CN115457762A - Parking space management method, system, electronic equipment and computer readable storage medium - Google Patents

Abstract

The application discloses a parking space management method, a system, electronic equipment and a computer readable storage medium, wherein the parking space management method comprises the following steps: acquiring current spare parking space data of a parking area, and receiving vehicle information of a vehicle to be parked; allocating a designated parking space for the vehicle to be parked based on the vehicle information and the vacant parking space data; responding to the fact that the vehicle to be parked is collected by a snapshot unit within a preset distance from the designated parking space, generating a preset signal, and guiding the vehicle to be parked to go to the designated parking space based on the preset signal; the parking area is provided with a plurality of snapshot units, the plurality of snapshot units respectively correspond to the respective shooting areas, and each corresponding part of parking spaces in the shooting areas. Above-mentioned scheme can improve the utilization ratio of parking stall and the rationality of arrangement, improves and treats that the vehicle that parks occupies the rate of accuracy of appointed parking stall.

Description

Parking space management method, system, electronic device and computer readable storage medium

Technical Field

The present application relates to the field of location management technologies, and in particular, to a parking space management method, system, electronic device, and computer-readable storage medium.

Background

With the popularization of household automobiles, insufficient parking spaces in various parking areas become a troublesome problem for owners of automobiles, in a conventional management method corresponding to the parking areas, most common is that all parking spaces in the parking areas are managed in a first come first get mode, the management method is too extensive, so that the rationality of parking space arrangement is poor, partial parking areas can also define partial locked exclusive parking spaces, only vehicles corresponding to exclusive vehicles can relieve the locking state, the management method can cause that partial exclusive parking spaces can be idle for a long time, so that the utilization rate of the parking spaces is not high, in addition, when the parking space locking is relieved in the prior art, a positioning system is usually used, so that whether the vehicles corresponding to the exclusive parking spaces arrive or not is positioned, signals of the positioning system are poor in places such as underground parking areas, and the like, and the unlocking time is easily inaccurate, so that the parking spaces are occupied by other vehicles. In view of this, how to improve the rationality of the utilization ratio and arrangement of the parking space and improve the accuracy of the vehicle to be parked occupying the designated parking space become the problems to be solved urgently.

Disclosure of Invention

The technical problem mainly solved by the application is to provide a parking space management method, a parking space management system, electronic equipment and a computer readable storage medium, which can improve the utilization rate and arrangement rationality of parking spaces and improve the accuracy of the vehicle to be parked occupying the designated parking space.

In order to solve the above technical problem, a first aspect of the present application provides a parking space management method, including: acquiring current spare parking space data of a parking area, and receiving vehicle information of a vehicle to be parked; allocating a designated parking space for the vehicle to be parked based on the vehicle information and the vacant parking space data; responding to the fact that the vehicle to be parked is collected by a snapshot unit within a preset distance from the designated parking space, generating a preset signal, and guiding the vehicle to be parked to go to the designated parking space based on the preset signal; the parking area is provided with a plurality of snapshot units, the plurality of snapshot units respectively correspond to the respective shooting areas, and each corresponding part of parking spaces in the shooting areas.

In order to solve the above technical problem, the second aspect of the present application provides a parking space management system, which includes: the system comprises a monitoring guide component and a management unit, wherein the monitoring guide component is arranged in a parking area and used for monitoring the parking area to obtain vacant parking space data; the management unit is cascaded with the monitoring and guiding assembly and is used for receiving vehicle information of a vehicle and the vacant parking space data so as to realize the method of the first aspect; the monitoring guide assembly at least comprises a plurality of capturing units, the capturing units correspond to the respective shooting areas respectively, and each capturing area corresponds to a corresponding part of parking spaces.

To solve the above technical problem, a third aspect of the present application provides an electronic device, including: a memory and a processor coupled to each other, wherein the memory stores program data, and the processor calls the program data to execute the method of the first aspect.

To solve the above technical problem, a fourth aspect of the present application provides a computer storage medium having program data stored thereon, wherein the program data, when executed by a processor, implements the method of the first aspect.

According to the scheme, a plurality of snapshot units are arranged in the parking area, the plurality of snapshot units correspond to respective shooting areas respectively, corresponding partial parking spaces in each shooting area correspond to conventional application scenes, the snapshot units can be monitoring equipment in the parking area, other equipment does not need to be additionally installed, the cost of the vehicle management method is saved, the current vacant parking space data of the parking area is obtained, the vehicle information of the vehicle to be parked is received, the designated parking spaces are distributed for the vehicle to be parked, the probability that the vehicle randomly occupies the parking spaces and the probability that the vehicle occupies the parking spaces is reduced, the rationality of parking space arrangement is improved, when the vehicle to be parked is collected by the snapshot units within the preset distance from the designated parking spaces, preset signals are generated, the vehicle to be parked is guided to the designated parking spaces based on the preset signals, and the accuracy rate that the vehicle to be parked occupies the designated parking spaces can be improved by the snapshot units.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts. Wherein:

FIG. 1 is a schematic structural diagram of an embodiment of a parking space management system according to the present application;

fig. 2 is a schematic view of an application scenario of an embodiment of the parking space management system of the present application;

FIG. 3 is a schematic flow chart diagram illustrating an embodiment of a parking space management method according to the present application;

FIG. 4 is a schematic flow chart illustrating another embodiment of a parking space management method according to the present application;

FIG. 5 is a schematic structural diagram of an embodiment of an electronic device of the present application;

FIG. 6 is a schematic structural diagram of an embodiment of a computer-readable storage medium according to the present application.

Detailed Description

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, and it is obvious that the described embodiments are only some embodiments of the present application, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

As used herein, the terms "center," "longitudinal," "lateral," "length," "width," "thickness," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," "clockwise," "counterclockwise," and the like are used in an orientation or positional relationship that is indicated based on the orientation or positional relationship shown in the drawings for ease of description and simplicity of description, but do not indicate or imply that the referenced device or element must have a particular orientation, be constructed in a particular orientation, and be operated in a particular manner, and are not to be construed as limiting the present application. The term "and/or" is merely an associative relationship that describes an associated object, meaning that three relationships may exist, e.g., a and/or B, may mean: a exists alone, A and B exist simultaneously, and B exists alone. In addition, the character "/" herein generally indicates that the former and latter associated objects are in an "or" relationship. Further, "plurality" herein means two or more than two. Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, features defined as "first", "second", may explicitly or implicitly include one or more of the described features.

