CN114299748A - Unattended parking space management and control method and system - Google Patents

Abstract

The application discloses unmanned parking space management and control method and system for enabling a vehicle owner to achieve the purpose of unlocking and parking under the condition that the video detection terminal cannot be identified or is identified wrongly, and user experience is improved. The method comprises the following steps: the mobile terminal establishes Bluetooth connection with the parking spot lock by scanning the two-dimensional code on the parking spot lock; the mobile terminal acquires a target secret key matched with the parking spot lock; and the mobile terminal controls the parking spot lock to be unlocked through the target secret key.

Description

Unattended parking space management and control method and system

Technical Field

The application relates to the technical field of parking lot management, in particular to an unattended parking space management and control method and system.

Background

With the development of society, the quantity of automobiles kept is huge, the problem of parking of the automobiles is particularly prominent under the condition of shortage of parking spaces, and how to keep the parking space resources alive and fully realize the sharing of the parking space resources is an important way for solving the problem of parking of the automobiles. Can realize the reservation of parking stall through the internet at present and park, the management side of parking stall or individual can share the parking stall of oneself on the platform, acquire certain income, also the problem that the vehicle was parked has been solved to the part, to this part sharing parking stall, generally comes the management and control through the parking stall lock, avoids being taken other people at will and can't reach the purpose of sharing the parking.

In the prior art, a parking space lock is generally opened and closed by using a remote controller or a front-end software to control a video terminal, but the remote controller is used for controlling the intervention of management personnel, and the video terminal is used for identifying a vehicle, acquiring a license plate number and authenticating the license plate number, and when the vehicle is confirmed to be a reserved vehicle corresponding to a parking space, the terminal controls the parking space lock to be opened. However, the video detection terminal may have recognition errors or cannot recognize the video detection terminal, so that the owner cannot unlock the lock, and user experience is greatly influenced.

Disclosure of Invention

The application provides an unattended parking space management and control method and system, which are used for enabling a vehicle owner to achieve the purpose of unlocking and parking under the condition that the video detection terminal cannot be identified or is identified wrongly, and user experience is improved.

The application first aspect provides an unmanned on duty's parking stall management and control method, includes:

the mobile terminal establishes Bluetooth connection with the parking spot lock by scanning the two-dimensional code on the parking spot lock;

the mobile terminal acquires a target secret key matched with the parking spot lock;

and the mobile terminal controls the parking spot lock to be unlocked through the target secret key.

Optionally, if the parking spot lock is not reserved, the mobile terminal obtaining a target key matched with the parking spot lock includes:

the mobile terminal determines a first secret key matched with the parking space lock from a pre-stored Bluetooth secret key list;

the mobile terminal controls the parking spot lock to be unlocked through the target secret key and comprises the following steps:

the movable end is controlled by the first secret key to unlock the parking space lock.

Optionally, after the mobile terminal controls the parking lock to be unlocked through the first secret key, the method further includes:

the video detection terminal identifies the license plate information of the parked vehicle;

the video detection terminal sends the license plate information to a cloud management platform;

and the cloud management platform generates a parking record according to the license plate information.

Optionally, remove the end through first secret key control the parking stall lock is opened and is included:

the mobile terminal controls the parking space lock to be unlocked through the first secret key and generates an unlocking record;

after the mobile terminal controls the parking space lock to be unlocked through the first secret key, the method further comprises the following steps:

the mobile terminal sends the unlocking record to a cloud management platform;

and the cloud management platform generates a parking record according to the unlocking record.

Optionally, the mobile terminal scans the two-dimensional code on the parking spot lock and establishes a bluetooth connection with the parking spot lock before, the parking spot management and control method further includes:

the mobile terminal sends a parking place reservation request to the cloud management platform;

the cloud management platform allocates and binds a target parking space according to the parking space reservation request;

the cloud management platform determines a second secret key matched with a target parking space lock corresponding to a target parking space;

and the cloud management platform sends the second secret key to the mobile terminal.

Optionally, if the parking spot lock is reserved, the obtaining of the target secret key matched with the parking spot lock by the mobile terminal includes:

the mobile terminal acquires the second secret key sent by the cloud management platform;

the mobile terminal controls the parking spot lock to be unlocked through the target secret key and comprises the following steps:

and the mobile terminal controls the target parking space lock to be unlocked through the second secret key.

Optionally, after the mobile terminal controls the target parking space lock to be unlocked through the second secret key, the method further includes:

when the video detection terminal detects that the state of the target parking spot lock is changed into an unlocking state, reporting an unlocking record to a cloud management platform;

and the cloud management platform generates a parking record according to the unlocking record and the reservation record of the target parking space lock.

Optionally, the mobile terminal scans the two-dimensional code on the parking spot lock and before the bluetooth connection is established to the parking spot lock, the parking spot management and control method further includes:

the mobile terminal registers on the cloud management platform;

the cloud management platform determines the credit level of the mobile terminal;

and if the credit level meets a preset condition, the cloud management platform sends the Bluetooth secret key list to the mobile terminal.

