CN106603907B - Vehicle-mounted shooting system and vehicle-mounted shooting method - Google Patents

Abstract

The invention discloses a vehicle-mounted shooting system, which comprises a first mobile terminal, a second mobile terminal and a driving recorder, wherein the first mobile terminal comprises a first processor and a first communicator, the second mobile terminal comprises a second processor, a second communicator and a sensor, the driving recorder comprises a third processor, a third communicator and a shooting device, the first processor sends a first instruction to the second communicator after judging that the first communicator is successfully connected with the third communicator, the second processor controls the sensor to monitor the triggering action of a user when receiving the first instruction through the second communicator, and when monitoring the preset triggering action of the user, the second processor sends a second instruction to the third communicator through the second communicator, and the third processor controls the shooting device to shoot or record the video when receiving the second instruction through the third communicator. Through the mode, the invention can shoot the scenery outside the automobile while ensuring safe driving.

Description

Vehicle-mounted shooting system and vehicle-mounted shooting method

Technical Field

The present invention relates to the field of vehicle-mounted electronic devices, and in particular, to a vehicle-mounted shooting system and a vehicle-mounted shooting method.

Background

With the improvement of living standard of people, vehicles have also been introduced into common families for a long time. The driving trip greatly improves the convenience of people in trip. However, the following traffic accidents, porcelain collision and other accidents happen occasionally. Under the circumstances, vehicle-mounted automobile data recorders are becoming more and more popular, and the fact that accidents are clarified by a plurality of automobile owners is helped by recording the field conditions in real time.

However, in addition to rare traffic accidents, many driving trips encounter beautiful scenery, especially during self-driving travel. However, driving a car to take a picture is certainly a very dangerous and unsuspecting act.

Therefore, it is desirable to provide a vehicle-mounted shooting system and a vehicle-mounted shooting method to solve the above technical problems.

Disclosure of Invention

The invention mainly solves the technical problem of providing a vehicle-mounted shooting system and a vehicle-mounted shooting method, which can shoot outside scenery while ensuring safe driving.

In order to solve the technical problems, the invention adopts a technical scheme that: the vehicle-mounted shooting system comprises a first mobile terminal, a second mobile terminal and a driving recorder, wherein the first mobile terminal comprises a first processor and a first communicator, the second mobile terminal comprises a second processor, a second communicator and a sensor, the driving recorder comprises a third processor, a third communicator and a shooting device, the first processor sends a first instruction to the second communicator after judging that the first communicator and the third communicator are successfully connected, the second processor controls the sensor to monitor the triggering action of a user when receiving the first instruction through the second communicator, and when monitoring the preset triggering action of the user, the second processor sends a second instruction to the third communicator through the second communicator, and the third processor controls the shooting device to shoot or record the video when receiving the second instruction through the third communicator.

The second mobile terminal is a wearable intelligent device and is worn on the body of a user, and the preset trigger action is a knocking action or a swinging action.

The second mobile terminal is worn on the wrist of a user, and the preset triggering action is an action that the hand of the user continuously taps the steering wheel or the vehicle body at least twice or an action that the hand horizontally and continuously swings twice.

And the third processor controls the third communicator to send the picture obtained by photographing by the photographing device or the video obtained by recording to the first communicator.

When the sensor monitors the preset triggering action of the user again, the second processor sends a third instruction to the third communicator through the second communicator, and the third processor controls the shooting device to stop recording when receiving the third instruction through the third communicator.

The first mobile terminal is a mobile phone, a tablet computer or a palm computer.

In order to solve the technical problem, the invention adopts another technical scheme that: provided is a vehicle-mounted shooting method, including: the method comprises the steps that a first mobile terminal sends a first instruction to a second mobile terminal after judging that the first mobile terminal is successfully connected with an automobile data recorder; the second mobile terminal starts to monitor the triggering action of the user when receiving the first instruction; when monitoring the preset trigger action of the user, the second mobile terminal sends a second instruction to the automobile data recorder; and the automobile data recorder takes pictures or records videos when receiving the second instruction.

