CN107730977B

CN107730977B - Temporary parking method and device and electronic equipment

Info

Publication number: CN107730977B
Application number: CN201710883852.3A
Authority: CN
Inventors: 魏磊; 杨铮; 董胜龙; 姚金龙; 高楠
Original assignee: Ennew Digital Technology Co Ltd
Current assignee: Ennew Digital Technology Co Ltd
Priority date: 2017-09-26
Filing date: 2017-09-26
Publication date: 2021-06-08
Anticipated expiration: 2037-09-26
Also published as: CN107730977A

Abstract

The invention discloses a temporary parking method, a device and electronic equipment, wherein the method comprises the following steps: receiving a temporary parking request sent by a temporary parking owner through a client, wherein the temporary parking request carries temporary parking time and a destination address; determining a target area with the distance between the target area and the destination address within a preset distance range; according to the temporary parking time, determining parking space information which accords with the temporary parking time from the stored free parking space list of the target area and generating a recommendation list; and sending the recommendation list to the client so that the temporary parking vehicle owner selects one parking space from the recommendation list to temporarily park the vehicle. By adopting the method provided by the invention, the temporary parking owner can temporarily park the vehicle on the fixed parking space of the parking space owner under the condition of not influencing the parking time of the vehicle of the parking space owner, so as to realize temporary parking and effectively solve the problem of difficult temporary parking.

Description

Temporary parking method and device and electronic equipment

Technical Field

The invention relates to the technical field of intelligent traffic, in particular to a temporary parking method, a temporary parking device and electronic equipment.

Background

With the development of social economy, vehicles become indispensable vehicles for users to go out. However, with the increase of the number of vehicles, the supply of the matching parking spaces is obviously insufficient, and many people can have the problem of difficult parking. And the fixed parking stall utilization ratio in the residential quarter is not high in the daytime, and the fixed parking stall of make full use of residential quarter is the effective measure of alleviating the difficulty of parkking under the condition that interim parking stall quantity is not enough. However, when the temporary parking is arranged in the fixed parking space, the parking time of the owner vehicle in the fixed parking space must be considered, so how to realize the temporary parking without affecting the parking time of the owner vehicle in the fixed parking space is one of the technical problems to be solved urgently.

Disclosure of Invention

The temporary parking method, the temporary parking device and the electronic equipment are used for realizing temporary parking under the condition that the parking time of an owner vehicle in a fixed parking space is not influenced, the fixed parking space in a resident target area is fully utilized, and the problem of difficulty in temporary parking is effectively solved.

In a first aspect, an embodiment of the present invention provides a temporary parking method, including:

receiving a temporary parking request sent by a temporary parking vehicle owner through a client, wherein the temporary parking request carries temporary parking time and a destination address expected to be reached by the temporary parking vehicle owner;

determining a target area with the distance between the target area and the destination address within a preset distance range; and are

According to the temporary parking time, determining parking space information which accords with the temporary parking time from a stored free parking space list of the target area and generating a recommendation list;

and sending the recommendation list to the client so that the temporary parking vehicle owner selects one parking space from the recommendation list to temporarily park the vehicle.

Preferably, the temporary parking request also carries a license plate number of the temporary parking vehicle owner; and the method, further comprising:

receiving a parking space reservation request sent by a client, wherein the parking space reservation request is sent after the client receives that a temporary parking vehicle owner selects a parking space from the recommendation list, and the parking space reservation request carries parking space information of the selected parking space;

locking the selected parking space;

judging whether the license plate number of the temporary parking vehicle owner is scanned within a first preset time;

if so, allowing the temporary parking owner to drive the vehicle into the target area to the selected parking space for temporary parking, and charging the vehicle;

and if not, releasing the selected parking space, and sending a result of parking space reservation failure to the client.

Preferably, the parking space reservation request further carries current position information of the temporary parking vehicle owner; and

if a parking space reservation request for the same selected parking space, which is sent by at least one client, is received at the same time, locking the selected parking space specifically includes:

respectively determining the distance between the current position information of the temporary parking car owner carried in each reserved parking space request and the target area; and are

And locking the selected parking space for the nearest temporary parking vehicle owner.