The terms "system" and "network" are often used interchangeably herein. The term "and/or" herein is merely an association describing an associated object, meaning that three relationships may exist, e.g., a and/or B, may mean: a exists alone, A and B exist simultaneously, and B exists alone. In addition, the character "/" herein generally indicates that the former and latter related objects are in an "or" relationship. Further, "plurality" herein means two or more than two.

Referring to fig. 1, fig. 1 is a schematic structural diagram of an embodiment of a parking space management system according to the present invention, and the parking space management system 10 includes a monitoring guidance component 12 and a management unit 14, wherein the monitoring guidance component 12 is disposed in a parking area and is used for monitoring the parking area to obtain spare parking space data.

Specifically, the monitoring guidance assembly 12 at least includes a plurality of capturing units 120, and the plurality of capturing units 120 respectively correspond to respective capturing areas, and each capturing area corresponds to a corresponding parking space.

Further, the management unit 14 is cascaded with the monitoring guidance component 12, and is configured to receive vehicle information and vacant parking space data of the vehicle to be parked, allocate an appointed parking space for the vehicle to be parked based on the vehicle information and the vacant parking space data, acquire the vehicle to be parked when the capturing unit 120 within a preset distance from the appointed parking space, generate a preset signal, and guide the vehicle to be parked to the appointed parking space based on the preset signal.

Further, the monitoring guidance assembly 12 further includes a plurality of locking units 121 respectively disposed on the corresponding parking spaces, and at least one type of unit selected from an entrance display unit 122, a plurality of parking space display units 123, at least one lane guidance display unit 124, a plurality of lane indicator light units 125, and a plurality of parking space indicator units 126. The entrance display unit 122 is disposed at an entrance of the parking area, the parking space display units 123 are disposed on one sides of the parking spaces close to the lanes, the at least one lane guide display unit 124 is disposed at a junction of the lanes, the lane indicator light units 125 are disposed on the lanes respectively and include at least one direction indicator light which advances, moves left and moves right, and the parking space indicator units 126 are disposed on one sides of the corresponding parking spaces close to the lanes respectively and include an acquisition module (not identified) and a parking space indicator light module (not identified).

Optionally, the entrance display unit 122 is configured to display a position of a designated parking space corresponding to the vehicle when the vehicle arrives at the entrance, and the parking space indication unit 126 is configured to display a license plate of the vehicle corresponding to the designated parking space when the corresponding parking space is the designated parking space.

Optionally, the lane guidance display unit 124 is configured to display a license plate of a vehicle corresponding to the designated parking space and a lane where the vehicle corresponding to the designated parking space travels to the corresponding designated parking space. The lane indicating lamp unit 125 is configured to light a direction indicating lamp pointing to the designated parking space in a shooting area where a vehicle corresponding to the designated parking space is currently located when the vehicle to be stopped is not collected by the capturing unit 120 within a preset distance from the designated parking space.

Optionally, the parking space indication unit 126 is configured to collect a parking space image of the corresponding parking space, and send the parking space image to the management unit 14, so that the management unit 14 generates the parking space state information of the corresponding parking space based on the parking space image, and the parking space indication unit 126 is further configured to indicate the parking space state information of the corresponding parking space. The parking space state information comprises that the parking space state information is occupied by the corresponding vehicle to be parked and is occupied by other vehicles. The acquisition module in the parking space indication unit 126 is used for acquiring a parking space image corresponding to a parking space within a preset range and uploading the parking space image to the management unit 14, and the parking space indication lamp module in the parking space indication unit 126 is used for determining the color and/or the lighting mode of the indication lamp based on the parking space state information, so as to indicate the parking space state information of the corresponding parking space.

In an application mode, the vehicle information of the vehicle to be parked includes a pre-uploaded reservation license plate, the management unit 14 allocates an appointed parking space for the reserved vehicle to be parked based on the reservation license plate and the vacant parking space data, and sends the reservation license plate to the parking space display unit 123 corresponding to the appointed parking space, so that the parking space display unit 123 displays the reservation license plate. When the vehicle to be parked reaches the entrance of the parking area, the designated parking space corresponding to the vehicle to be parked is sent to the entrance display unit 122, so that the entrance display unit 122 displays the position of the designated parking space corresponding to the vehicle to be parked, and provides the position of the designated parking space in the parking area for the owner of the vehicle to be parked, so that the owner of the vehicle can find the designated parking space as soon as possible.

In another application, the vehicle information of the vehicle to be parked includes a temporary license plate obtained immediately, when the temporary vehicle arrives at the entrance of the parking area, the temporary license plate is obtained immediately, and the management unit 14 allocates an appointed parking space for the temporary vehicle to be parked or sends preset display information to the entrance display unit 122 based on the current vacant parking space data, so that the entrance display unit 122 displays the preset display information to inform the owner of the temporary vehicle to be parked that there is no remaining parking space. When the temporary vehicle to be parked is allocated with the designated parking space, the reservation license plate is sent to the parking space display unit 123 corresponding to the designated parking space, so that the parking space display unit 123 displays the reservation license plate, and the designated parking space corresponding to the vehicle to be parked is sent to the entrance display unit 122, so that the entrance display unit 122 displays the position of the designated parking space corresponding to the vehicle to be parked, and provides the position of the designated parking space in the parking area for the vehicle owner of the vehicle to be parked.

Further, please refer to fig. 1 and fig. 2, fig. 2 is a schematic view of an application scenario of an embodiment of the parking space management system of the present application, wherein a diagonal filling format is set as an assigned parking space allocated to a current vehicle to be parked, and a dark filling format is set as a lighted direction indicator. The application scenario may be applied to any of the above application manners, where the management unit 14 determines a shooting area where the vehicle to be parked is currently located based on the video data collected by the snapshot unit 120, sends a lighting instruction to the lane indicator unit 125 in the shooting area where the vehicle to be parked is currently located, so as to light the direction indicator pointing to the specified parking space by the lane indicator unit 125, and sends vehicle information of the vehicle to be parked and a lane where the vehicle to be parked goes to the corresponding specified parking space to the lane guidance display unit 124, so that the lane guidance display unit 124 displays the vehicle information of the vehicle to be parked and the lane where the vehicle to be parked goes to the corresponding specified parking space, thereby improving efficiency of the vehicle to be parked going to the specified parking space.