Optionally, the method further includes:

when the video detection terminal detects that the vehicle leaves the parking space, the video detection terminal controls the parking space lock or the target parking space lock to be closed and reports the parking space lock or the target parking space lock to the cloud management platform;

and the cloud management platform calculates parking cost according to the parking record and sends the parking cost to the mobile terminal.

This application second aspect provides an unmanned on duty's parking stall management and control system, includes:

a mobile terminal and a parking spot lock;

the mobile terminal is used for establishing Bluetooth connection with the parking spot lock by scanning the two-dimensional code on the parking spot lock;

the mobile terminal is used for acquiring a target secret key matched with the parking spot lock;

and the mobile terminal is used for controlling the parking spot lock to be unlocked through the target secret key.

Optionally, if the parking spot lock is not reserved, the mobile terminal is specifically configured to:

determining a first secret key matched with the parking lock from a pre-stored Bluetooth secret key list;

controlling the parking spot lock to be unlocked through the target secret key comprises the following steps:

and the parking space lock is controlled to be unlocked through the first secret key.

Optionally, the system further includes: the system comprises a video detection terminal and a cloud management platform;

the video detection terminal is used for identifying the license plate information of the parked vehicle;

the video detection terminal is used for sending the license plate information to the cloud management platform;

and the cloud management platform is used for generating a parking record according to the license plate information.

Optionally, the mobile terminal is specifically configured to:

controlling the parking space lock to be unlocked and generating an unlocking record through the first secret key;

sending the unlocking record to a cloud management platform;

and the cloud management platform is used for generating a parking record according to the unlocking record.

Optionally, the system further includes: a cloud management platform;

the mobile terminal is used for sending a parking space reservation request to the cloud management platform;

the cloud management platform is used for allocating and binding a target parking space according to the parking space reservation request;

the cloud management platform is used for determining a second secret key matched with a target parking space lock corresponding to a target parking space;

and the cloud management platform is used for sending the second secret key to the mobile terminal.

Optionally, if the parking spot lock is reserved, the mobile terminal is specifically configured to:

acquiring the second secret key sent by the cloud management platform;

controlling the parking spot lock to be unlocked through the target secret key comprises the following steps:

and controlling the target parking space lock to be unlocked through the second secret key.

Optionally, the system further includes: a video detection terminal;

when the video detection terminal detects that the state of the target parking spot lock is changed into an unlocking state, the video detection terminal is used for reporting an unlocking record to a cloud management platform;

and the cloud management platform is used for generating a parking record according to the unlocking record and the reservation record of the target parking space lock.

Optionally, the mobile terminal is further configured to:

registering on a cloud management platform;

the cloud management platform is used for determining the credit level of the mobile terminal;

and if the credit level meets a preset condition, the cloud management platform is used for sending the Bluetooth secret key list to the mobile terminal.

Optionally, the system further includes: a video detection terminal;

when the video detection terminal detects that the vehicle leaves the parking space, the video detection terminal is used for controlling the parking space lock or the target parking space lock to be closed and reporting the parking space lock or the target parking space lock to the cloud management platform;

and the cloud management platform is used for calculating parking cost according to the parking records and sending the parking cost to the mobile terminal.

This application third aspect provides an unmanned on duty's parking stall management and control device, the device includes:

the device comprises a processor, a memory, an input and output unit and a bus;

the processor is connected with the memory, the input and output unit and the bus;

the memory stores a program, and the processor calls the program to execute the first aspect and any one of the first aspect optional unattended parking space management and control methods.

A fourth aspect of the present application provides a computer-readable storage medium, where a program is stored, and when the program is executed on a computer, the method for managing and controlling an unattended parking space according to any one of the first aspect and the first aspect is executed.

According to the technical scheme, the method has the following advantages:

be provided with bluetooth module on the parking stall lock, remove the end and establish the bluetooth through sweeping sign indicating number and parking stall lock and connect, recycle bluetooth key (target secret key) and unblank. If it is the reservation car, the bluetooth key can be sent to in advance and remove the end and preserve, if it is the non-reservation car, can set up a bluetooth key module on removing the end, directly utilize the bluetooth key matching in the module to unblank, even the video detection terminal condition that unable discernment or discernment mistake appear, and no matter the car owner has or not the parking stall of booking in advance, the car owner can both realize unblanking the purpose of parking.

In addition, the unattended management of an open parking lot can be realized through the unattended parking space management and control method provided by the application, a parking space lock is opened and the parking permission of a shared parking space is obtained by utilizing the active code scanning mode of a vehicle owner, the effective unattended management of a parking lot can be still realized under the condition that an entrance and exit control machine and a road gate are not needed, the management and the operation of the parking lot are refined to each parking space, the entrance and exit equipment cost is reduced, and the yield of the parking space sharing operation is increased.

Drawings

In order to more clearly illustrate the technical solutions in the present application, the drawings needed to be used in the description of the embodiments will be 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 without creative efforts.