Preferably, after the temporary parking owner is allowed to drive the vehicle into the target area to the selected parking space for temporary parking, and the vehicle is charged, the method further comprises:

when the fact that the actual parking time of the vehicle of the temporary parking vehicle owner in the selected parking space does not exceed the temporary parking time is determined, sending a first charging result to a client of the temporary parking vehicle owner, wherein the first charging result carries a first charging amount; and when the first payment amount sent by the client is determined to be not less than the first charging amount, the temporary parking owner is permitted to drive the vehicle away from the target area.

Optionally, after the temporary parking owner is permitted to drive the vehicle into the target area to the selected parking space for temporary parking, and the vehicle is charged, the method further includes:

when it is determined that the parking time of the vehicle of the temporary parking vehicle owner in the selected parking space reaches the temporary parking time, judging whether a delay request sent by the temporary parking vehicle owner through the client side is received, wherein the delay request carries the delay time of the temporary parking vehicle owner;

if not, sending a notification for indicating that the temporary parking vehicle owner drives away from the target area within a second preset time to the client;

if the judgment result is yes, when the sum of the delay time and the current time is determined to be less than the idle ending time reported by the parking space owner, sending a result of agreeing to delay to the client and carrying out step charging on the delay time; and are

When the delay time is determined to be reached, sending a second charging result to the client of the temporary parking vehicle owner, wherein the second charging result carries a second charging amount; and if the second payment amount sent by the client is determined to be not less than the second charging amount, allowing the vehicle of the temporary parking vehicle owner to drive away from the target area.

Preferably, the free parking space list of the target area is generated according to the following method:

receiving a parking space idle request sent by a parking space owner through a client in the target area, wherein the parking space idle request carries idle starting time and idle ending time of the parking space and account information required by the parking space owner to log in the client;

according to the account information, determining parking space information registered when the parking space owner registers an account on the client; and are

And generating an idle parking space list of the target area according to the idle starting time and the idle ending time carried in the received parking space idle request sent by each parking space owner and the determined parking space information.

Preferably, if it is determined that there is no target area within the preset distance range or there is no free parking space in the target area within the preset distance range, outside the preset distance range, determining an area closest to the destination address as the target area.

In a second aspect, an embodiment of the present invention provides a temporary parking apparatus, including:

the system comprises a first receiving unit, a second receiving unit and a control unit, wherein the first receiving unit is used for receiving a temporary parking request sent by a temporary parking vehicle owner through a client, and the temporary parking request carries temporary parking time and a destination address expected to be reached by the temporary parking vehicle owner;

a first determining unit, configured to determine a target area having a distance to the destination address within a preset distance range;

a second determining unit, configured to determine, according to the temporary parking time, parking space information that matches the temporary parking time from a stored free parking space list of the target area, and generate a recommendation list;

and the sending unit is used for sending the recommendation list to the client so that the temporary parking vehicle owner selects one parking space from the recommendation list to temporarily park the vehicle.

Preferably, the temporary parking request also carries a license plate number of the temporary parking vehicle owner; and the apparatus, further comprising:

a second receiving unit, configured to receive a parking space reservation request sent by a client, where the parking space reservation request is sent by the client after receiving that a temporary parking vehicle owner selects a parking space from the recommendation list, and the parking space reservation request carries parking space information of the selected parking space;

a locking unit for locking the selected parking space;

the first judgment unit is used for judging whether the license plate number of the temporary parking vehicle owner is scanned within first preset time;

a first permitting unit, configured to permit the temporary parking owner to drive the vehicle into the target area to the selected parking space for temporary parking and to charge the vehicle if the determination result of the first determining unit is yes;

and the releasing unit is used for releasing the selected parking space and sending a parking space reservation failure result to the client if the judgment result of the first judging unit is negative.

the locking unit is specifically configured to respectively determine distances between current position information of temporary parking car owners carried in each parking space reservation request and the target area if the parking space reservation requests for the same selected parking space sent by at least one client are received at the same time; and locking the selected parking space for the nearest temporary parking vehicle owner.

Preferably, the apparatus further comprises:

a second permission unit, configured to, after the first permission unit permits the temporary parking vehicle owner to enter the target area to the selected parking space for temporary parking, and charges the vehicle, send a first charging result to the client of the temporary parking vehicle owner when it is determined that an actual parking time of the vehicle of the temporary parking vehicle owner parked in the selected parking space does not exceed the temporary parking time, where the first charging result carries a first charging amount; and when the first payment amount sent by the client is determined to be not less than the first charging amount, allowing the vehicle of the temporary parking vehicle owner to drive away from the target area.