Optionally, when the vehicle to be parked is collected by the capturing unit 120 within a preset distance from the designated parking space, a preset signal is generated, the vehicle to be parked is guided to go to the designated parking space based on the preset signal, wherein the preset signal includes an unlocking instruction of the locking unit 121, the unlocking instruction is sent to the locking unit 121 in the designated parking space, and an indicator light flashing instruction is sent to the parking space indication unit 126 corresponding to the designated parking space, so that the parking space indication light module flashes. When the acquisition module acquires the parking space image corresponding to the designated parking space, and determines that the designated parking space is occupied based on the parking space image corresponding to the designated parking space, the color change instruction of the indicating lamp is sent to the parking space indicating unit 126 corresponding to the designated parking space, so that the color of the parking space indicating lamp module is changed, and a vehicle to be parked can be conveniently and accurately parked at the designated parking space.

According to the scheme, the monitoring and guiding assembly 12 comprises the plurality of capturing units 120, the plurality of capturing units 120 correspond to respective capturing areas respectively, and each capturing area corresponds to a part of parking spaces in a corresponding conventional application scene, the capturing units 120 can be monitoring equipment in a parking area, a positioning system is not needed, other equipment is not needed, the cost of the vehicle management method is saved, the management unit 14 obtains the current vacant parking space data of the parking area based on the video data collected by the plurality of capturing units 120, receives the vehicle information of the vehicle to be parked, allocates the designated parking spaces for the vehicle to be parked, reduces the probability that the vehicle randomly occupies the parking spaces and occupies the plurality of parking spaces, and accordingly rationality of parking space arrangement is improved, when the vehicle to be parked is collected by the capturing units 120 within the preset distance from the designated parking spaces, preset signals are generated, the vehicle to be parked is guided to the designated parking spaces based on the preset signals, and therefore the accuracy of the vehicle to be parked can be improved by the capturing units 120.

Referring to fig. 1-3, fig. 3 is a schematic flow chart of an embodiment of the parking space management method, where an execution subject of the method is the management unit 14 in the above embodiment, and the method includes:

s301: and acquiring the current vacant parking space data of the parking area, and receiving the vehicle information of the vehicle to be parked.

Specifically, a plurality of capturing units 120 are disposed in the parking area, the plurality of capturing units 120 respectively correspond to respective shooting areas, and each shooting area corresponds to a corresponding parking space. The current vacant parking space data in the parking area can be obtained based on the video data collected by the capturing unit 120, wherein the vacant parking space data includes the number of vacant parking spaces and the positions of the vacant parking spaces.

Further, vehicle information of the vehicle to be parked is received, wherein the vehicle information can be uploaded by the vehicle to be parked in advance or collected immediately when the vehicle to be parked which is not reserved arrives at an entrance of the parking area.

In an application mode, the video data acquired by the capturing unit 120 is obtained, the video frame is extracted from the video data, the current vacant parking space data in the parking area is determined based on the video frame, and the vehicle information uploaded by the vehicle to be parked in advance and/or the vehicle information acquired in real time are received, wherein the vehicle information uploaded in advance comprises an appointment license plate of the vehicle to be parked, and the vehicle information acquired in real time comprises a temporary license plate corresponding to the vehicle to be parked.

In another application mode, the video data acquired by the capturing unit 120 is obtained, the target in the video data is calibrated, the parking space in the video data is obtained, whether the parking space is occupied by the vehicle is judged, the current vacant parking space data in the parking area is determined, and the vehicle information uploaded by the vehicle to be parked in advance and/or the vehicle information acquired in real time are received, wherein the vehicle information uploaded in advance includes but is not limited to a reserved license plate, a vehicle type and vehicle owner information, and the vehicle information acquired in real time includes a temporary license plate corresponding to the vehicle to be parked.

In a specific application scenario, the capturing unit 120 is a monitoring device in a parking area, obtains video data acquired by the monitoring device, extracts a video frame from the video data, marks a parking space from the video frame, determines whether the parking space is occupied by a vehicle, determines an empty parking space and a corresponding position thereof in the parking area, and counts the number of the empty parking spaces. The method comprises the steps of receiving a reserved license plate, a vehicle type and vehicle owner information uploaded by a vehicle to be parked in advance, wherein the vehicle type comprises a car, a passenger car and a cross-country vehicle, the vehicle owner information comprises the sex and the age of the vehicle owner, and the temporary license plate of the vehicle to be parked is collected immediately when the vehicle to be parked which is not reserved reaches an entrance of a parking area. The capturing unit 120 may be a monitoring device in a parking area, so that a positioning system is not needed, and other devices are not needed, thereby saving the cost of applying the vehicle management method.

S302: and allocating the designated parking space for the vehicle to be parked based on the vehicle information and the vacant parking space data.

Specifically, the designated parking spaces are distributed for the vehicles to be parked based on the vehicle information and the vacant parking space data, wherein the designated parking spaces are distributed for the reserved vehicles based on the order of reservation of the reserved vehicles.

In an application scene, the vehicle information comprises a pre-uploaded reservation license plate, vehicle types and vehicle owner information, the vehicles which are allocated with the appointed parking spaces but do not reach the parking area are determined, the allocated parking spaces in the vacant parking space data are removed, and the appointed parking spaces are allocated to the vehicles to be parked based on the vehicle types, the vehicle owner information and the vacant parking space data corresponding to the vehicles which are not allocated with the appointed parking spaces.

In another application scenario, the vehicle information comprises a temporary license plate acquired immediately, the vacant parking space data comprises the number of vacant parking spaces and the positions of the vacant parking spaces, if the number of the vacant parking spaces exceeds a number threshold value, an appointed parking space is allocated for a vehicle to be parked corresponding to the temporary license plate, otherwise, the condition that no remaining parking space exists in a parking area is prompted, so that it is ensured that a subsequent reservation vehicle can use the parking space.

S303: the method comprises the steps that a snapshot unit in a preset distance with an appointed parking space is responded to collect a vehicle to be parked, a preset signal is generated, and the vehicle to be parked is guided to move to the appointed parking space based on the preset signal.

Specifically, when the vehicle waiting to stop is collected by the snapshot unit 120 adjacent to the designated parking space, a preset signal is generated, so that the vehicle waiting to stop is adjacent to the corresponding designated parking space, and then the vehicle can be guided based on the preset signal, so that the vehicle owner of the vehicle waiting to stop smoothly stops the vehicle waiting to stop to the designated parking space, and the accuracy of the vehicle waiting to stop occupying the designated parking space is improved.