Wherein, still include after the step of shooing or video recording when the driving record appearance receives the second instruction: the automobile data recorder sends the pictures obtained through photographing or videos obtained through recording to the first mobile terminal.

Wherein, still include after the step of shooing or video recording when the driving record appearance receives the second instruction: and the second mobile terminal sends a third instruction to the automobile data recorder when monitoring the preset triggering action of the user again, and the automobile data recorder stops recording when receiving the third instruction.

The preset trigger action is a knocking action or a swinging action.

The invention has the beneficial effects that: different from the situation of the prior art, the first instruction is sent to the second communicator after the first communicator is successfully connected with the third communicator is judged through the first processor, the second processor controls the sensor to monitor the triggering action of the user when the first instruction is received through the second communicator, the second processor sends the second instruction to the third communicator through the second communicator when the sensor monitors the preset triggering action of the user, and the third processor controls the shooting device to shoot or record the images when the second instruction is received through the third communicator, so that the scenery outside the vehicle can be shot while safe driving is guaranteed.

Drawings

FIG. 1 is a schematic diagram of the configuration of the vehicular photographing system of the present invention;

fig. 2 is a flowchart of the on-vehicle photographing method of the present invention.

Detailed Description

The present invention will be described in detail below with reference to the accompanying drawings and examples.

Referring to fig. 1, fig. 1 is a schematic structural diagram of a vehicle-mounted shooting system according to the present invention. In the present embodiment, the vehicle-mounted shooting system includes a first mobile terminal 11, a second mobile terminal 12 and a driving recorder 13, the first mobile terminal 11 includes a first processor 111 and a first communicator 112, the second mobile terminal 12 includes a second processor 121, a second communicator 122 and a sensor 123, and the driving recorder 13 includes a third processor 131, a third communicator 132 and a camera 133.

The first processor 111 is electrically connected to the first communicator 112, the second processor 121 is electrically connected to the second communicator 122 and the sensor 123, respectively, and the third processor 131 is electrically connected to the third communicator 132 and the camera 133, respectively.

The first processor 111 sends a first instruction to the second communicator 122 after judging that the first communicator 112 and the third communicator 132 are successfully connected, the second processor 121 controls the sensor 123 to monitor a triggering action of the user when receiving the first instruction through the second communicator 122, the second processor 121 sends a second instruction to the third communicator 132 through the second communicator 122 when monitoring a preset triggering action of the user through the sensor 123, and the third processor 131 controls the camera 133 to take a picture or record a video when receiving the second instruction through the third communicator 132.

Preferably, the second mobile terminal 12 is a wearable smart device and is worn on the body of the user, and the preset trigger action is a tapping action or a swinging action. More preferably, the second mobile terminal 12 is worn on the wrist of the user, and the preset trigger action is an action of continuously knocking the hand of the user at least twice on the steering wheel or the vehicle body or an action of continuously swinging the hand horizontally back and forth twice. In other embodiments, the second mobile terminal 12 can also be a mobile phone accessory, a computer accessory, an accessory device connected to other intelligent devices, a general or special small sensing device with communication capability, and the like. In other embodiments, the preset trigger action may be other trigger actions, which are not listed here.

Preferably, the sensor 123 is a combination of one or more of a gravity sensor, an acceleration sensor, or a gyroscope.

Preferably, the third processor 131 controls the third communicator 132 to transmit a photo taken by the camera or a video taken by the video to the first communicator 112. The first mobile terminal 11 further includes a display and a speaker, and the first communicator 112 controls the display to display a photo or a video or controls the display and the speaker to play the video after receiving the photo or the video.

Preferably, when the sensor 123 monitors the preset triggering action of the user again, the second processor 121 sends a third instruction to the third communicator 132 through the second communicator 122, and the third processor 131 controls the camera 133 to stop recording when receiving the third instruction through the third communicator 132.