Optionally, the apparatus further comprises:

a second determining unit, configured to determine, after the first permitting unit permits the temporary parking vehicle owner to enter the target area to the selected parking space for temporary parking, and charges the vehicle, whether a delay request sent by the temporary parking vehicle owner through the client is received when it is determined that a parking time of the vehicle of the temporary parking vehicle owner in the selected parking space reaches the temporary parking time, where the delay request carries a delay time of the temporary parking vehicle owner;

a notification unit, configured to send, to the client, a notification indicating that the temporary parking vehicle owner moves away from the target area within a second preset time when a determination result of the second determination unit is negative;

a third determining unit, configured to, when the determination result of the second determining unit is yes, send a result of agreeing to delay to the client and perform step charging on the delay time when it is determined that the sum of the delay time and the current time is smaller than the idle end time reported by the parking space owner; when the delay time is determined to be reached, sending a second charging result to the client of the temporary parking vehicle owner, wherein the second charging result carries a second charging amount; and if the second payment amount sent by the client is determined to be not less than the second charging amount, allowing the vehicle of the temporary parking vehicle owner to drive away from the target area.

Preferably, the apparatus further comprises:

a generating unit, configured to generate a free parking space list of the target area according to the following method: receiving a parking space idle request sent by a parking space owner through a client in the target area, wherein the parking space idle request carries idle starting time and idle ending time of the parking space and account information required by the parking space owner to log in the client; according to the account information, determining parking space information registered when the parking space owner registers an account on the client; and generating an idle parking space list of the target area according to the idle starting time and the idle ending time carried in the received parking space idle request sent by each parking space owner and the determined parking space information.

Preferably, the first determining unit is further configured to determine, outside the preset distance range, an area closest to the destination address as the target area if it is determined that there is no target area within the preset distance range or there is no empty parking space in the target area within the preset distance range.

In a third aspect, an embodiment of the present invention provides a non-volatile computer storage medium storing computer-executable instructions for performing the temporary parking method provided in the present application.

In a fourth aspect, an embodiment of the present invention provides an electronic device, including:

at least one processor; and

a memory communicatively coupled to the at least one processor; wherein the content of the first and second substances,

the memory stores instructions executable by the at least one processor to enable the at least one processor to perform the temporary parking method provided herein.

The invention has the beneficial effects that:

the temporary parking method, the device and the electronic equipment provided by the embodiment of the invention receive a temporary parking request sent by a temporary parking vehicle owner through a client, wherein the temporary parking request carries temporary parking time and a destination address; determining a target area with the distance between the target area and the destination address within a preset distance range; according to the temporary parking time, determining parking space information which accords with the temporary parking time from a stored free parking space list of the target area and generating a recommendation list; and sending the recommendation list to the client so that the temporary parking vehicle owner selects one parking space from the recommendation list to temporarily park the vehicle. By adopting the method provided by the invention, under the condition that the parking time of the vehicle of the fixed parking place owner is not influenced, the temporary parking owner can temporarily park the vehicle on the fixed parking place of the parking place owner so as to realize temporary parking, the problem of difficulty in temporary parking is effectively solved, and the method is particularly suitable for the fixed parking place in a residential target area and realizes temporary parking on the fixed parking place of a residential community.

Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention. The objectives and other advantages of the invention will be realized and attained by the structure particularly pointed out in the written description and claims hereof as well as the appended drawings.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the invention and not to limit the invention. In the drawings:

fig. 1a is a schematic structural diagram of a temporary parking system according to an embodiment of the present invention;

fig. 1b is a schematic view of an interaction flow between a temporary parking owner client a, a vehicle management control center 1, an in-out vehicle door control device 2, and a parking space detection device 3 according to an embodiment of the present invention;

fig. 2 is a schematic flowchart of a method for locking the selected parking space according to an embodiment of the present invention;

fig. 3 is a schematic flowchart of generating a free parking space list according to an embodiment of the present invention;

fig. 4 is a schematic flow chart of a temporary parking method according to a second embodiment of the present invention;

fig. 5 is a schematic structural diagram of a temporary parking apparatus according to a third embodiment of the present invention;

fig. 6 is a schematic hardware structure diagram of an electronic device implementing a temporary parking method according to a fifth embodiment of the present invention.

