processor, and the real-time image is stored in a login user folder of the user memory through the processor and is simultaneously uploaded to the login user folder in the network cloud.
Step six: and image output, including real-time image output and login image output. And the real-time image output unit controls the processor, and transmits the real-time image to the instruction sending equipment of the login user through the image output interface for the user to check. And the login image output means that the user identification unit identifies the registration information of the login user through the processor or the network cloud. After the identification is passed, the image extraction unit extracts images according to time nodes from the file of the login user in the image memory or the file of the login user in the network cloud, and transmits the images to instruction sending equipment of the login user through the image output interface for the user to check.
Although the present invention has been described with reference to the preferred embodiments, it should be understood that various changes, substitutions and alterations can be made herein without departing from the spirit and scope of the invention as defined by the appended claims.
Claims (9)
1. An on-vehicle monitoring device, comprising:
a processor, a calling system, a holder control system, an image transmission interface, a memory and an internet interface which are respectively connected with the processor
The calling system distributes a calling instruction for the vehicle-mounted monitoring equipment and receives the calling instruction sent by the equipment sending out by a user through the instruction; and the calling system accesses the user to the processor after receiving the calling instruction sent by the user.
And the holder control system is arranged in the vehicle, receives the control instruction of the processor and shoots images.
And the program system is connected with the processor in a wired or wireless mode and controls the vehicle-mounted monitoring equipment.
2. The vehicle monitoring device of claim 1, wherein the call system comprises an instruction distribution device, a receiver, and an interactor; the instruction distribution equipment distributes a call instruction for the vehicle-mounted monitoring equipment, the receiver receives the call instruction sent by the user by using the instruction sending equipment, performs queue control on the received multiple instructions, identifies the user through the interactor according to the sequence of the call, accesses the user to the processor, and controls the access time of the accessed user; the access user may issue control instructions to the processor through the instruction issue device.
3. The vehicle-mounted monitoring device of claim 1, wherein the access user needs to register as a login user, and registration information is stored in the memory and transmitted to a cloud via the internet interface.
4. The vehicle-mounted monitoring device according to claim 1, wherein the cradle head control system comprises a cradle head command interface, a cradle head and an image acquisition device; the image acquisition device is connected to the cloud platform, and the cloud platform instruction interface receives the control command that the processor sent, control cloud platform and image acquisition device's shooting angle, and shoot.
5. The on-vehicle monitoring apparatus according to claim 1, wherein the memory includes an image memory, a user memory, and a terminal memory, the image memory storing images, the user memory storing registration information of a user, and the terminal memory storing the call instruction.
6. The on-vehicle monitoring device according to any one of claims 1 to 5, characterized in that the program system includes:
the call control unit is used for controlling the call system to distribute a call instruction for the vehicle-mounted monitoring equipment, receiving the call instruction sent by a user and accessing the call instruction into the processor according to the time sequence of the call; and transmitting the control instruction sent by the access user to the processor; at the same time, the call control unit allows the access user to register as the login user;
the image acquisition unit receives a control instruction from the processor, controls the holder control system to shoot images, transmits the images to the processor in real time through an image transmission interface, stores the images in the memory under the folder of the login user, and controls an internet interface to upload the images in the processor under the folder of the login user at the network cloud end;
the image output unit is used for controlling the processor, transmitting the real-time image in the processor to the instruction sending equipment of the user through the image output interface, and allowing the login user to check the real-time image; and the image output unit is used for identifying login information sent by the login user, and extracting pictures in a memory and the folder of the login user in the network cloud end through a processor for the login user to check.
7. A control method for the in-vehicle monitoring apparatus according to any one of claims 1 to 6, characterized by comprising the steps of:
the method comprises the following steps: terminal allocation, namely allocating a call instruction to the vehicle-mounted monitoring equipment through the call control unit;
step two: a user calls in, and the external user sends a call instruction to the call control unit through the instruction sending device;
step three: queue control, if multiple users send out instructions, the call control unit will access the users to the processor respectively in the order of time of sending out instructions, and control the time of accessing one user to the processor, the accessed user needs to register as a login user;
step four: the login user transmits a control instruction to the image acquisition control unit through the call control unit to shoot an image; the image acquisition control unit stores the shot image under the folder of the login user in the memory and simultaneously stores the shot image under the folder of the login user in the network cloud;
step six: and image output, wherein the processor, the memory and the network cloud are controlled to transmit the image to the login user through the image output unit.
8. The method according to claim 7, wherein the image output is a real-time image output, that is, the image output unit issues an instruction to transfer a photographed real-time image from the processor to the logged-in user.
9. The method according to claim 7, wherein the image output is a login image output, that is, the image output unit identifies login information of the login user, and extracts an image from a time node under a folder of the login user in the memory or the internet cloud and transmits the image to the login user.
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| Application Number | Priority Date | Filing Date | Title |
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| CN201911146994.7A CN111050123A (en) | 2019-11-21 | 2019-11-21 | Vehicle-mounted monitoring equipment and control method |
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| CN201911146994.7A CN111050123A (en) | 2019-11-21 | 2019-11-21 | Vehicle-mounted monitoring equipment and control method |
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Application publication date: 20200421 |
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