In an application mode, after a vehicle to be parked is allocated with an appointed parking space, the capturing unit 120 capable of collecting the appointed parking space is determined, the capturing unit 120 capable of collecting the appointed parking space is used as the capturing unit 120 within a preset distance from the appointed parking space, a binding relation between the vehicle to be parked and the appointed parking space and the capturing unit 120 close to the vehicle to be parked is generated, after the vehicle to be parked enters a parking area, a preset signal is generated until the capturing unit 120 within the preset distance from the appointed parking space collects the vehicle to be parked with the binding relation, and the vehicle to be parked is guided to go to the appointed parking space based on the preset signal.

In another application mode, after the vehicle to be parked is allocated with the designated parking space, the shooting area where the designated parking space is located is determined, the snapshot unit 120 corresponding to the shooting area adjacent to the shooting area where the designated parking space is located is used as the snapshot unit 120 within the preset distance from the designated parking space, after the vehicle to be parked enters the parking area, the vehicle to be parked with the binding relationship is acquired until the snapshot unit 120 within the preset distance from the designated parking space acquires the vehicle to be parked, the vehicle information corresponding to the vehicle to be parked is analyzed from the video data, after the vehicle information of the vehicle to be parked is confirmed, a preset signal is generated, and the vehicle to be parked is guided to the designated parking space based on the preset signal.

In an application scenario, the monitoring guiding assembly 12 includes a plurality of locking units 121 respectively disposed in corresponding parking spaces, the preset signal includes an unlocking instruction of the locking unit 121, and when the capturing unit 120 adjacent to the designated parking space captures the vehicle to be parked, the unlocking instruction is sent to the locking unit 121 in the designated parking space to guide the vehicle to be parked to the designated parking space.

In another application scenario, the monitoring guidance component 12 includes a plurality of parking space indication units 126 respectively disposed at one sides of the corresponding parking spaces close to the lanes, the preset signal includes a flashing instruction of the parking space indication unit 126, and when the capturing unit 120 adjacent to the designated parking space collects the vehicle to be parked, the flashing instruction is sent to the parking space indication unit 126 at the designated parking space to guide the vehicle to be parked to the designated parking space.

According to the scheme, the plurality of snapshot units 120 are arranged in the parking area, the plurality of snapshot units 120 correspond to respective shooting areas respectively, and each shooting area corresponds to a part of parking spaces in a corresponding conventional application scene, the snapshot units 120 can be monitoring equipment in the parking area, so that a positioning system is not needed, other equipment is not needed, the cost of the vehicle management method is saved, the current vacant parking space data of the parking area is obtained, the vehicle information of the vehicle to be parked is received, the designated parking spaces are distributed for the vehicle to be parked, the probability that the vehicle randomly occupies the parking spaces and occupies the plurality of parking spaces is reduced, the reasonability of parking space arrangement is improved, when the snapshot units 120 within the preset distance from the designated parking spaces acquire the vehicle to be parked, preset signals are generated, the vehicle to be parked is guided to the designated parking spaces based on the preset signals, and the accuracy that the vehicle to be parked occupies the designated parking spaces can be improved by the snapshot units 120.

Referring to fig. 4, fig. 4 is a schematic flow chart of another embodiment of the parking space management method of the present application, where an execution subject of the method is the management unit 14 in the foregoing embodiment, and the method includes:

s401: and acquiring the current vacant parking space data of the parking area, and receiving the vehicle information of the vehicle to be parked.

Specifically, a plurality of capturing units 120 are disposed in the parking area, the plurality of capturing units 120 respectively correspond to respective shooting areas, and each shooting area corresponds to a corresponding parking space. The method comprises the steps of determining current vacant parking space data of a parking area based on video data or image data, and receiving vehicle information of a vehicle to be parked, wherein the vehicle information comprises a pre-uploaded reserved license plate and/or a temporary license plate obtained immediately.

In an application mode, the video data acquired by the capturing unit 120 is obtained, the current vacant parking space data in the parking area is determined based on the video data, the video frame is extracted from the video data, and the current vacant parking space data in the parking area is determined based on the video frame.

In another application, the parking space indication units 126 are respectively disposed at one side of the corresponding parking space close to the lane, and the parking space indication units 126 are configured to acquire image data of the corresponding parking space, obtain the image data acquired by the parking space indication units 126, and determine current vacant parking space data in the parking area based on the image data.

Further, when the reserved vehicle uploads the reserved license plate, the reserved license plate of the reserved vehicle is received, and when the temporary vehicle arrives at the entrance of the parking area, the temporary license plate collected in real time is obtained.

S402: and allocating the designated parking space for the vehicle to be parked based on the vehicle information and the vacant parking space data.

Specifically, when receiving a reservation license plate uploaded by a reservation vehicle, allocating a designated parking space for the reserved reservation vehicle based on the reservation license plate and the vacant parking space data, or when a temporary vehicle arrives at an entrance of a parking area, allocating a designated parking space for the non-reserved temporary vehicle based on the temporary license plate and the vacant parking space data.

It should be noted that, after the reserved vehicle and/or the temporary vehicle allocates the designated parking space, the corresponding designated parking space is removed from the vacant parking space data.

Further, the entrance display unit 122 is disposed at an entrance of the parking area, and a parking space display unit 123 is disposed at a side of each parking space close to the lane. The entrance display unit 122 is configured to display a position of an appointed parking space corresponding to the vehicle when the vehicle arrives at the entrance, and the parking space indication unit 126 is configured to display a license plate of the vehicle corresponding to the appointed parking space when the corresponding parking space is used as the appointed parking space.

In an application scene, vehicle information includes the reservation license plate of uploading in advance, for waiting to park the vehicle assignment appointed parking stall based on vehicle information and vacant parking stall data, includes: allocating a designated parking space for the reserved vehicle based on the reserved license plate and the vacant parking space data, and sending the reserved license plate to a parking space display unit 123 corresponding to the designated parking space so that the parking space display unit 123 displays the reserved license plate; in response to the reserved vehicle reaching the entrance of the parking area, sending the designated parking space corresponding to the reserved vehicle to the entrance display unit 122, so that the entrance display unit 122 displays the position of the designated parking space corresponding to the reserved vehicle; wherein, the vehicles to be parked comprise all reserved vehicles.

Specifically, the reserved vehicle uploads a reserved license plate before reaching the entrance of the parking area, if it is determined that the parking area still has vacant parking spaces based on the vacant parking space data, one vacant parking space is selected from the vacant parking spaces to serve as an appointed parking space of the reserved vehicle, a binding relationship between the appointed parking space and a corresponding vehicle to be parked is generated, and the reserved license plate is sent to a parking space display unit 123 corresponding to the appointed parking space, so that the parking space display unit 123 displays the reserved license plate, and when the reserved vehicle reaches the vicinity of the appointed parking space, a vehicle owner can conveniently observe the reserved license plate on the parking space display unit 123, and therefore the corresponding appointed parking space is accurately occupied.