Preferably, in this embodiment, the second instruction is a photographing instruction or a video recording instruction. When the sensor 123 monitors that the hand of the user continuously taps at least the steering wheel, the second processor 121 sends a photographing instruction to the third communicator 132 through the second communicator 122, and the third processor 131 controls the photographing device 133 to photograph when receiving the photographing instruction through the third communicator 132. Similarly, when the sensor 123 detects the motion of swinging the hand of the user twice back and forth, the second processor 121 sends a video recording instruction to the third communicator 132 through the second communicator 122, and the third processor 131 controls the camera 133 to record video when receiving the video recording instruction through the third communicator 132. The third instruction is an instruction to stop video recording, when the sensor 123 detects the motion of the user's hand swinging twice back and forth, the second processor 121 sends an instruction to stop video recording to the third communicator 132 through the second communicator 122, and the third processor 131 controls the camera 133 to stop video recording when receiving the instruction to stop video recording through the third communicator 132. It will be understood by those skilled in the art that the correspondence between the preset trigger action and the photographing instruction or the video recording instruction may also be the opposite of the above.

Preferably, the first mobile terminal 11 is a mobile phone, a tablet computer or a palm computer.

Preferably, the transmission modes between the first communicator 112, the second communicator 122 and the third communicator 132 include, but are not limited to, information transmission of local area network or wide area network communication based on TCP/IP protocol, and wireless direct transmission modes between devices, such as bluetooth, infrared, WiFi, Zigbee and FM.

Preferably, the drive recorder 13 is fixed to a windshield at the front in the vehicle. The camera 133 is facing outward and can capture the scene in front of the vehicle in real time. After the automobile is ignited and electrified, the automobile data recorder is automatically started to record video images and sound of the whole running process of the automobile. This part belongs to the basic function of vehicle event data recorder. The second processor 121 sends a second instruction to the third communicator 132 through the second communicator 122, the third processor 131 suspends the recording process of the original video image and sound when receiving the second instruction through the third communicator 132, controls the camera 133 to take a picture or record a video, and continues to record the original video image and sound after the picture taking or recording is finished.

Referring to fig. 2, fig. 2 is a flowchart of a vehicle-mounted shooting method according to the present invention. In the present embodiment, the vehicle-mounted shooting method includes the steps of:

step S11: and the first mobile terminal sends a first instruction to the second mobile terminal after judging that the connection with the automobile data recorder is successful.

In step S11, the first processor 111 of the first mobile terminal 11 sends a first instruction to the second communicator 122 of the second mobile terminal 12 after determining that the first communicator 112 of the first mobile terminal 11 is successfully connected to the third communicator 132 of the tachograph 13.

Step S12: and the second mobile terminal starts to monitor the trigger action of the user when receiving the first instruction.

In step S12, the second processor 121 of the second mobile terminal 12 controls the sensor 123 of the second mobile terminal 12 to monitor the trigger action of the user when receiving the first instruction through the second communicator 122.

Step S13: and when monitoring the preset triggering action of the user, the second mobile terminal sends a second instruction to the automobile data recorder.

In step S13, when the sensor 123 detects the preset trigger action of the user, the second processor 121 sends a second instruction to the third communicator 132 through the second communicator 122.

Step S14: and the automobile data recorder takes pictures or records videos when receiving the second instruction.

In step S14, the third processor 131 of the drive recorder 13 controls the camera 133 of the drive recorder 13 to take a photograph or record a video when receiving the second instruction through the third communicator 132.

Preferably, after the step of taking a picture or recording a video when the driving recorder receives the second instruction, the driving recorder further comprises: the automobile data recorder sends the pictures obtained through photographing or videos obtained through recording to the first mobile terminal. The method specifically comprises the following steps: the third processor 131 controls the third communicator 132 to transmit a picture taken by the camera 133 or a video recorded by the video to the first communicator 112. The first communicator 112 controls the display of the first mobile terminal 11 to display the photo or the video or controls the display and the speaker of the first mobile terminal 11 to play the video after receiving the photo or the video.

