CN113781828A - Real-time parking monitoring method and system based on intelligent networking technology - Google Patents

Abstract

The invention provides a real-time parking monitoring method and a system based on an intelligent networking technology, wherein the method comprises the following steps: a. the remote communication module is in a monitoring state and monitors the displacement of the gravity sensor in the three-axis direction in real time; b. the remote communication module judges whether instantaneous displacement of a certain direction of three axes of the gravity sensor reaches a threshold value; if there is a direction instantaneous displacement reaching the threshold, executing step c; c. the remote communication module acquires vehicle state data and triggers an intelligent monitoring mode to give an alarm; d. the remote communication module reports vehicle state data to the TSP Internet of vehicles cloud platform and informs the TSP Internet of vehicles cloud platform to trigger alarm; meanwhile, the visual controller stores the video in a first time period before the intelligent monitoring mode is triggered, collects the video in a second time period after the intelligent monitoring mode is triggered, stores the video in the local and informs the remote communication module; e. the remote communication module enters the monitoring state again.

Description

Real-time parking monitoring method and system based on intelligent networking technology

Technical Field

The invention relates to a vehicle networking technology, in particular to a real-time parking monitoring method and system based on an intelligent networking technology.

Background

With the improvement of life, every family has a private car, but our cars can not be parked in own courtyard or private garage, and most of the cars are parked in public parking garages or roadside. During the parking period of our vehicle, some accidental rubbing and even collision are inevitable; but most often we are unaware or without a monitoring device that can catch the offender. At this time, it is desirable that the vehicle itself has a corresponding technical means to perform real-time self-monitoring to solve the problem.

Disclosure of Invention

In order to improve the real-time performance and reliability of parking monitoring, the invention provides a real-time parking monitoring method based on an intelligent networking technology.

The method comprises the following steps:

a. the remote communication module is in a monitoring state and monitors the displacement of the gravity sensor in the three-axis direction in real time;

b. the remote communication module judges whether instantaneous displacement of a certain direction of three axes of the gravity sensor reaches a threshold value; if there is a direction instantaneous displacement reaching the threshold, executing step c;

c. the remote communication module acquires vehicle state data and triggers an intelligent monitoring mode to give an alarm;

d. the remote communication module reports vehicle state data to the TSP Internet of vehicles cloud platform and informs the TSP Internet of vehicles cloud platform to trigger alarm; meanwhile, the visual controller stores the video in a first time period before the intelligent monitoring mode is triggered, collects the video in a second time period after the intelligent monitoring mode is triggered, stores the video in the local and informs the remote communication module;

e. the remote communication module enters the monitoring state again.

In one embodiment, after the remote communication module reports the vehicle state data and informs the TSP Internet of vehicles cloud platform to trigger the alarm, the TSP Internet of vehicles cloud platform records the vehicle state and timely pushes the alarm to the user side by a short message or an APP message.

In one embodiment, if the three axes of the gravity sensor have no instantaneous displacement in one direction to reach the threshold value, the step a is executed in a returning way.

In one embodiment, the first period of time is 1 minute.

In one embodiment, the second time period is 1 minute.

In one embodiment, the user side is a mobile phone vehicle control APP or a short message prompt.

The invention also provides a real-time parking monitoring system based on the intelligent networking technology, which comprises a vehicle end, a cloud end and a user end, wherein the vehicle end comprises a remote communication module and a visual controller, and the vehicle end monitors whether the vehicle is abnormally collided or moved in real time and informs the cloud end of vehicle state data in time; the cloud end comprises a TSP (Total suspended particulate) Internet of vehicles cloud platform and is used for acquiring the vehicle state data and forwarding the vehicle state data to the user end in time, and the user end comprises a mobile phone vehicle control APP or a short message prompt;

wherein:

the remote communication module monitors the displacement of the gravity sensor in the three-axis direction in real time; judging whether instantaneous displacement of a certain direction of three axes of the gravity sensor reaches a threshold value, if the instantaneous displacement of the certain direction reaches the threshold value, acquiring vehicle state data, and triggering an intelligent monitoring mode to give an alarm; reporting vehicle state data to the TSP Internet of vehicles cloud platform, and informing the TSP Internet of vehicles cloud platform to trigger alarm; meanwhile, the visual controller stores the video in a first time period before triggering, collects the video in a second time period after triggering, stores the video in the local and informs the remote communication module;

and after receiving the report of the vehicle state data and the alarm reported by the remote communication module, the TSP Internet of vehicles cloud platform records the vehicle state data and pushes the alarm to the user side by a short message and an APP message in time.

In one embodiment, if no instantaneous displacement in one direction of the three axes of the gravity sensor reaches the threshold, the remote communication module continues to monitor the displacement in the three axes of the gravity sensor in real time and judges whether instantaneous displacement in one direction of the three axes of the gravity sensor reaches the threshold.

In one embodiment, the first period of time is 1 minute.

In one embodiment, the second time period is 1 minute.