Further, when the reserved vehicle reaches the entrance of the parking area, the designated parking space corresponding to the reserved vehicle is sent to the entrance display unit 122, so that the entrance display unit 122 displays the position of the designated parking space corresponding to the reserved vehicle after receiving the designated parking space corresponding to the reserved vehicle, and provides the position of the designated parking space in the parking area for the owner of the reserved vehicle, thereby improving the efficiency of the to-be-parked vehicle going to the designated parking space.

Optionally, the designated parking space allocated for the reserved vehicle corresponds to a reserved period, and when the reserved vehicle exceeding the reserved period and having a binding relationship with the designated parking space does not reach the parking area, the reserved designated parking space exceeding the reserved period is cancelled, so that a new vacant parking space is obtained.

In another application scenario, the vehicle information includes a temporary license plate obtained immediately, and a designated parking space is allocated for the vehicle to be parked based on the vehicle information and the vacant parking space data, including: responding to an entrance of an unreserved temporary vehicle reaching a parking area, and instantly obtaining a temporary license plate; responding to the fact that the vacant parking space data exceeds the remaining threshold value, allocating an appointed parking space for the temporary vehicle based on the vacant parking space data, sending the appointed parking space corresponding to the temporary vehicle to the entrance display unit 122, enabling the entrance display unit 122 to display the position of the appointed parking space corresponding to the temporary vehicle, and sending a temporary license plate to the parking space display unit 123 corresponding to the appointed parking space, and enabling the parking space display unit 123 to display the temporary license plate; in response to the vacant parking space data not exceeding the remaining threshold, sending preset display information to the entrance display unit 122, so that the entrance display unit 122 displays the preset display information to inform an owner of the temporary vehicle that the temporary vehicle has no remaining parking space; wherein the vehicle to be parked includes at least a part of the temporary vehicle.

Specifically, when the temporary vehicle reaches an entrance of a parking area, a temporary license plate of the temporary vehicle which is collected immediately is obtained, wherein the priority of the reserved license plate is higher than that of the temporary license plate. When the vacant parking space data exceeds the surplus threshold value, an appointed parking space is allocated to the temporary vehicle based on the vacant parking space data, namely, only when the number of the surplus vacant parking spaces exceeds the surplus threshold value, the appointed parking space is allocated to the temporary vehicle, and then the appointed parking space corresponding to the temporary vehicle is sent to the entrance display unit 122, so that the entrance display unit 122 displays the position of the appointed parking space corresponding to the temporary vehicle, the position of the appointed parking space in a parking area is provided for a vehicle owner of the temporary vehicle, so that the efficiency of the to-be-parked vehicle going to the appointed parking space is improved, the temporary license plate is sent to the parking space display unit 123 corresponding to the appointed parking space, so that the parking space display unit 123 displays the temporary license plate, so that when the temporary vehicle arrives near the appointed parking space, the vehicle owner can conveniently observe the temporary license plate on the parking space display unit 123, and accordingly the corresponding appointed parking space is accurately occupied.

Further, when the empty parking space data does not exceed the remaining threshold, the preset display information is sent to the entrance display unit 122, so that the entrance display unit 122 displays the preset display information to inform the owner of the temporary vehicle of the temporary parking space. That is, when the number of remaining vacant parking spaces does not exceed the remaining threshold value, the designated parking space is no longer allocated to the temporary vehicle, so that the designated parking space can be preferentially allocated to the reserved vehicle when the remaining vacant parking spaces are small, and the priority of the reserved vehicle is improved.

Optionally, the remaining threshold is any value between 0 and 10% of the total number of parking spaces in the parking area.

In another application scenario, the vehicle information includes a pre-uploaded reserved license plate and a temporary license plate obtained immediately, where the reserved license plate corresponds to a reserved vehicle, the temporary license plate corresponds to a temporary vehicle, and the vehicles to be parked include all reserved vehicles and at least part of temporary vehicles, and the manner of allocating designated parking spaces for the reserved vehicles and the temporary vehicles can refer to the two application scenarios, which is not described herein again.

S403: the method comprises the steps of determining a shooting area where a vehicle to be parked is located currently based on video data collected by a snapshot unit, and sending a lighting instruction to a lane indicator light unit in the shooting area where the vehicle to be parked is located currently so that the lane indicator light unit lights a direction indicator light pointing to a specified parking space.

Specifically, video data acquired by the snapshot unit 120 is obtained, a shooting area where the vehicle to be parked is located is determined, and when the vehicle to be parked does not reach the shooting area corresponding to the snapshot unit 120 within a preset distance from the specified parking space, a lighting instruction is sent to the lane indicator lamp unit 125 in the shooting area where the vehicle to be parked is located, wherein the lighting instruction is related to the position of the specified parking space, so that the lane indicator lamp unit 125 lights a direction indicator lamp pointing to the specified parking space. Wherein the lane indicating lamp unit 125 is disposed on a lane and includes at least one direction indicating lamp of forward, leftward and rightward.

In an application scenario, when a vehicle to be parked enters a parking area from an entrance of the parking area, a shooting area where the vehicle to be parked is located is determined based on video data, a lighting instruction is sent to a lane indicator lamp unit 125 in the shooting area where the vehicle to be parked is located so as to indicate the vehicle to be parked to move forward through a direction indicator lamp, and when the vehicle to be parked is at a corner of a local lane, the lighting instruction is sent to the lane indicator lamp unit 125 in the shooting area where the vehicle to be parked is located so as to indicate the vehicle to be parked to turn through the direction indicator lamp until the vehicle to be parked is captured by a capture unit 120 within a preset distance of a specified parking space, so that the efficiency of the vehicle to be parked to the specified parking space is improved.

S404: and sending the vehicle information of the vehicle to be parked and the lane of the vehicle to be parked heading to the corresponding specified parking space to the lane guide display unit so that the lane guide display unit displays the vehicle information of the vehicle to be parked and the lane of the vehicle to be parked heading to the corresponding specified parking space.

Specifically, the lane guidance display unit 124 is disposed at the intersection of the lanes, and when it is determined that the vehicle to be parked travels to the intersection of the lanes based on the video data, the vehicle information of the vehicle to be parked and the lane where the vehicle to be parked travels to the corresponding designated parking space are sent to the lane guidance display unit 124, so that the lane guidance display unit 124 displays the vehicle information of the vehicle to be parked and the lane where the vehicle to be parked travels to the corresponding designated parking space, and when the parking area includes a plurality of vehicles to be parked, each vehicle to be parked is indicated to travel to the corresponding designated parking space by using the lane guidance display unit 124, thereby improving the efficiency of the vehicle to be parked traveling to the designated parking space.

