CN114580739A - Control method, intelligent weak current system, intelligent terminal and storage medium - Google Patents

Abstract

The application relates to the technical field of weak current engineering, in particular to a control method, an intelligent weak current system, an intelligent terminal and a storage medium, wherein the method comprises the following steps: acquiring temporary parking demand information of a temporary vehicle; obtaining parking state information of all ground parking spaces; acquiring parking rule records of the unoccupied ground parking spaces corresponding to the owners according to the parking state information; and determining available parking spaces according to the pre-parking time period and the parking rule distribution. According to the parking rule record of the owner vehicle and the pre-parking time period of the temporary vehicle, the ground parking space, which does not have the parking record in the pre-parking time period, of the owner vehicle is selected to be determined as the available parking space, the probability of occurrence of the disordered parking condition of the vehicle in the community is effectively reduced, and the occupied condition of the special parking space can be effectively reduced when the owner vehicle parks on the premise of reducing the potential safety hazard in the community.

Description

Control method, intelligent weak current system, intelligent terminal and storage medium

Technical Field

The application relates to the technical field of weak current engineering, in particular to a control method, an intelligent weak current system, an intelligent terminal and a storage medium.

Background

Electric power applications can be classified into strong electricity and weak electricity according to the strength of electric power transmission power. The weak current in the intelligent building mainly comprises two types, one type is low-voltage electric energy such as safety voltage level and control voltage specified by the state, and the weak current comprises alternating current and direct current, wherein the alternating current is less than 36V, and the direct current is less than 24V, such as a 24V direct current control power supply or an emergency lighting lamp standby power supply. Another type is information sources carrying information such as voice, images, data, etc., such as telephone, television, computer information. However, with the rapid development of modern weak current high and new technologies, the application of the weak current technology in intelligent buildings is more and more extensive, such as intelligent fire-fighting systems, monitoring systems, computer networks, building automatic control, intelligent broadcasting and the like.

The parking stall of residence community now generally all divide into underground parking stall and ground parking stall, and the condition that the part is hired or is bought the owner of ground parking stall and take place for avoiding special parking stall, installs a protection device on the parking stall usually, and the parking stall lock promptly makes other vehicles can not drive into this parking stall through raising the parking stall lock when the owner's vehicle is not.

However, some vehicles or vehicles renting underground parking spaces stop at both sides of the road randomly due to the fact that the ground parking spaces cannot be found under the condition of temporary parking, so that the vehicles in the community are disorderly parked, and potential safety hazards exist.

Disclosure of Invention

In order to solve the problem of disordered vehicle parking in a community and effectively reduce potential safety hazards, the application provides a control method, an intelligent weak current system, an intelligent terminal and a storage medium.

In a first aspect, the present application provides a control method, which adopts the following technical scheme:

a control method, comprising:

acquiring temporary parking demand information of a temporary vehicle; wherein the temporary parking demand information includes a pre-parking time period;

obtaining parking state information of all ground parking spaces;

acquiring parking rule records of the unoccupied ground parking spaces corresponding to the owners according to the parking state information; the parking rule records comprise forecast time distribution of owner parking;

and determining the available parking space according to the pre-parking time period and the parking rule record.

Through adopting above-mentioned technical scheme, according to the parking law record of owner's vehicle and the time quantum of parkking in advance of interim vehicle, select the owner's vehicle and do not have the ground parking stall of parking record in the time quantum of parkking in advance, confirm to available parking stall, the probability that the chaotic condition of parking takes place in effectively reducing the district, under the prerequisite of the potential safety hazard in the reduction district, can effectively reduce the condition that special parking stall is occupied when parkking of owner's vehicle appears.

Optionally, before the step of obtaining the temporary parking demand information of the temporary vehicle, the method further includes:

acquiring license plate information of a vehicle;

judging whether the corresponding vehicle is an owner vehicle renting a ground parking space or not according to the license plate information; and if not, displaying the temporary parking registration two-dimensional code.

Optionally, the temporary parking demand information further includes owner information;

and executing the following steps under the condition that the corresponding vehicle is judged to be the owner vehicle renting the ground parking space according to the license plate information:

and judging whether the ground parking space corresponding to the owner vehicle is occupied or not, and if so, sending prompt information to the owner of the temporary vehicle.