Fig. 1 is a schematic structural diagram of an unattended parking space management and control system provided by the present application;

fig. 2 is a schematic flowchart illustrating an embodiment of an unattended parking space management and control method provided by the present application;

fig. 3 is a schematic flowchart of another embodiment of an unattended parking space management and control method provided by the present application;

fig. 4 is a schematic flowchart of another embodiment of an unattended parking space management and control method provided by the present application;

fig. 5 is a schematic structural diagram of an embodiment of an unattended parking space management and control system provided by the present application;

fig. 6 is a schematic structural view of an embodiment of an unattended parking space management and control device provided by the present application.

Detailed Description

The application provides an unattended parking space management and control method and system, which are used for enabling a vehicle owner to achieve the purpose of unlocking and parking under the condition that the video detection terminal cannot be identified or is identified wrongly, and user experience is improved.

Referring to fig. 1, fig. 1 is a schematic view of an architecture of an unattended parking space management and control system provided in the present application, where the unattended parking space management and control method provided in the present application is applied to the unattended parking space management and control system, and the unattended parking space management and control system includes: the system comprises a mobile terminal 101, a parking spot lock 102, a cloud management platform 103 and a video detection terminal 104;

the mobile terminal 101 may be a mobile terminal such as a smart phone, a smart watch, and a personal computer. The mobile terminal 101 can perform functions of empty parking space inquiry/reservation, charging pile parking space inquiry/reservation, advanced prepayment after reservation, parking overtime non-payment, reserved parking space navigation and the like in the APP, and is not limited in the specific situation.

This parking stall lock 102 embeds has bluetooth module, be provided with the two-dimensional code on the parking stall lock 102, include this parking stall lock 102's equipment information in the two-dimensional code, parking stall lock 102's equipment information binds with the parking stall number one-to-one, remove end 101 accessible bluetooth control parking stall lock 102 switch lock, parking stall lock 102 only discerns the bluetooth secret key rule of this system customization, and the bluetooth encryption rule is generated by high in the clouds management platform 103 at every turn, and give effective time or effective number of times.

The cloud management platform 103 may be a computing device with computing capabilities, such as a cloud server, a workstation, a cluster server, and a distributed server. The cloud management platform 103 can manage temporary vehicles, fixed vehicles, VIPs, reservation vehicles, visiting vehicles, new energy vehicles and the like, realize functions such as equipment management, authorization management and remote control lock, and also realize functions such as cloud charging, fee calculation, charging and financial statement statistics, and is not limited in the specific steps.

The video detection terminal 104 supports license plate recognition and continuous snapshot functions. The video detection terminal 104 is connected with the parking spot lock 102 through bluetooth communication, and the video detection terminal 104 is used for controlling the parking spot lock 102 to be opened and closed. The video detection terminal 104 and the cloud management platform 103 are in communication connection through a TCP/IP, and the video detection terminal 104 is further used for detecting the state of the parking stall lock 102 and reporting the state to the cloud management platform 103.

Referring to fig. 2, fig. 2 is a diagram illustrating an embodiment of an unattended parking space management and control method provided by the present application, where the method includes:

201. the mobile terminal establishes Bluetooth connection with the parking spot lock by scanning the two-dimensional code on the parking spot lock;

generally, a parking space lock controls a switch through a video detection terminal in a manner that the video detection terminal identifies a vehicle, obtains a license plate number and authenticates the license plate number, and when the vehicle is confirmed to be an appointed vehicle corresponding to a parking space, the video detection terminal controls the parking space lock to be opened. In addition, through the parking stall management and control method that this application provided, even the vehicle does not reserve in advance and also can freely unblank and park.

In the parking area that unmanned on duty's parking stall management and control method was used, all be provided with the parking stall lock on every parking stall, the parking stall lock has the two-dimensional code, contains the equipment information of this parking stall lock in the two-dimensional code, and the equipment information of parking stall lock is bound with the parking stall number one-to-one in the parking area. Still be provided with bluetooth module on the parking stall lock for remove the switch that the end can pass through bluetooth control parking stall lock.

Specifically, when the car owner drives the vehicle and arrives the parking stall, the car owner uses the removal end to scan the two-dimensional code on the parking stall lock, acquires the MAC address of parking stall lock in the two-dimensional code, then establishes the bluetooth with this parking stall lock and is connected.

It should be noted that, this two-dimensional code can also set up in the top that corresponds the parking stall or the apparent position on the floor except setting up on the parking stall lock, makes things convenient for the car owner to need not get off just can directly scan.

202. The mobile terminal acquires a target secret key matched with the parking spot lock;

each parking stall lock all is provided with the bluetooth key that corresponds, and the removal end just can control the switch that corresponds the parking stall lock through correct bluetooth key, and the bluetooth key is generated through the bluetooth key rule of predetermineeing, and the bluetooth key that generates has effective time or effective number of times, and the generation mode of specific bluetooth key does not restrict here. After the mobile terminal establishes Bluetooth connection with the parking spot lock, a target secret key matched with the parking spot lock is obtained locally.