In a specific application scenario, when a parking area includes a plurality of vehicles to be parked, based on video data collected by the capturing unit 120, a shooting area where each vehicle to be parked is currently located is determined, a corresponding indication color is assigned to each parking area, vehicle information of each vehicle to be parked is sent to the lane guidance display unit 124, and a lane and an indication color going to a corresponding designated parking space, a lighting instruction is sent to the lane indication lamp unit 125 in the shooting area where the vehicle to be parked is currently located, wherein the lighting instruction is related to the position and the indication color of the designated parking space, so that the direction indication lamps are lit according to the indication colors, when the same direction indication lamp corresponds to a plurality of indication colors, the direction indication lamps are alternately lit according to the plurality of indication colors, and further, a vehicle owner of each vehicle to be parked can check the indication colors through the lane guidance display unit 124, and go to the designated parking space based on the direction indication lamps corresponding to the indication colors, so that efficiency and accuracy of the plurality of vehicles to be parked going to the corresponding designated parking spaces are improved.

S405: the method comprises the steps of responding to a snapshot unit in a preset distance with an appointed parking space to acquire a vehicle to be parked, sending an unlocking instruction to a locking unit in the appointed parking space, unlocking the locking unit in the appointed parking space, and guiding the vehicle to be parked to go to the unlocked appointed parking space.

Specifically, the locking unit 121 in the designated parking space of the designated parking space locks, and a preset signal is generated in response to the capturing unit 120 in a preset distance from the designated parking space acquiring the vehicle to be parked, wherein the preset signal includes an unlocking instruction of the locking unit 121.

Further, video data acquired by the capturing unit 120 within a preset distance from the designated parking space are obtained, it is determined that the vehicle to be parked has driven into the shooting area of the capturing unit 120 within the preset distance from the designated parking space based on the video data, an unlocking instruction is sent to the locking unit 121 in the designated parking space, the locking unit 121 in the designated parking space is unlocked, so that the vehicle to be parked is executed, the vehicle owner of the vehicle to be parked smoothly parks the vehicle to be parked to the designated parking space, and the accuracy of the vehicle to be parked occupying the designated parking space is improved.

In an application scenario, the parking space indication units 126 are respectively disposed on one side of the corresponding parking spaces close to the lane, and the parking space indication units 126 include an acquisition module and a parking space indication lamp module. In response to the capturing unit 120 in the preset distance from the designated parking space acquiring the vehicle to be parked, an unlocking instruction is sent to the locking unit 121 in the designated parking space, including: in response to the capturing unit 120 within a preset distance from the designated parking space acquiring the vehicle to be parked, sending an unlocking instruction to the locking unit 121 on the designated parking space, and sending an indicator light flashing instruction to the parking space indication unit 126 corresponding to the designated parking space, so that the parking space indication light module flashes; the parking space image corresponding to the designated parking space is collected by the collecting module, the designated parking space is determined to be occupied based on the parking space image corresponding to the designated parking space, and an indicating lamp color changing instruction is sent to the parking space indicating unit 126 corresponding to the designated parking space, so that the parking space indicating lamp module changes the color.

Specifically, when the capturing unit 120 within a preset distance from the designated parking space acquires a vehicle to be parked, an unlocking instruction is sent to the locking unit 121 in the designated parking space, and an indicator light flashing instruction is sent to the parking space indication unit 126 corresponding to the designated parking space, so that the parking space indication light module starts flashing after receiving the flashing instruction, so that a vehicle owner can observe the flashing indicator light module to quickly distinguish and unlock the designated parking space, and the flashing indicator light module can also indicate that the parking space is in a state of being occupied or in an occupation process.

Further, the acquisition module acquires the parking space image corresponding to the designated parking space, determines that the designated parking space is occupied based on the parking space image corresponding to the designated parking space, and sends an indicator light color change instruction to the parking space indicating unit 126 corresponding to the designated parking space, so that the parking space indicating lamp module receives the color change instruction to change the color, and the owner of the vehicle is prompted that the corresponding parking space is occupied.

Optionally, after the capturing unit 120 in a preset distance from the designated parking space collects the vehicle to be parked and sends an unlocking instruction to the locking unit 121 in the designated parking space, the method further includes: acquiring a parking space image acquired by a parking space indicating unit 126 corresponding to the designated parking space, and determining parking space state information of the designated parking space based on the parking space image; the parking space state information comprises the parking space state information which is occupied by the corresponding vehicle to be parked and the parking space state information which is occupied by other vehicles, and the other vehicles are different from the vehicle to be parked corresponding to the appointed parking space; and responding to the parking space state information that the parking space state information is occupied by other vehicles, generating alarm information, and distributing the vacant parking space closest to the specified parking space for the vehicle to be parked based on the vacant parking space data.

Specifically, when the designated parking space is occupied, the parking space image acquired by the parking space indicating unit 126 corresponding to the designated parking space is obtained, and whether the vehicle occupying the designated parking space is a vehicle to be parked in a specific binding relationship with the designated parking space is determined based on the parking space image, wherein the binding relationship is generated when the designated parking space is allocated to the vehicle to be parked, when the license plate of the vehicle occupying the designated parking space is consistent with that of the vehicle to be parked, the parking space state information of the designated parking space is occupied by the corresponding vehicle to be parked, and when the license plate of the vehicle occupying the designated parking space is inconsistent with that of the vehicle to be parked, the parking space state information of the designated parking space is occupied by other vehicles.

And further, when the parking space state information indicates that the parking space state information is occupied by other vehicles, generating alarm information to prompt that other vehicles occupy the appointed parking space, obtaining the current vacant parking space data in the parking area, and allocating a vacant parking space closest to the appointed parking space for the vehicle to be parked based on the vacant parking space data so that the vehicle to be parked can go to a new available parking space in a shorter distance.

Optionally, an indicator light flashing instruction is sent to the parking space indicating unit 126 corresponding to the newly allocated vacant parking space, so that the parking space indicator light module starts to flash after receiving the flashing instruction, and a vehicle owner of the vehicle to be parked can go to the newly allocated vacant parking space by observing the flashing indicator light.

S406: and determining whether the vehicle in the designated parking space drives away from the designated parking space or not based on the video data acquired by the snapshot unit.