Detailed Description

The temporary parking method, the device and the electronic equipment provided by the embodiment of the invention are used for realizing temporary parking under the condition that the parking time of an owner vehicle in a fixed parking space is not influenced, fully utilizing the fixed parking space of a residential area and effectively solving the problem of difficulty in temporary parking.

The client side related to the embodiment of the invention is an APP which can realize the functions of initiating a parking space idle request, a temporary parking request, receiving a recommendation list sent by a vehicle management control center, initiating a parking space reservation request, paying parking fees and the like, and the temporary parking owner client side A and the parking space owner client side B described in the embodiment of the invention have the functions. In addition, the target area related to the invention can be a residential area, a scientific and technological park, a market and the like, and the invention can be applied to areas with fixed parking spaces. For convenience of description, the present invention is described by taking a target area as a residential cell as an example.

It should be noted that, in order to realize temporary parking in each residential target area, an entry/exit vehicle door control device and a parking space detection device are provided in each residential target area. The vehicle management control center may manage parking spaces of one residential target area, and may also manage parking spaces of a plurality of residential target areas. Currently, the respective residential target areas are relatively dense, and therefore, a plurality of residential target areas, which are relatively close in position, can be managed by the vehicle management control center. The vehicle management control center can update the stored free parking space lists of all target areas in real time, so that after receiving a temporary parking request sent by a temporary parking vehicle owner through a client, the vehicle management control center determines a recommended list for the temporary parking vehicle owner according to the temporary parking request and displays the recommended list to the temporary parking vehicle owner through the client, and the temporary parking vehicle owner can select a parking space from the recommended list to perform temporary parking.

The preferred embodiments of the present invention will be described below with reference to the accompanying drawings of the specification, it being understood that the preferred embodiments described herein are merely for illustrating and explaining the present invention, and are not intended to limit the present invention, and that the embodiments and features of the embodiments in the present invention may be combined with each other without conflict.

Example one

As shown in fig. 1a, a schematic structural diagram of a temporary parking system according to an embodiment of the present invention includes a vehicle management control center 1, an in-out vehicle door control device 2, a parking space detection device 3, a mobile terminal a provided with a client, and a mobile terminal B provided with a client, where the mobile terminal a provided with a client may be a mobile terminal of a temporary parking owner, and the mobile terminal B provided with a client may be a mobile terminal of a parking owner having a fixed parking space, for example, a mobile terminal of a parking owner in a residential target area. In specific implementation, because the temporary parking owner or the parking space owner interacts with the vehicle management control center 1 through the built-in client in the mobile terminal, for convenience of description, the mobile terminal a provided with the client is represented by the temporary parking owner client a, and the mobile terminal B provided with the client is represented by the parking space owner client B in the following interaction process, so that when the temporary parking owner client a needs to perform temporary parking, the interaction process schematic diagram between the temporary parking owner client a and the vehicle management control center 1, the in-and-out vehicle door control device 2, and the parking space detection device 3 can be referred to fig. 1B, and the method includes the following steps:

s11, the temporary parking owner client A sends a temporary parking request to the vehicle management control center 1, wherein the temporary parking request carries temporary parking time and a destination address which the temporary parking owner expects to arrive.

In specific implementation, when the temporary parking vehicle owner needs to temporarily park, the temporary parking vehicle owner sends a temporary parking request to the vehicle management control center 1 through the client a, so that the vehicle management control center 1 arranges a parking space for the temporary parking vehicle owner in an area closer to the destination address according to the received temporary parking request, and if the destination address is closer to the residential target area or in the residential target area, the temporary parking vehicle owner can arrange a parking space for temporary parking in a fixed parking space in the residential target area.

When the temporary parking vehicle owner goes to the destination address for transaction, when the destination address is close to the residential target area, in order to facilitate the temporary parking vehicle owner to perform temporary parking near the destination address, the temporary parking vehicle owner can send a temporary parking request to the vehicle management control center 1 through the client, and the temporary parking request carries the destination address which the temporary parking vehicle owner expects to reach.