It should be noted that, in order to realize that the network signal is not good in the parking lot, the car owner can also realize the purpose of unlocking and parking, when the mobile terminal is registered or under the good condition of other network conditions, the bluetooth keys of all parking stall locks managed by the system need to be downloaded to the local in advance in the form of bluetooth key modules, or the parking stall is reserved in advance and the bluetooth key corresponding to the reserved parking stall sent by the upper management software is stored to the local, so that the car owner establishes bluetooth connection with the parking stall lock after entering the parking lot, and then the corresponding bluetooth key can be directly matched locally, the process can be completed without networking, and even if the network signal is not good in the parking lot, the car owner can also realize the purpose of unlocking and parking.

203. The mobile terminal controls the parking spot lock to be unlocked through the target secret key.

After the mobile terminal acquires the target secret key matched with the parking space lock, the parking space lock is controlled to be unlocked through the target secret key, and the vehicle owner can drive the vehicle into the parking space to finish parking.

In this embodiment, be provided with bluetooth module on the parking stall lock, remove the end and establish the bluetooth through sweeping sign indicating number and parking stall lock and connect, recycle bluetooth key (target secret key) and unblank. If it is the reservation car, the bluetooth key can be sent to in advance and remove the end and preserve, if it is the non-reservation car, can set up a bluetooth key module on removing the end, directly utilize the bluetooth key matching in the module to unblank, even the video detection terminal condition that unable discernment or discernment mistake appear, no matter reservation car or non-reservation car, the car owner can both realize unblanking the purpose of parking.

In addition, the unattended management of an open parking lot can be realized through the unattended parking space management and control method provided by the application, a parking space lock is opened and the parking permission of a shared parking space is obtained by utilizing the active code scanning mode of a vehicle owner, the effective unattended management of a parking lot can be still realized under the condition that an entrance and exit control machine and a road gate are not needed, the management and the operation of the parking lot are refined to each parking space, the entrance and exit equipment cost is reduced, and the yield of the parking space sharing operation is increased.

In the unmanned on duty parking stall management and control method that this application provided, the car owner can carry out the parking stall reservation in advance, also can not make a reservation but directly go to the idle parking stall in the parking lot and park, to reservation vehicle and non-reservation vehicle, the target secret key that the removal end acquireed is different, describes respectively below:

firstly, an unscheduled vehicle:

301. the mobile terminal registers on the cloud management platform;

before using the shared parking space, the car owner needs to register and bind the corresponding APP first, so that the functions of reservation, code scanning unlocking, pre-payment and the like can be conveniently used, or the car owner can conveniently follow up the payment after leaving the parking space. For the unregistered user, the functions of code scanning unlocking and the like cannot be used, so that the management of the parking lot is facilitated.

When the mobile terminal registers, the license plate number of the vehicle needs to be filled and bound, and the cloud management platform stores the binding relationship between the mobile terminal and the license plate number of the vehicle.

302. The cloud management platform determines the credit level of the mobile terminal;

in order to better realize the management of the shared parking space and avoid the situations of fee evasion, fee defaulting and illegal parking, the cloud management platform of the non-reservation vehicle needs to determine the credit level of the corresponding mobile terminal in advance, the credit level may be a specific credit score or a credit rating, the cloud management platform may read the credit level of the mobile terminal from other authorization platforms, and may also determine the credit level of the mobile terminal according to preset rules (for example, rules such as the number of parking reservations of the mobile terminal), and the details are not limited herein. In addition, the mobile terminal can also promote the credit rating of the mobile terminal by means of prepayment of deposit.

303. If the credit level meets the preset condition, the cloud management platform sends the Bluetooth secret key list to the mobile terminal;

if the credit level of the mobile terminal meets the preset condition, for example, the credit score of the mobile terminal reaches the preset score, or the credit level reaches the preset rating, it is determined that the credit level of the mobile terminal meets the preset condition, and at this moment, the cloud management platform sends the bluetooth key list to the mobile terminal, so that the mobile terminal is stored locally.

In some specific embodiments, the bluetooth key list may be downloaded to the mobile terminal locally in the form of a bluetooth key module, and the bluetooth key list sent by the cloud management platform to the mobile terminal may include bluetooth keys corresponding to all parking spot locks of all parking spots managed by the cloud management platform, and may also only include bluetooth keys corresponding to all parking spot locks in a part of parking spots selected by the vehicle owner. For example, the cloud management platform manages a parking lot A, a parking lot B, a parking lot C and a parking lot D, parking places commonly used by car owners are the parking lot A and the parking lot B, the car owners designate the parking lot A and the parking lot B on the APP, and the cloud management platform only sends Bluetooth secret keys corresponding to all parking space locks in the parking lot A and the parking lot B to the mobile terminal. In addition, the car owner can select the parking lot commonly used when registering, follow-up also can be revised in APP, and the high in the clouds management platform then will resend the bluetooth key that all parking stall locks correspond in the parking lot after the modification to remove the end to the bluetooth key list of the interior storage of removal end is updated.