Optionally, the temporary parking demand information further includes destination location information;

the step of determining the current available parking space further comprises the following steps:

and acquiring the distance between the destination position information and each available parking space, and determining the available parking space with the shortest distance as the optimal parking space.

Optionally, after the step of determining the available parking space with the shortest distance as the optimal parking space, the method further includes:

acquiring the current position of the temporary vehicle;

and generating parking indication information of the optimal parking space according to the current position of the temporary vehicle, wherein the parking indication information comprises a driving mode for parking the optimal parking space.

By adopting the technical scheme, the route to the parking space is guided and planned, the temporary vehicle can conveniently and quickly reach the optimal parking space, the parking time is reduced, and the utilization efficiency and the operation efficiency of the ground parking space are improved.

In a second aspect, the application provides an intelligent weak current system, which adopts the following technical scheme:

an intelligent weak current system comprises front-end equipment and a system background; the front-end equipment comprises vehicle sensing equipment, license plate shooting equipment and parking space state acquisition equipment;

the vehicle sensing equipment is used for sensing a running vehicle and activating the license plate shooting equipment when the vehicle sensing equipment senses that the vehicle comes;

the license plate shooting device is used for obtaining license plate information of a vehicle and sending the license plate information to a system background;

the parking space state acquisition equipment is used for acquiring parking state information of each ground parking space and license plate information of vehicles parked on each ground parking space;

the system background is used for judging whether the corresponding vehicle is an owner vehicle corresponding to a ground parking space according to the license plate information, and if not, acquiring the temporary parking demand information of the vehicle; wherein the temporary parking demand information includes a pre-parking time period;

the system background is also used for acquiring the parking state information of the owner vehicle according to the parking state information of each ground parking space and the license plate information of the owner vehicle, and generating a parking rule record of the owner vehicle;

and the system background is also used for determining the available parking spaces according to the parking rule records of the owner vehicles and the pre-parking time periods.

Through adopting above-mentioned technical scheme, according to the parking law record of owner's vehicle and the time quantum of parkking in advance of interim vehicle, select the owner's vehicle and do not have the ground parking stall of parking record in the time quantum of parkking in advance, confirm to available parking stall, the probability that the chaotic condition of parking takes place in effectively reducing the district, under the prerequisite of the potential safety hazard in the reduction district, can effectively reduce the condition that special parking stall is occupied when parkking of owner's vehicle appears.

In a third aspect, the present application provides an intelligent terminal, which adopts the following technical scheme:

an intelligent terminal comprising a memory and a processor, the memory having stored thereon a computer program that can be loaded by the processor and carry out any of the methods described above.

Through adopting above-mentioned technical scheme, according to the parking law record of owner's vehicle and the time quantum of parkking in advance of interim vehicle, select the owner's vehicle and do not have the ground parking stall of parking record in the time quantum of parkking in advance, confirm to available parking stall, the probability that the chaotic condition of parking takes place in effectively reducing the district, under the prerequisite of the potential safety hazard in the reduction district, can effectively reduce the condition that special parking stall is occupied when parkking of owner's vehicle appears.

In a fourth aspect, the present application provides a computer-readable storage medium, which adopts the following technical solutions:

a computer readable storage medium storing a computer program that can be loaded by a processor and executed to perform any of the methods described above.

Through adopting above-mentioned technical scheme, according to the parking law record of owner's vehicle and the time quantum of parkking in advance of interim vehicle, select owner's vehicle not have the ground parking stall of parking record in the time quantum of parkking in advance, confirm to available parking stall, the probability that the chaotic condition of parking takes place in the district is effectively reduced, under the prerequisite of the potential safety hazard in the reduction district, can effectively reduce the condition that owner's vehicle appears special parking stall and is occupied when parkking.

In summary, the present application includes at least one of the following beneficial technical effects:

according to the parking rule record of the owner vehicle and the pre-parking time period of the temporary vehicle, the ground parking space, which does not have the parking record in the pre-parking time period, of the owner vehicle is selected to be determined as the available parking space, the probability of occurrence of the disordered parking condition of the vehicle in the community is effectively reduced, and the occupied condition of the special parking space can be effectively reduced when the owner vehicle parks on the premise of reducing the potential safety hazard in the community.

Drawings

Fig. 1 is a block diagram of an audio intercom system according to an embodiment of the present application.

Fig. 2 is a block diagram of an audio intercom system according to another embodiment of the present application.