Before sending the temporary parking request to the vehicle management control center 1, the client a further includes:

and sending a registration request to the vehicle management control center 1, wherein the registration request carries a user name and a password set by the temporary parking vehicle owner, and the temporary parking request can also add information of the vehicle owned by the temporary parking vehicle owner, such as license plate number information and the like. After receiving a registration request of a temporary parking vehicle owner, the vehicle management control center 1 passes the authentication of the temporary parking vehicle owner and sends a successful registration result to the client A; and on the other hand, storing the registration information of the temporary parking owner. After the temporary parking vehicle owner sends the temporary parking request to the vehicle management control center through the client A, a log can be established for the temporary parking vehicle owner, all records of the temporary parking vehicle owner from the initiation of the temporary parking request to the entering of the target area for temporary parking until the payment is carried out of the target area are recorded in the log, for example, the vehicle management control center can add the user name, the temporary parking time, the destination address and other contents of the temporary parking vehicle owner to the log of the temporary parking vehicle owner, and the vehicle management control center 1 can determine the information of the target area according to the destination address, and after the subsequent temporary parking vehicle owner sends the reserved parking space request, the parking space information selected by the temporary parking vehicle owner can be added to the log, and the like.

Preferably, the log can also record the evaluation and suggestion information of the temporary parking car owners for the temporary parking, so that the vehicle management control center maintains and improves the temporary parking system according to the stored evaluation and suggestion provided by each temporary parking car owner, and more convenience is provided for users.

It should be noted that, when the user enters the client a for registration, the user name is unique, that is, different users can only register with different user names, for example, register with a mobile phone number.

And S12, the vehicle management control center 1 determines a target area with the distance between the target area and the destination address within a preset distance range.

In specific implementation, the vehicle management control center 1 may select, according to a destination address that a temporary parking vehicle owner desires to reach and carried in the temporary parking request, a target area whose distance from the destination address is within a preset range at the background. The preset distance range can be but is not limited to 50-200 meters and the like. The vehicle management control center can change the preset distance range according to the requirement. For example, in order to avoid that the temporary parking vehicle owner has a shorter step distance after parking, the preset distance range may be appropriately narrowed, such as reducing the end point value at the right end of the preset distance range.

In specific implementation, when a target area whose distance from the target address is within a preset distance range is determined, a landmark point in the target area may be used as a reference point to determine a distance between the reference point and the target address. And if the target address is the mall, determining the distance between the target address and the doorway of the mall by taking the position of the doorway of the mall as a reference point. Specifically, a residential area is generally provided with a plurality of doors, and the distance between the door closest to the destination address and the destination address can be determined.

Preferably, if it is determined that there is no target area within the preset distance range or there is no free parking space in the target area within the preset distance range, outside the preset distance range, determining an area closest to the destination address as the target area. The process of steps S13 to S116 is then executed again.

Preferably, the destination address may be an address of a target area, and the like, and the address of the target area may be an XX unit of a residential quarter XX unit.

S13, the vehicle management control center 1 determines parking space information corresponding to the temporary parking time from the stored free parking space list of the target area according to the temporary parking time, and generates a recommendation list.

In specific implementation, after the vehicle management control center 1 determines the target area, since there may be more than one target area satisfying the preset distance range, the vehicle management control center 1 may determine, for each target area satisfying the condition, parking space information meeting the temporary parking time from the stored free parking list of the target area according to the temporary parking time, and generate a recommendation list. Then, the vehicle management control center 1 may determine a recommendation list of each target area that meets a preset distance range, and push the recommendation list to the temporary parking vehicle owner through the temporary parking vehicle owner client a. The temporary parking vehicle owner can firstly select a recommendation list of a target area according to the recommendation lists of all the target areas, and then select a parking space from the selected recommendation list to perform temporary parking. The vehicle management control center 1 provides multiple choices within a preset distance range for the temporary parking vehicle owner, and the temporary parking vehicle owner can select a target area to temporarily park according to own will.

Preferably, when it is determined that a plurality of target areas meeting the preset distance range exist in the vehicle management control center 1, one target area closest to the target can be selected from the plurality of target areas, then a recommendation list is determined from the closest target area, the recommendation list is displayed to the temporary parking vehicle owner through the temporary parking vehicle owner client a, only an idle parking space in the target area closest to the temporary parking vehicle owner is recommended to the temporary parking vehicle owner, and the temporary parking vehicle owner only needs to select one parking space for temporary parking, so that the method is suitable for selecting a vehicle owner with difficulty, and convenience is provided for the vehicle owner with difficulty in selecting.

Preferably, the parking space information may include, but is not limited to, a parking space identifier, a distance between the parking space and the destination address, an allowed parking time, parking space address information, and the like.

Preferably, if it is determined that the destination address is an address of a target area, if the target area has an empty parking space, the parking space information corresponding to the temporary parking time may be directly determined from an empty parking space list of the target area corresponding to the destination address, and a recommendation list may be generated.