304. The mobile terminal establishes Bluetooth connection with the parking spot lock by scanning the two-dimensional code on the parking spot lock;

in this embodiment, step 304 is similar to step 201 of the previous embodiment, and is not described herein again.

305. The mobile terminal determines a first secret key matched with the parking space lock from a pre-stored Bluetooth secret key list;

after the mobile terminal establishes the bluetooth connection with the parking space lock, a first secret key corresponding to the parking space lock is automatically matched from a local bluetooth secret key list (a bluetooth secret key module). Specifically, the mobile terminal acquires the equipment information of the parking spot lock through Bluetooth connection, and then matches a corresponding first secret key according to the equipment information of the parking spot lock, wherein the equipment information can be the unique name of the parking spot lock and can also be a parking spot number corresponding to the parking spot lock.

306. The mobile terminal controls the parking space lock to be unlocked and generates an unlocking record through the first secret key;

after the mobile terminal locally obtains the first secret key, the parking space lock is controlled to be unlocked, and the vehicle owner can drive the vehicle into the parking space to finish parking. In this embodiment, when the parking spot lock is controlled to be unlocked, the mobile terminal locally generates an unlocking record, and the unlocking record contains unlocking time and corresponding equipment information of the parking spot lock.

307. The mobile terminal sends the unlocking record to the cloud management platform;

after the car owner finishes parking, go to other places, and after the network of the mobile terminal is recovered, the mobile terminal will automatically upload the unlocking record to the cloud management platform at the first time.

308. The cloud management platform generates a parking record according to the unlocking record;

after receiving the unlocking record of the mobile terminal, the cloud management platform generates a parking record according to the unlocking time in the unlocking record, corresponding equipment information (parking space information) of the parking space lock and vehicle information bound by the mobile terminal, and calculates the parking time according to the unlocking time. Through the automatic unlocking record uploading of the mobile terminal, even if the video detection terminal cannot normally identify the license plate information of the parked vehicle, the cloud management platform can also generate the correct parking record, so that the situation that the parking record is not generated or the wrong parking record is generated is reduced.

In other specific embodiments, if the video detection terminal on the parking space can normally recognize the license plate information, the video detection terminal can be directly used to recognize the license plate information on the parking space after the parking space lock is opened, and the license plate information is reported to the cloud management platform to generate a parking record, and the parking duration is calculated. That is to say, no matter whether video detection terminal can normally work, the non-reservation vehicle can all unblank through the mode of bluetooth key matching and park, and the high in the clouds server can be to this non-reservation vehicle normal billing.

309. When the video detection terminal detects that the vehicle leaves the parking space, the video detection terminal controls the parking space lock to be closed and reports the parking space lock to the cloud management platform;

the parking space is provided with the video detection terminal, when the vehicle leaves the target parking space, the video detection terminal identifies that no vehicle exists in the parking space, the vehicle is judged to have left the target parking space, and the video detection terminal controls the parking space lock to be locked and reports the locked parking space lock to the cloud management platform.

Specifically, communication connection is realized through the bluetooth between video detection terminal and the parking stall lock, and communication connection is realized through TCP/IP between video detection terminal and the high in the clouds management platform.

310. And the cloud management platform calculates the parking cost according to the parking record and sends the parking cost to the mobile terminal.

After the parking space lock is determined to be in a locked state, the cloud management platform calculates parking cost according to the parking time of the vehicle, and sends the parking cost and the payment notice to the mobile terminal, so that a vehicle owner can pay by the mobile phone.

In some specific embodiments, the cloud management platform may also send a parking fee prepayment notification to the mobile terminal while uploading the unlocking record on the mobile terminal of the non-reservation vehicle owner, so as to prompt the vehicle owner to prepay a part of the parking fee first, and make up for the parking fee according to the actual generated fee when the vehicle owner leaves the parking lot.

In this embodiment, the car owner is after registering, if the credit rating of car owner satisfies the predetermined condition, then allow this car owner to need not the reservation, go to the sharing parking stall by oneself and park. And in order to reduce the influence that the network signal is not good to unblanking and brings in the parking area, high in the clouds management platform will send bluetooth secret key list to removing the end in advance for remove the end and establish the bluetooth connection back through sweeping sign indicating number and parking stall lock arriving the parking stall, can directly utilize the bluetooth secret key matching in the local bluetooth secret key list to unblank, this process need not the network and can accomplish, and need not to reserve the parking stall in advance, the parking time of having saved the car owner, the parking experience of having promoted the car owner.

II, reserving a vehicle:

401. the mobile terminal sends a parking place reservation request to the cloud management platform;

the car owner can carry out the parking stall reservation on APP through removing the end, when the car owner confirms that need carry out the parking stall reservation, removes the end and then sends the parking stall reservation request to high in the clouds management platform.

It should be noted that the parking space reservation request also carries identity information of the vehicle, and the identity information of the vehicle refers to a license plate number or an ID number generated by the mobile terminal by registering on the APP. The car owner can use the parking space reservation service after registering on the corresponding APP.