Preferably, the step of taking a picture or recording a video when the driving recorder receives the second instruction further includes: and the second mobile terminal sends a third instruction to the automobile data recorder when monitoring the preset triggering action of the user again, and the automobile data recorder stops recording when receiving the third instruction. The method specifically comprises the following steps: when the sensor 123 monitors the preset trigger action of the user again, the second processor 121 sends a third instruction to the third communicator 132 through the second communicator 122, and the third processor 131 controls the camera to stop recording when receiving the third instruction through the third communicator 132.

Preferably, the preset triggering action is a tapping action or a swinging action. More preferably, the preset trigger action is an action that the hand of the user continuously taps the steering wheel or the vehicle body at least twice or an action that the hand horizontally swings back and forth twice. In other embodiments, the preset trigger action may be other trigger actions, which are not listed here.

The vehicle-mounted shooting method is applied to the vehicle-mounted shooting system, the content described by the vehicle-mounted shooting system can be used for explaining the vehicle-mounted shooting method, similarly, the content described by the vehicle-mounted shooting method can be used for explaining the vehicle-mounted shooting system, and excessive repeated description is not provided here.

According to the invention, the first instruction is sent to the second communicator after the first communicator is successfully connected with the third communicator through the first processor, the second processor controls the sensor to monitor the triggering action of the user when the first instruction is received through the second communicator, the second processor sends the second instruction to the third communicator through the second communicator when the sensor monitors the preset triggering action of the user, and the third processor controls the shooting device to shoot or record a picture when the second instruction is received through the third communicator, so that the scenery outside the vehicle can be shot while the safe driving is ensured.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes performed by the present specification and drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (5)

1. A vehicle-mounted shooting system is characterized by comprising a first mobile terminal, a second mobile terminal and a vehicle event data recorder, wherein the first mobile terminal comprises a first processor and a first communicator, the second mobile terminal comprises a second processor, a second communicator and a sensor, the vehicle event data recorder comprises a third processor, a third communicator and a shooting device, the first processor sends a first instruction to the second communicator after judging that the first communicator and the third communicator are successfully connected, the second processor controls the sensor to monitor a triggering action of a user when receiving the first instruction through the second communicator, and the second processor sends a second instruction to the third communicator through the second communicator when monitoring a preset triggering action of the user, the third processor controls the camera to take a picture or record a video when receiving the second instruction through the third communicator, and the third processor controls the third communicator to send the picture taken by the camera or the video taken by the video to the first communicator;

the second mobile terminal is a wearable intelligent device and is worn on the wrist of the user, and the preset trigger is used as a knocking action or a swinging action; wherein the sensor is one or more of a gravity sensor, an acceleration sensor, or a gyroscope.

2. The vehicle-mounted shooting system of claim 1, wherein when the sensor monitors the preset triggering action of the user again, the second processor sends a third instruction to the third communicator through the second communicator, and the third processor controls the shooting device to stop recording when receiving the third instruction through the third communicator.

3. The vehicle-mounted shooting system of claim 1, wherein the first mobile terminal is a mobile phone, a tablet computer or a palm computer.

4. A vehicle-mounted shooting method is characterized by comprising the following steps:

the method comprises the steps that a first mobile terminal sends a first instruction to a second mobile terminal after judging that the first mobile terminal is successfully connected with a driving recorder, wherein the second mobile terminal is a wearable intelligent device, and the wearable intelligent device comprises one or more of a gravity sensor, an acceleration sensor or a gyroscope;

the second mobile terminal starts to monitor the triggering action of the user when receiving the first instruction;

when monitoring the preset triggering action of the user, the second mobile terminal sends a second instruction to the automobile data recorder; wherein the preset trigger is a knocking action or a swinging action;

the automobile data recorder takes pictures or videos when receiving the second instruction;

and the automobile data recorder sends the pictures obtained by photographing or videos obtained by recording to the first mobile terminal.

5. The vehicle-mounted shooting method according to claim 4, wherein after the step of taking a picture or recording a video when the automobile data recorder receives the second instruction, the method further comprises:

and the second mobile terminal sends a third instruction to the automobile data recorder when monitoring the preset triggering action of the user again, and the automobile data recorder stops recording when receiving the third instruction.

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