According to the real-time parking monitoring method and system based on the intelligent networking technology, after the fact that the instantaneous displacement exceeds a threshold value after the vehicle is parked is detected, the vehicle state data can be uploaded to the cloud in time and notified to a vehicle owner, 360-degree image video data of the vehicle body can be collected through the front camera, the rear camera, the left camera, the right camera, the left camera and the right camera to store image evidence, and therefore the vehicle is guaranteed in an all-dimensional mode.

Drawings

The foregoing summary, as well as the following detailed description of the invention, will be better understood when read in conjunction with the appended drawings. It is to be noted that the appended drawings are intended as examples of the claimed invention. In the drawings, like reference characters designate the same or similar elements.

Fig. 1 illustrates an overall system architecture of a real-time parking monitoring method based on an intelligent networking technology according to an embodiment of the invention;

fig. 2 is a flowchart illustrating a real-time parking monitoring method based on an intelligent networking technology according to an embodiment of the present invention.

Detailed Description

The detailed features and advantages of the present invention are described in detail in the detailed description which follows, and will be sufficient for anyone skilled in the art to understand the technical content of the present invention and to implement the present invention, and the related objects and advantages of the present invention will be easily understood by those skilled in the art from the description, claims and drawings disclosed in the present specification.

The technical scheme of the invention is that the current general parking monitoring strategy is integrated and optimized and is integrated into the intelligent networking system of the vehicle, thereby not only improving the real-time performance and the reliability of parking monitoring, but also achieving the effect of protecting the property safety of the vehicle owner.

Fig. 1 shows an overall system architecture of a real-time parking monitoring method based on an intelligent networking technology according to an embodiment of the invention. The technical scheme of the invention relates to the following related parties: a vehicle end 101, a cloud end 102 and a user end 103. The vehicle end 101 comprises a remote communication module (TBOX), a vision controller and 4 front, rear, left and right cameras for collecting 360-degree image video data of a vehicle body, and is mainly responsible for monitoring whether the vehicle is abnormally collided or moved in real time and informing the vehicle state to the cloud end in time; the cloud end 102 includes a TSP (telematics service provider) car networking cloud platform, and is mainly responsible for acquiring a car state and forwarding information to the user end 103 in time, that is, a mobile phone car control APP or a short message prompt.

The remote communication module monitors the displacement of the gravity sensor in the three-axis direction in real time; judging whether instantaneous displacement of a certain direction of the three axes of the gravity sensor reaches a threshold value, if the instantaneous displacement of the three axes of the gravity sensor does not reach the threshold value, continuously monitoring the displacement of the three axes of the gravity sensor in real time by the remote communication module, judging whether instantaneous displacement of the three axes of the gravity sensor in the certain direction reaches the threshold value, if the instantaneous displacement of the certain direction reaches the threshold value, acquiring vehicle state data, and triggering an intelligent monitoring mode to give an alarm; reporting vehicle state data to the TSP Internet of vehicles cloud platform, and informing the TSP Internet of vehicles cloud platform to trigger alarm; meanwhile, the vision controller stores the video in the first time period before the intelligent monitoring mode is triggered, collects the video in the second time period after the intelligent monitoring mode is triggered, stores the video in the local and informs the remote communication module.

And after receiving the vehicle state data reported by the remote communication module and the alarm, the TSP Internet of vehicles cloud platform records the vehicle state data and pushes the alarm to the user side by a short message and an APP message in time.

And the user side receives the short message or APP message prompt forwarded by the TSP Internet of vehicles cloud platform.

In one embodiment, the first period of time is 1 minute.

In one embodiment, the second time period is 1 minute.

Fig. 2 is a flowchart illustrating a real-time parking monitoring method based on an intelligent networking technology according to an embodiment of the present invention.

Step 201: the remote communication module is in a monitoring state and monitors the displacement of the gravity sensor in the three-axis direction in real time;

step 202: the remote communication module judges whether instantaneous displacement of a certain direction of the three shafts reaches a threshold value; if not, returning to execute the step 201; if so, go to step 203;

step 203: the remote communication module acquires vehicle state data, and executes step 204 and step 205 to trigger an intelligent monitoring mode to give an alarm;

step 204: the remote communication module reports vehicle state data and informs a TSP (telematics service provider) of triggering alarm of a vehicle networking cloud platform (step 204 a); meanwhile, the vision controller saves the video in the first time period before the intelligent monitoring mode is triggered, collects the video in the second time period after the intelligent monitoring mode is triggered (step 204b), saves the video in the local and informs the remote communication module (step 204 c).

In one embodiment, the first period of time is 1 minute.

In one embodiment, the second time period is 1 minute

Step 205: the remote communication module enters the monitoring state again;

step 206: the remote communication module reports vehicle state data and informs the TSP Internet of vehicles cloud platform to trigger alarm, and the TSP Internet of vehicles cloud platform records vehicle state and timely pushes alarm to users through short messages and APP messages.

Step 207: and the mobile phone end receives the short message and APP message prompt.