402. The cloud management platform allocates and binds a target parking space according to the parking space reservation request;

when the cloud management platform receives a parking space reservation request of a vehicle owner, the cloud management platform allocates a parking space for the vehicle owner, namely allocates a target parking space, and the cloud management platform binds the target parking space and identity information of the vehicle so as to prevent the target parking space reserved by the vehicle owner from being parked by other vehicle owners.

Specifically, the cloud management platform firstly determines all current idle parking spaces of the parking lot, namely parking spaces with parking space locks in a closed state, then eliminates the parking spaces reserved and bound by other car owners from all the idle parking spaces, and finally determines and allocates target parking spaces for the reserved car owners in the selected idle parking spaces. The specific allocation mode may be to preferentially allocate the parking spaces closer to the entrance of the parking lot, or to allocate the parking spaces randomly, and is not limited herein.

In some specific embodiments, when the vehicle owner makes a parking space reservation, a time period of expected parking may be further specifically set, and the cloud management platform allocates and binds a target parking space to the vehicle owner in advance before the time period according to the time period set by the vehicle owner.

403. The cloud management platform determines a second secret key matched with a target parking space lock corresponding to the target parking space;

and after the cloud management platform binds the target parking space for the vehicle owner, generating a second secret key matched with the target parking space lock on the target parking space according to a preset rule.

It should be noted that the priority of the second key is higher than that of the first key in the above embodiment. Because all parking stall locks that high in the clouds management platform managed are on-line status, high in the clouds management platform can manage all parking stall locks through the gateway, if high in the clouds management platform has bound a certain target parking stall lock for the reservation car owner, then high in the clouds management platform then sets up this target parking stall lock as the reservation state, under this reservation state, when other car owners open this target parking stall lock through a secret key, the target parking stall lock will not be opened, guaranteed from this that the reservation car owner can park the vehicle to the target parking stall smoothly.

404. The cloud management platform sends the second secret key to the mobile terminal;

and the cloud management platform sends the determined second secret key to the mobile terminal, so that the mobile terminal stores the second secret key to the local.

In some specific embodiments, the cloud management platform further sends the position information of the target parking space to the mobile terminal after binding the target parking space for the vehicle owner, and the position information may be a parking space number of the target parking space or a position schematic diagram of the target parking space in a parking lot, and is not limited in specific places. And the mobile terminal displays the position information to the vehicle owner after receiving the position information of the target parking space, so that the vehicle owner can conveniently go to the target parking space to park.

405. The mobile terminal establishes Bluetooth connection with the target parking spot lock by scanning the two-dimensional code on the target parking spot lock;

and when the reservation vehicle owner arrives at the target parking space, the two-dimensional code on the target parking space lock is scanned to establish Bluetooth connection with the target parking space lock.

406. The mobile terminal controls the target parking stall lock to be unlocked through a second secret key;

the mobile terminal obtains a second secret key locally, and controls the target parking space lock to be unlocked through the second secret key, so that the vehicle owner can drive the vehicle into the target parking space for reservation extraction, and parking is completed.

407. When the video detection terminal detects that the state of the target parking spot lock is changed into an unlocking state, reporting an unlocking record to a cloud management platform;

in this embodiment, video detection terminal and parking stall lock pass through bluetooth communication connection, and video detection terminal can detect the on off state of parking stall lock to when the on off state of parking stall lock changes, report high in the clouds management platform.

After the mobile terminal controls the target parking space lock to be unlocked through the second secret key, the video detection terminal changes the state of the detected target parking space lock from the closed state to the unlocked state, and at the moment, the video detection terminal generates an unlocking record and sends the unlocking record to the cloud management platform.

408. The cloud management platform generates a parking record according to the unlocking record and the reservation record of the target parking spot lock;

after receiving the unlocking record of the target parking stall lock, the cloud management platform acquires the user information (license plate information) of the target parking stall corresponding to the target parking stall lock according to the unlocking record of the target parking stall lock, and generates a parking record of the vehicle owner.

409. When the video detection terminal detects that the vehicle leaves the parking space, the video detection terminal controls the parking space lock to be closed and reports the parking space lock to the cloud management platform;

410. and the cloud management platform calculates the parking cost according to the parking record and sends the parking cost to the mobile terminal.

In this embodiment, steps 409 to 410 are similar to steps 309 to 310 of the previous embodiment, and are not described again here.

In some specific embodiments, the owner can pay the fee after the fact on the mobile terminal, and can also require the parking fee to be pre-paid when the owner makes an appointment, and more or less compensation is made after the fact.

It should be noted that, for the reservation vehicle owner, if the vehicle owner arrives at the site after reserving the target parking space, the video detection terminal can normally recognize the license plate information of the reservation vehicle, then the video detection terminal directly sends the license plate information to the cloud management platform for authentication, the cloud management platform judges whether the current vehicle is the reservation binding vehicle of the target parking space, if so, the cloud management platform directly issues an unlocking instruction, the video detection terminal controls to open the bluetooth parking space lock according to the unlocking instruction, and the reservation vehicle owner completes parking. If the video detection terminal can normally identify the license plate information of the reserved vehicle, the second secret key is not required to be used for authentication unlocking, and the mode can be used as an alternative scheme when the video detection terminal cannot normally identify.