Specifically, it is determined whether the vehicle in the designated parking space has driven away from the designated parking space based on the video data collected by the capturing unit 120 in real time, and after the vehicle in the designated parking space drives away from the designated parking space, the process proceeds to step S407.

S407: and sending a locking instruction to a locking unit in the appointed parking space in response to the fact that the vehicle in the appointed parking space drives away from the appointed parking space and drives away from a shooting area corresponding to the snapshot unit within a preset distance from the appointed parking space.

Specifically, when the parking space at the designated parking space is driven away from the shooting area corresponding to the snapshot unit 120 within the preset distance from the designated parking space, that is, when the snapshot unit 120 within the preset distance from the designated parking space does not acquire the vehicle corresponding to the designated parking space, a locking instruction is sent to the locking unit 121 at the designated parking space, so that the parking space is locked after the vehicle corresponding to the designated parking space is driven away from the shooting area of the snapshot unit 120 within the preset distance from the designated parking space, so as to prevent other vehicles from occupying randomly.

S408: and responding to the situation that the vehicle corresponding to the appointed parking space does not drive away from the parking area, and when the vehicle corresponding to the appointed parking space is collected again by the capturing unit within the preset distance from the appointed parking space, sending an unlocking instruction to the locking unit on the appointed parking space.

Specifically, when the vehicle corresponding to the designated parking space does not drive away from the parking area, if the capturing unit 120 in the preset distance from the designated parking space acquires the vehicle corresponding to the designated parking space again, an unlocking instruction is sent to the locking unit 121 in the designated parking space, so that the method is suitable for an application scene in which the vehicle in the designated parking space does not drive away from the parking area and turns back temporarily.

Optionally, when the vehicle corresponding to the designated parking space drives away from the parking area, the corresponding parking space is released and added into the vacant parking space data.

In this embodiment, designated parking spaces are allocated to reserved vehicles and temporary vehicles, the vehicles to be parked include all reserved vehicles and at least part of temporary vehicles, and the vehicles to be parked are guided to the shooting area corresponding to the snapshot unit 120 within a preset distance from the designated parking spaces by providing multiple guidance modes through the entrance display unit 122, the parking space display unit 123, the lane guidance display unit 124, the lane indicator light unit 125 and the parking space indication unit 126, so that the efficiency of the vehicles to be parked going to the designated parking spaces is improved, an unlocking instruction is further sent to the locking unit 121 on the designated parking spaces, the locking state of the designated parking spaces is released, and the accuracy of the vehicles to be parked occupying the designated parking spaces can be improved through the snapshot unit 120.

It is understood that the space management system 10 provided in fig. 1 based on the present application can implement the space management method in any of the above embodiments.

Referring to fig. 5, fig. 5 is a schematic structural diagram of an embodiment of an electronic device 50 of the present application, where the electronic device 50 includes a memory 501 and a processor 502 coupled to each other, where the memory 501 stores program data (not shown), and the processor 502 calls the program data to implement the method in any of the above embodiments.

Referring to fig. 6, fig. 6 is a schematic structural diagram of an embodiment of a computer-readable storage medium 60 of the present application, the computer-readable storage medium 60 stores program data 600, and the program data 600 is executed by a processor to implement the method in any of the above embodiments, and the related contents are described in detail with reference to the above method embodiments, which are not repeated herein.

It should be noted that, units described as separate parts may or may not be physically separate, and parts displayed as units may or may not be physical units, may be located in one place, or may be distributed on multiple network units. Some or all of the units can be selected according to actual needs to achieve the purpose of the embodiment.

In addition, functional units in the embodiments of the present application may be integrated into one processing unit, or each unit may exist alone physically, or two or more units are integrated into one unit. The integrated unit can be realized in a form of hardware, and can also be realized in a form of a software functional unit.

The integrated unit, if implemented in the form of a software functional unit and sold or used as a separate product, may be stored in a computer readable storage medium. Based on such understanding, the technical solution of the present application may be substantially implemented or contributed to by the prior art, or all or part of the technical solution may be embodied in a software product, which is stored in a storage medium and includes instructions for causing a computer device (which may be a personal computer, a server, a network device, or the like) or a processor (processor) to execute all or part of the steps of the method according to the embodiments of the present application. And the aforementioned storage medium includes: a U-disk, a removable hard disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), a magnetic disk, or an optical disk, and various media capable of storing program codes.

The above description is only for the purpose of illustrating embodiments of the present application and is not intended to limit the scope of the present application, and all modifications of equivalent structures and equivalent processes, which are made by the contents of the specification and the drawings of the present application or are directly or indirectly applied to other related technical fields, are also included in the scope of the present application.

Claims (12)

1. A parking space management method is characterized by comprising the following steps:

acquiring current spare parking space data of a parking area, and receiving vehicle information of a vehicle to be parked;

allocating a designated parking space for the vehicle to be parked based on the vehicle information and the vacant parking space data;

responding to the fact that the vehicle to be parked is collected by a snapshot unit within a preset distance from the designated parking space, generating a preset signal, and guiding the vehicle to be parked to go to the designated parking space based on the preset signal; the parking area is provided with a plurality of snapshot units, the plurality of snapshot units respectively correspond to the respective shooting areas, and each corresponding part of parking spaces in the shooting areas.

2. The parking space management method according to claim 1, wherein the vehicle information includes a pre-uploaded reservation license plate;

the allocating the designated parking space for the vehicle to be parked based on the vehicle information and the vacant parking space data comprises:

allocating the appointed parking space for the reserved vehicle based on the reserved license plate and the vacant parking space data, and sending the reserved license plate to a parking space display unit corresponding to the appointed parking space so that the parking space display unit displays the reserved license plate;

responding to the fact that the reserved vehicle reaches an entrance of the parking area, and sending the designated parking space corresponding to the reserved vehicle to an entrance display unit so that the entrance display unit displays the position of the designated parking space corresponding to the reserved vehicle;

the parking space display unit is arranged on one side, close to the lane, of each parking space.

3. The parking space management method according to claim 1 or 2, wherein the vehicle information includes a temporary license plate obtained immediately;

the allocating the designated parking space for the vehicle to be parked based on the vehicle information and the vacant parking space data comprises: responding to an unscheduled temporary vehicle to arrive at an entrance of the parking area, and instantly obtaining the temporary license plate;

responding to the spare parking space data exceeding a residual threshold value, distributing the appointed parking space for the temporary vehicle based on the spare parking space data, sending the appointed parking space corresponding to the temporary vehicle to an entrance display unit so that the entrance display unit displays the position of the appointed parking space corresponding to the temporary vehicle, and sending the temporary license plate to a parking space display unit corresponding to the appointed parking space so that the parking space display unit displays the temporary license plate;

responding to the situation that the vacant parking space data does not exceed the remaining threshold value, and sending preset display information to the entrance display unit so that the entrance display unit displays the preset display information and informs an owner of the temporary vehicle of the fact that the vacant parking space data does not exceed the remaining threshold value;

the parking space display unit is arranged on one side, close to the lane, of each parking space.