The invention optimizes the traditional parking monitoring scheme, makes the parking monitoring function more intelligent by combining the current intelligent network vehicle technology, and can guarantee the property safety of the vehicle owner in an all-around way by a timely message notification mode and a monitoring mode of the panoramic image of the vehicle body when the vehicle is loved by the user and meets an accident.

The terms and expressions which have been employed herein are used as terms of description and not of limitation. The use of such terms and expressions is not intended to exclude any equivalents of the features shown and described (or portions thereof), and it is recognized that various modifications may be made within the scope of the claims. Other modifications, variations, and alternatives are also possible. Accordingly, the claims should be looked to in order to cover all such equivalents.

Also, it should be noted that although the present invention has been described with reference to the current specific embodiments, it should be understood by those skilled in the art that the above embodiments are merely illustrative of the present invention, and various equivalent changes or substitutions may be made without departing from the spirit of the present invention, and therefore, it is intended that all changes and modifications to the above embodiments be included within the scope of the claims of the present application.

Claims (10)

1. A real-time parking monitoring method based on an intelligent networking technology is characterized by comprising the following steps:

a. the remote communication module is in a monitoring state and monitors the displacement of the gravity sensor in the three-axis direction in real time;

b. the remote communication module judges whether instantaneous displacement of a certain direction of three axes of the gravity sensor reaches a threshold value; if there is a direction instantaneous displacement reaching the threshold, executing step c;

c. the remote communication module acquires vehicle state data and triggers an intelligent monitoring mode to give an alarm;

d. the remote communication module reports vehicle state data to the TSP Internet of vehicles cloud platform and informs the TSP Internet of vehicles cloud platform to trigger alarm; meanwhile, the visual controller stores the video in a first time period before the intelligent monitoring mode is triggered, collects the video in a second time period after the intelligent monitoring mode is triggered, stores the video in the local and informs the remote communication module;

e. the remote communication module enters the monitoring state again.

2. The real-time parking monitoring method based on the intelligent networking technology as claimed in claim 1, wherein the remote communication module reports vehicle state data and notifies the TSP internet of vehicles cloud platform to trigger an alarm, and the TSP internet of vehicles cloud platform records the vehicle state and pushes the alarm to the user side in time as a short message or an APP message.

3. The real-time parking monitoring method based on intelligent networking technology as claimed in claim 1, wherein if the three axes of the gravity sensor have no instantaneous displacement in one direction to reach the threshold value, the method returns to execute step a.

4. The real-time parking monitoring method based on the intelligent networking technology as claimed in claim 1, wherein the first time period is 1 minute.

5. The real-time parking monitoring method based on the intelligent networking technology as claimed in claim 1, wherein the second time period is 1 minute.

6. The real-time parking monitoring method based on the intelligent networking technology as claimed in claim 1, wherein the user side is a mobile phone vehicle control APP or a short message prompt.

7. A real-time parking monitoring system based on an intelligent internet technology is characterized by comprising a vehicle end, a cloud end and a user end, wherein the vehicle end comprises a remote communication module, a visual controller and four cameras which are used for acquiring 360-degree image video data of a vehicle body, and the four cameras are arranged on the front, the rear, the left and the right, the vehicle end monitors whether the vehicle is abnormally collided or moved in real time and informs vehicle state data to the cloud end in time; the cloud end comprises a TSP (Total suspended particulate) Internet of vehicles cloud platform and is used for acquiring the vehicle state data and forwarding the vehicle state data to the user end in time, and the user end comprises a mobile phone vehicle control APP or a short message prompt;

wherein:

the remote communication module monitors the displacement of the gravity sensor in the three-axis direction in real time; judging whether instantaneous displacement of a certain direction of three axes of the gravity sensor reaches a threshold value, if the instantaneous displacement of the certain direction reaches the threshold value, acquiring vehicle state data, and triggering an intelligent monitoring mode to give an alarm; reporting vehicle state data to the TSP Internet of vehicles cloud platform, and informing the TSP Internet of vehicles cloud platform to trigger alarm; meanwhile, the visual controller stores the video data in a first time period before triggering, collects the video data in a second time period after triggering, stores the video data in the local and informs the remote communication module;

and after receiving the report of the vehicle state data and the alarm reported by the remote communication module, the TSP Internet of vehicles cloud platform records the vehicle state data and pushes the alarm to the user side by a short message and an APP message in time.

8. The real-time parking monitoring system based on the intelligent networking technology as claimed in claim 7, wherein if no instantaneous displacement in one direction of the three axes of the gravity sensor reaches the threshold, the remote communication module continues to monitor the displacement in the three axes of the gravity sensor in real time and determines whether instantaneous displacement in one direction of the three axes of the gravity sensor reaches the threshold.

9. The real-time parking monitoring system based on intelligent networking technology of claim 7, wherein the first time period is 1 minute.

10. The real-time parking monitoring system based on intelligent networking technology of claim 7, wherein the second time period is 1 minute.

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