In this embodiment, if the car owner has reserved the target parking stall in advance, the high in the clouds management platform then will be when the reservation is successful, issue the second secret key of the target parking stall lock on the target parking stall to removing the end for remove the end and preserve this second secret key to local, the car owner is after reacing the target parking stall, then can scan the two-dimensional code with removing the end, establish bluetooth with the parking stall lock and be connected, utilize the second secret key to open the parking stall lock, accomplish the parking. This process need not the network and can accomplish, and can reserve the parking stall in advance, has saved the time that the car owner seeks idle parking stall, has promoted car owner's parking and has experienced.

Referring to fig. 5, fig. 5 is a diagram illustrating an embodiment of an unattended parking space management and control system provided by the present application, where the system includes:

a mobile terminal 501 and a parking spot lock 502;

the mobile terminal 501 is used for establishing Bluetooth connection with the parking spot lock 502 by scanning the two-dimensional code on the parking spot lock 502;

the mobile terminal 501 is configured to obtain a target key matched with the parking spot lock 502;

the mobile terminal 501 is used for controlling the parking stall lock 502 to be unlocked through the target secret key.

Optionally, if the parking lock 502 is not reserved, the mobile terminal 501 is specifically configured to:

determining a first secret key matched with the parking space lock 502 from a pre-stored Bluetooth secret key list;

controlling the parking lock 502 to open through the target key includes:

the parking stall lock 502 is controlled to be unlocked through the first secret key.

Optionally, the system further comprises: a video detection terminal 503 and a cloud management platform 504;

the video detection terminal 503 is used for identifying the license plate information of the parked vehicle;

the video detection terminal 503 is configured to send license plate information to the cloud management platform 504;

the cloud management platform 504 is used for generating parking records according to the license plate information.

Optionally, the mobile terminal 501 is specifically configured to:

the parking space lock 502 is controlled to be unlocked and an unlocking record is generated through the first secret key;

sending the unlocking record to the cloud management platform 504;

cloud management platform 504 is used for generating the parking record according to the record of unblanking.

Optionally, the system further comprises: cloud management platform 504;

the mobile terminal 501 is configured to send a parking space reservation request to the cloud management platform 504;

the cloud management platform 504 is used for allocating and binding a target parking space according to the parking space reservation request;

the cloud management platform 504 is configured to determine a second key matched with the target parking spot lock 502 corresponding to the target parking spot;

the cloud management platform 504 is configured to send the second secret key to the mobile terminal 501.

Optionally, if the parking lock 502 is reserved, the mobile terminal 501 is specifically configured to:

acquiring a second key sent by the cloud management platform 504;

controlling the parking lock 502 to open through the target key includes:

and controlling the target parking space lock 502 to be unlocked through the second secret key.

Optionally, the system further comprises: a video detection terminal 503;

when the video detection terminal 503 detects that the state of the target parking space lock 502 is changed to the unlocking state, the video detection terminal 503 is used for reporting the unlocking record to the cloud management platform 504;

the cloud management platform 504 is configured to generate a parking record according to the unlocking record and the reservation record of the target parking stall lock 502.

Optionally, the mobile terminal 501 is further configured to:

registering on the cloud management platform 504;

the cloud management platform 504 is configured to determine a credit level of the mobile terminal 501;

if the credit level meets the predetermined condition, the cloud management platform 504 is configured to send the bluetooth key list to the mobile terminal 501.

Optionally, the system further comprises: a video detection terminal 503;

when the video detection terminal 503 detects that the vehicle drives away from the parking space, the video detection terminal 503 is used for controlling the parking space lock 502 or the target parking space lock 502 to be closed, and reporting to the cloud management platform 504;

the cloud management platform 504 is configured to calculate parking fees according to the parking records, and send the parking fees to the mobile terminal 501.

In the system of this embodiment, the functions of the mobile terminal 501, the parking lock 502, the video detection terminal 503 and the cloud management platform 504 correspond to the steps in the method embodiments shown in fig. 2, fig. 3 or fig. 4, and are not described herein again.

This application still provides an unmanned on duty's parking stall management and control device, please refer to fig. 6, and fig. 6 is an embodiment of the unmanned on duty's parking stall management and control device that this application provided, and the device includes:

a processor 601, a memory 602, an input-output unit 603, a bus 604;

the processor 601 is connected with the memory 602, the input/output unit 603 and the bus 604;

the memory 602 stores a program, and the processor 601 calls the program to execute any of the above unattended parking space management and control methods.

The application also relates to a computer-readable storage medium, on which a program is stored, and the computer-readable storage medium is characterized in that when the program runs on a computer, the computer is enabled to execute any one of the above unattended parking space management and control methods.