4. The parking space management method according to claim 1, wherein the generating a preset signal in response to the capturing unit within a preset distance from the designated parking space capturing the vehicle to be parked, and further comprising, before directing the vehicle to be parked to the designated parking space based on the preset signal:

determining a shooting area where the vehicle to be parked is located currently based on the video data acquired by the capturing unit, and sending a lighting instruction to a lane indicator light unit in the shooting area where the vehicle to be parked is located currently so that the lane indicator light unit lights a direction indicator light pointing to the specified parking space; and the number of the first and second groups,

sending vehicle information of the vehicle to be parked and a lane of the vehicle to be parked, which goes to a corresponding specified parking space, to a lane guidance display unit so that the lane guidance display unit displays the vehicle information of the vehicle to be parked and the lane of the vehicle to be parked, which goes to the corresponding specified parking space;

the lane guide display unit is arranged at a lane intersection, and the lane indicator light unit is arranged on a lane and comprises at least one direction indicator light which advances, turns left and turns right.

5. The parking space management method according to claim 1, wherein the designated parking space is locked by a locking unit on the designated parking space, and the preset signal comprises an unlocking instruction of the locking unit;

the response with the appointed parking stall is gathered by the snapshot unit in presetting the distance waiting to park, generates and predetermines the signal, based on predetermine the signal and guide waiting to park the vehicle and go to the appointed parking stall includes:

responding to the situation that a snapshot unit within a preset distance with the appointed parking space acquires the vehicle to be parked, sending an unlocking instruction to the locking unit in the appointed parking space, unlocking the locking unit in the appointed parking space, and guiding the vehicle to be parked to go to the unlocked appointed parking space.

6. The parking space management method according to claim 5,

the parking space indicating units are respectively arranged at one side of the corresponding parking space close to the lane, and each parking space indicating unit comprises an acquisition module and a parking space indicating lamp module;

the response with the candid photograph unit in the distance is predetermine to appointed parking stall gathers wait to stop the vehicle, to on the appointed parking stall the locking unit sends the unblock instruction, unblock on the appointed parking stall the locking unit to guide wait to stop the vehicle and go to the unblock appointed parking stall, include:

responding to the fact that a snapshot unit within a preset distance from the appointed parking space collects the vehicle to be parked, sending an unlocking instruction to a locking unit on the appointed parking space, and sending an indicating lamp flashing instruction to the parking space indicating unit corresponding to the appointed parking space so as to enable a parking space indicating lamp module to flash;

and responding to the acquisition module to acquire the parking space image corresponding to the appointed parking space, determining that the appointed parking space is occupied based on the parking space image corresponding to the appointed parking space, and sending an indicator light color change instruction to the parking space indicating unit corresponding to the appointed parking space so that the parking space indicating lamp module changes colors.

7. The parking space management method according to claim 6, wherein after the response that the vehicle to be parked is collected by the capturing unit within the preset distance from the designated parking space and an unlocking instruction is sent to the locking unit in the designated parking space, the method further comprises:

acquiring a parking space image acquired by the parking space indicating unit corresponding to the designated parking space, and determining parking space state information of the designated parking space based on the parking space image; the parking space state information comprises the parking space state information which is occupied by the corresponding vehicle to be parked and the parking space state information which is occupied by other vehicles, wherein the other vehicles are different from the vehicle to be parked corresponding to the specified parking space;

and responding to the parking space state information that the parking space state information is occupied by other vehicles, generating alarm information, and distributing an empty parking space closest to the appointed parking space for the vehicle to be parked based on the empty parking space data.

8. The parking space management method according to claim 5, wherein the step of sending an unlocking instruction to the locking unit in the designated parking space to unlock the locking unit in the designated parking space in response to the capturing unit within the preset distance from the designated parking space collecting the vehicle to be parked, so as to guide the vehicle to be parked to go to the unlocked designated parking space further comprises:

determining whether the vehicle in the designated parking space drives away from the designated parking space or not based on the video data acquired by the snapshot unit;

responding to the fact that the vehicle on the designated parking space drives away from the designated parking space and drives away from the shooting area corresponding to the snapshot unit within the preset distance of the designated parking space, and sending a locking instruction to a locking unit on the designated parking space;

and responding to the fact that the vehicle corresponding to the appointed parking space does not leave the parking area, and when the vehicle corresponding to the appointed parking space is collected again by the capturing unit within the preset distance of the appointed parking space, sending an unlocking instruction to the locking unit on the appointed parking space.

9. The utility model provides a parking stall management system which characterized in that, parking stall management system includes:

the monitoring guide assembly is arranged in a parking area and used for monitoring the parking area to obtain vacant parking space data;

a management unit, which is cascaded with the monitoring and guiding component and is used for receiving vehicle information of a vehicle to be parked and the vacant parking space data so as to realize the method of any one of the claims 1 to 8;

the monitoring guide assembly at least comprises a plurality of capturing units, the capturing units correspond to respective shooting areas respectively, and each capturing unit corresponds to a part of parking spaces in the shooting areas.

10. The space management system according to claim 9, wherein the monitor guidance assembly further comprises:

the locking units are respectively arranged on the corresponding parking spaces; and/or the presence of a gas in the gas,

an entrance display unit disposed at an entrance of the parking area; and/or the presence of a gas in the gas,

the parking space display units are arranged on one sides of the parking spaces close to the lanes; and/or the presence of a gas in the atmosphere,

at least one lane guide display unit arranged at the intersection of the lanes; and/or the presence of a gas in the gas,

a plurality of lane indicating lamp units disposed on a lane, including at least one direction indicating lamp of forward, leftward and rightward; and/or the presence of a gas in the gas,

the parking space indicating units are arranged on one side, close to the lane, of the corresponding parking spaces and comprise acquisition modules and parking space indicating lamp modules.

11. An electronic device, comprising: a memory and a processor coupled to each other, wherein the memory stores program data that the processor calls to perform the method of any of claims 1-8.

12. A computer-readable storage medium, on which program data are stored, which program data, when being executed by a processor, carry out the method of any one of claims 1-8.

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