Fig. 3 is a flowchart illustrating an audio intercom start request method according to an embodiment of the present application.

Fig. 4 is a flowchart illustrating an audio intercom method according to an embodiment of the present application.

Description of reference numerals: 2. a first intercom; 3. a second intercom; 4. and a server.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present application clearer, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application.

As a protection device is installed on the parking space by a part of owners who rent or purchase the ground parking spaces, the probability of the occupation of the special parking spaces is reduced; under the condition that external vehicles or vehicles renting underground parking spaces park temporarily, the vehicles can not find the ground parking spaces and park on the two sides of the road at will, so that the vehicles in the community can be parked disorderly, and potential safety hazards exist.

In order to solve the above problem, an embodiment of the present application discloses an intelligent weak current system.

As an implementation manner of the intelligent weak current system, as shown in fig. 1, the intelligent weak current system includes a front-end device and a system background, and the front-end device is connected with the system background through the internet of things. Specifically, the front-end equipment comprises vehicle sensing equipment, license plate shooting equipment, parking space state acquisition equipment and guiding equipment.

Wherein, vehicle induction system, license plate shoot equipment and guide equipment and all set up in the district gate, and parking stall state acquisition equipment installs in each ground parking stall.

Specifically, the vehicle sensing device may be configured as a ground sensing coil, which is buried under a road surface at a doorway of a residential area, and when a vehicle passes over the vehicle sensing device, the vehicle sensing device generates a sensing signal and transmits the sensing signal to the license plate photographing device and the guidance device.

The license plate shooting device can be set as a camera and used for shooting a picture right in front of the vehicle and recognizing and extracting license plate information of the vehicle from the picture. When an induction signal sent by vehicle induction equipment is received, license plate shooting equipment is activated to shoot a picture right in front of an incoming vehicle, and license plate information is extracted from the picture by using a license plate character recognition extraction algorithm; and the identified vehicle information is uploaded to the system background through the Internet of things.

The guidance pointing device may be provided as an electronic display screen. And when the induction signal sent by the vehicle induction device is activated, the guiding and indicating device receives and displays a temporary parking registration two-dimensional code and/or parking indicating information sent by a system background, wherein the parking indicating information comprises the position of a ground parking space where the current vehicle is arranged to park and the driving mode of parking the parking space. For example, "please continue to go straight to the first intersection for a left turn, and park in parking space No. 103" may be displayed.

The parking space state acquisition equipment can be arranged as a camera and is arranged above each ground parking space. The parking space state acquisition equipment senses parking state information (with or without a vehicle) of each ground parking space by shooting and analyzing pictures of the ground parking spaces, and continuously utilizes a license plate character extraction and recognition algorithm to recognize license plate information of the parked vehicle on each parking space. And the parking state information of each ground parking space and the license plate information of the parked vehicles on the ground parking spaces are uploaded to a system background through the Internet of things.

And the system background counts the starting time and the ending time of each parking of the owner vehicle according to the parking state information of the owner vehicle corresponding to each ground parking space, and generates a parking rule record of the owner vehicle.

When the vehicle sensing equipment senses a vehicle, generating a sensing signal, and transmitting the sensing signal to the license plate shooting equipment and the guiding and guiding equipment; and after receiving the induction signal, the license plate shooting equipment shoots a picture right in front of the vehicle, extracts license plate information from the picture by using a license plate character recognition and extraction algorithm, and sends the recognized license plate information to a system background. The system background judges whether the vehicle is an owner vehicle corresponding to a ground parking space according to the license plate information, and if not, sends a temporary parking registration two-dimensional code to the guidance indicating equipment; the vehicle owner scans the temporary parking registration two-dimensional code through the intelligent terminal, fills in temporary parking demand information, and uploads the temporary parking demand information to the system background through the intelligent terminal; the temporary parking demand information comprises a pre-parking time period, vehicle owner information and destination position information.

After receiving the temporary parking demand information, the system background marks the vehicle as a temporary vehicle; then according to the parking state information of all the ground parking spaces, calculating the unoccupied ground parking space information, acquiring the parking rule records of the owner vehicle corresponding to the unoccupied ground parking spaces, and then according to the parking rule records of the owner vehicle and the pre-parking time period of the temporary vehicle, selecting the ground parking spaces of the owner vehicle which do not have the parking records in the pre-parking time period, and determining the ground parking spaces as the available parking spaces.