It is clear to those skilled in the art that, for convenience and brevity of description, the specific working processes of the above-described systems, apparatuses and units may refer to the corresponding processes in the foregoing method embodiments, and are not described herein again.

In the several embodiments provided in the present application, it should be understood that the disclosed system, apparatus and method may be implemented in other manners. For example, the above-described apparatus embodiments are merely illustrative, and for example, the division of the units is only one logical division, and other divisions may be realized in practice, for example, a plurality of units or components may be combined or integrated into another system, or some features may be omitted, or not executed. In addition, the shown or discussed mutual coupling or direct coupling or communication connection may be an indirect coupling or communication connection through some interfaces, devices or units, and may be in an electrical, mechanical or other form.

The 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 a plurality of network units. Some or all of the units can be selected according to actual needs to achieve the purpose of the solution 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 stand-alone 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, or a network device) 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 the like.

Claims (10)

1. The utility model provides an unmanned on duty's parking stall management and control method which characterized in that, parking stall management and control method includes:

the mobile terminal establishes Bluetooth connection with the parking spot lock by scanning the two-dimensional code on the parking spot lock;

the mobile terminal acquires a target secret key matched with the parking spot lock;

and the mobile terminal controls the parking spot lock to be unlocked through the target secret key.

2. The parking space management and control method according to claim 1, wherein if the parking space lock is not reserved, the mobile terminal obtains a target secret key matched with the parking space lock, and the method comprises the following steps:

the mobile terminal determines a first secret key matched with the parking space lock from a pre-stored Bluetooth secret key list;

the mobile terminal controls the parking spot lock to be unlocked through the target secret key and comprises the following steps:

the movable end is controlled by the first secret key to unlock the parking space lock.

3. The parking space management and control method according to claim 2, wherein after the mobile terminal controls the parking space lock to be unlocked through the first secret key, the parking space management and control method further comprises the following steps:

the video detection terminal identifies the license plate information of the parked vehicle;

the video detection terminal sends the license plate information to a cloud management platform;

and the cloud management platform generates a parking record according to the license plate information.

4. The parking space management and control method according to claim 2, wherein the mobile terminal controls the parking space lock to be unlocked through the first secret key comprises:

the mobile terminal controls the parking space lock to be unlocked through the first secret key and generates an unlocking record;

after the mobile terminal controls the parking space lock to be unlocked through the first secret key, the method further comprises the following steps:

the mobile terminal sends the unlocking record to a cloud management platform;

and the cloud management platform generates a parking record according to the unlocking record.

5. The parking space management and control method according to claim 1, wherein before the mobile terminal establishes Bluetooth connection with the parking space lock by scanning a two-dimensional code on the parking space lock, the parking space management and control method further comprises:

the mobile terminal sends a parking place reservation request to the cloud management platform;

the cloud management platform allocates and binds a target parking space according to the parking space reservation request;

the cloud management platform determines a second secret key matched with a target parking space lock corresponding to a target parking space;

and the cloud management platform sends the second secret key to the mobile terminal.

6. The parking space management and control method according to claim 5, wherein if the parking space lock is reserved, the mobile terminal acquiring a target secret key matched with the parking space lock comprises:

the mobile terminal acquires the second secret key sent by the cloud management platform;

the mobile terminal controls the parking spot lock to be unlocked through the target secret key and comprises the following steps:

and the mobile terminal controls the target parking space lock to be unlocked through the second secret key.

7. The parking space management and control method according to claim 6, wherein after the mobile terminal controls the target parking space lock to be unlocked through the second secret key, the parking space management and control method further comprises:

when the video detection terminal detects that the state of the target parking spot lock is changed into an unlocking state, reporting an unlocking record to a cloud management platform;

and the cloud management platform generates a parking record according to the unlocking record and the reservation record of the target parking space lock.

8. The parking space management and control method according to claim 1, wherein before the mobile terminal establishes Bluetooth connection with the parking space lock by scanning the two-dimensional code on the parking space lock, the parking space management and control method further comprises:

the mobile terminal registers on the cloud management platform;

the cloud management platform determines the credit level of the mobile terminal;

and if the credit level meets a preset condition, the cloud management platform sends the Bluetooth secret key list to the mobile terminal.

9. The parking space management and control method according to any one of claims 1 to 8, further comprising:

when the video detection terminal detects that the vehicle leaves the parking space, the video detection terminal controls the parking space lock or the target parking space lock to be closed and reports the parking space lock or the target parking space lock to the cloud management platform;

and the cloud management platform calculates parking cost according to the parking record and sends the parking cost to the mobile terminal.

10. The utility model provides an unmanned on duty's parking stall management and control system, its characterized in that, parking stall management and control system includes: a mobile terminal and a parking spot lock;

the mobile terminal is used for establishing Bluetooth connection with the parking spot lock by scanning the two-dimensional code on the parking spot lock;

the mobile terminal is used for acquiring a target secret key matched with the parking spot lock;

and the mobile terminal is used for controlling the parking spot lock to be unlocked through the target secret key.

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