After the available parking spaces are determined, the distance between the destination position information and each available parking space is calculated, and the available parking space with the shortest distance is determined as the optimal parking space.

After the optimal parking space is determined, the system background generates parking indication information of the optimal parking space according to the position of the optimal parking space and the current position of the temporary vehicle, and sends the parking indication information to the guiding indication equipment for displaying, so that the temporary vehicle can be ensured to find the optimal parking space smoothly; thereby effectively reduce the probability that the chaotic condition of vehicle parking takes place in the district, reduce the potential safety hazard in the district, and can effectively reduce the condition that special parking stall appears and is occupied when the owner's vehicle parks.

Based on the intelligent weak current system, the embodiment of the application also discloses a control method.

As an embodiment of the control method, as shown in fig. 3, the method includes the following steps:

100, acquiring temporary parking demand information of a temporary vehicle; the temporary parking demand information comprises a pre-parking time period, vehicle owner information and destination position information.

And 200, acquiring parking state information of all ground parking spaces.

It should be noted that the parking status information of all the ground parking spaces is acquired by the parking space status acquisition devices installed above the ground parking spaces, that is, whether the ground parking spaces are occupied by vehicles or not is determined.

300, acquiring a parking rule record of the owner corresponding to the unoccupied ground parking space according to the parking state information; wherein the parking law record comprises a forecast time distribution of the owner parking.

Specifically, the parking space state acquisition equipment uploads the parking state information of each ground parking space and the license plate information of the parked vehicles in the ground parking spaces to the system background, so that the system background can judge the starting time and the ending time of each parking of the owner vehicles in a set time period according to the parking state information of each ground parking space and the license plate information of the owner vehicles.

The system background conjectures the forecast time distribution of the owner parking according to the starting time and the ending time of each parking of the owner vehicle in the set time period, namely the time period corresponding to the starting time and the ending time of each parking of the owner vehicle. For example: if the set time period is two days, the initial time of the owner A stopping in 6 months and 5 days is 19:00, and the final time is 8:00 in 6 months and 6 days; the initial time of parking in 6 days of 6 months is 15:00-17:00, so the forecast time distribution of the owner A is 15:00-17:00, 19: 00-8: 00 of the next day.

And 400, determining the available parking space according to the pre-parking time period and the parking rule record.

Specifically, according to the parking rule record of the owner vehicle and the pre-parking time period of the temporary vehicle, the ground parking space of the owner vehicle which does not have the parking record in the pre-parking time period is selected, the parking space is determined to be the available parking space, the probability of the disordered situation of the parking of the vehicle in the community is effectively reduced, and the situation that the special parking space is occupied when the owner vehicle parks is effectively reduced on the premise of reducing the potential safety hazard in the community.

As another embodiment of the control method, before step 100, the method further includes:

001, acquiring license plate information of the vehicle;

002, judging whether the corresponding vehicle is an owner vehicle corresponding to the ground parking space according to the license plate information;

003, if not, displaying a temporary parking registration two-dimensional code;

004, if so, judging whether the ground parking space corresponding to the owner vehicle is occupied, and if so, sending prompt information to the owner of the temporary vehicle.

Specifically, license plate information of the vehicle is collected and extracted by utilizing license plate shooting equipment, and the identified license plate information is sent to a system background. The system background judges whether the vehicle is an owner vehicle corresponding to a ground parking space according to the license plate information, and if not, sends a temporary parking registration two-dimensional code to the guidance indicating equipment; if so, calling parking state information of the ground parking spaces corresponding to the owner vehicle, judging whether the ground parking spaces corresponding to the owner vehicle are occupied, if so, sending prompt information to the owner of the temporary vehicle corresponding to the ground parking spaces to remind the temporary vehicle to leave, and searching for the proper ground parking spaces for the temporary vehicle.

As another embodiment of the control method, after step 400, the method further includes:

and 500, after the available parking spaces are determined, calculating the distance between the destination position information and each available parking space, and determining the available parking space with the shortest distance as the optimal parking space.

Specifically, the system background calculates the distance between the destination position information and each available parking space, and determines the available parking space with the shortest distance as the optimal parking space, so that the vehicle owner can conveniently and quickly arrive at the destination.

As another embodiment of the control method, after step 500, the method further includes:

600, acquiring the current position of the temporary vehicle;

601, generating parking instruction information of the optimal parking space according to the current position of the temporary vehicle, wherein the parking instruction information comprises a driving mode for parking the optimal parking space.

Specifically, after the optimal parking space is determined, the system background generates parking indication information of the optimal parking space according to the position of the optimal parking space and the current position of the temporary vehicle, and sends the parking indication information to the guidance indication device for displaying, so as to guide and plan a route to the parking space, facilitate the temporary vehicle to quickly reach the optimal parking space, reduce parking time and improve the utilization efficiency and the operation efficiency of the ground parking space.

The embodiment of the application also discloses an intelligent terminal which comprises a memory and a processor, wherein the memory is stored with a computer program which can be loaded by the processor and can execute the control method.

Based on the same inventive concept, the embodiment of the present application further discloses a computer-readable storage medium, which can be loaded and executed by a processor to implement the steps in the control method flow.

The computer-readable storage medium includes, for example: various media capable of storing program codes, such as a usb disk, a removable hard disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), a magnetic disk, or an optical disk.

The foregoing embodiments are only used for describing the technical solutions of the present application in detail, but the above embodiments are only used for assisting understanding of the method and the core idea of the present application, and should not be construed as limiting the present application. Those skilled in the art should also appreciate that various modifications and substitutions can be made without departing from the scope of the present disclosure.

Claims (8)

1. A control method, comprising:

acquiring temporary parking demand information of a temporary vehicle; wherein the temporary parking demand information includes a pre-parking time period;

obtaining parking state information of all ground parking spaces;

acquiring parking rule records of the unoccupied ground parking spaces corresponding to the owners according to the parking state information; the parking rule records comprise forecast time distribution of owner parking;

and determining the available parking space according to the pre-parking time period and the parking rule record.

2. The control method according to claim 1, wherein the step of acquiring the temporary stop demand information of the temporary vehicle further includes:

acquiring license plate information of a vehicle;

judging whether the corresponding vehicle is an owner vehicle renting a ground parking space or not according to the license plate information; and if not, displaying the temporary parking registration two-dimensional code.

3. A control method according to claim 2, wherein the temporary parking demand information further includes vehicle owner information;

and executing the following steps under the condition that the corresponding vehicle is judged to be the owner vehicle renting the ground parking space according to the license plate information:

and judging whether the ground parking space corresponding to the owner vehicle is occupied or not, and if so, sending prompt information to the owner of the temporary vehicle.

4. A control method according to any one of claims 1 to 3, wherein the temporary parking demand information further includes destination position information;

the step of determining the current available parking space further comprises the following steps:

and acquiring the distance between the destination position information and any available parking space, and determining the available parking space with the shortest distance as the optimal parking space.

5. The control method according to claim 4, wherein the step of determining the available space with the shortest distance as the optimal space further comprises:

acquiring the current position of the temporary vehicle;

and generating parking indication information of the optimal parking space according to the current position of the temporary vehicle, wherein the parking indication information comprises a driving mode for parking the optimal parking space.

6. An intelligent weak current system is characterized by comprising front-end equipment and a system background; the front-end equipment comprises vehicle sensing equipment, license plate shooting equipment and parking space state acquisition equipment;

the vehicle sensing equipment is used for sensing a running vehicle and activating the license plate shooting equipment when the vehicle sensing equipment senses that the vehicle comes;

the license plate shooting device is used for obtaining license plate information of a vehicle and sending the license plate information to a system background;

the parking space state acquisition equipment is used for acquiring parking state information of each ground parking space and license plate information of vehicles parked on each ground parking space;

the system background is used for judging whether the corresponding vehicle is an owner vehicle corresponding to a ground parking space according to the license plate information, and if not, acquiring the temporary parking demand information of the vehicle; wherein the temporary parking demand information includes a pre-parking time period;

the system background is also used for acquiring the parking state information of the owner vehicle according to the parking state information of each ground parking space and the license plate information of the owner vehicle, and generating a parking rule record of the owner vehicle;

the system background is also used for determining available parking spaces according to the parking rule records of the owner vehicle and the pre-parking time period.

7. The utility model provides an intelligent terminal which characterized in that: comprising a memory and a processor, said memory having stored thereon a computer program which can be loaded by the processor and which performs the method according to any of claims 1-5.

8. A computer-readable storage medium characterized by: a computer program which can be loaded by a processor and which performs the method according to any of claims 1-5.

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