And S14, the vehicle management control center 1 sends the recommendation list to the temporary parking vehicle owner client A.

Specifically, the recommendation list may include parking space information satisfying the temporary parking time in the target area.

Preferably, since the parking space information includes the allowable parking time, the vehicle management control center 1 may arrange the parking space information according to the order of the allowable parking time satisfying the temporary parking time from large to small when generating the recommendation list, and select a preset number of parking space information to generate the recommendation list. And if the parking spaces meeting the temporary parking time are less than the preset number, generating a recommendation list of all the parking space information meeting the conditions. The format of the recommendation list may refer to table 1:

TABLE 1

Serial number	Parking space information
		1	Parking space information 1
2	Parking space information 2
		3	Parking space information 3
……	……

And S15, selecting a temporary parking space from the recommendation list by the temporary parking vehicle owner client A according to the recommendation list.

In specific implementation, after receiving the recommendation list, the temporary parking vehicle owner client displays the recommendation list to the temporary parking vehicle owner, and the temporary parking vehicle owner can select one parking space from the recommendation list to perform temporary parking.

Specifically, the vehicle management control center 1 sends, to each parking space information in the recommendation list to the client a, the allowable parking time in each parking space information is generally equal to or greater than the temporary parking time, and if the temporary parking owner feels that the time for parking the vehicle is longer than the reported temporary parking time, the parking space with the allowable parking time greater than the temporary parking time may be selected for temporary parking.

And S16, the temporary parking vehicle owner client A sends a parking space reservation request to the vehicle management control center 1.

Specifically, after the temporary parking vehicle owner selects a parking space, the temporary parking vehicle owner needs to send the parking space to the vehicle management control center 1 through the client a, that is, the client a sends a parking space reservation request to the vehicle management control center 1, where the parking space reservation request carries the selected parking space information. So that the vehicle management control center locks the parking space for it, that is to say marks that the parking space is currently occupied in the free parking space list of the target area.

And S17, after receiving the parking space reservation request, the vehicle management control center 1 locks the selected parking space.

Specifically, if the vehicle management control center 1 sends at least two recommendation lists to the client a, after the client a selects a parking space from the at least two recommendation lists, when sending a request for reserving a parking space to the vehicle management control center 1, the request also needs to carry identification information of a target area corresponding to the selected parking space information, so that the vehicle management control information firstly finds an idle parking space list corresponding to the identification information of the target area according to the received identification information of the target area, then finds the received parking space information from the idle parking space list according to the received parking space information, and marks the idle parking space list as occupied, and if the target area is a residential area, the identification information is the name of the residential area.

If the vehicle management control center 1 only sends one recommendation list to the client a, the client a only needs to carry the selected parking space information when sending the parking space reservation request to the vehicle management control center 1. Since the temporary parking car owner carries the user name during registration when sending various requests to the vehicle management control center 1, the vehicle management control center 1 can find the log with the user name according to the user name after receiving the parking space reservation request, then can find the identification information of the target area recommended for the temporary parking car owner from the log, then find the idle parking space list corresponding to the identification information of the target area, and find the received parking space information in the idle parking space list according to the received parking space information and mark the parking space information as occupied.

Preferably, the parking space reservation request further carries current position information of the temporary parking vehicle owner; and if an appointment parking space request for the same selected parking space, which is sent by at least one client, is received at the same time, when step S17 is executed, that is, the selected parking space is locked, specifically including the flow shown in fig. 2, including the following steps:

and S21, respectively determining the distance between the current position information of the temporary parking car owner carried in each reserved parking space request and the target area.

In specific implementation, at the same time, the vehicle management control center 1 may receive a parking space reservation request for the same selected parking space, which is sent by more than one client, and the vehicle management control center 1 may determine the distance between the location information of each client and the target area according to the current location information of each client, and because a temporary parking owner with a relatively long distance arrives at the target area for a long time, and a temporary parking owner with a relatively short distance arrives at the target area for a short time, the vehicle management center 1 may reserve the selected parking space to a client with a relatively short distance from the target area, so that the parking space may be used as early as possible.

And S22, locking the selected parking space for the nearest temporary parking vehicle owner.

After determining the distance between each piece of position information and the target area, the vehicle management control center 1 locks the selected parking space for the temporary parking owner closest to the target area, and simultaneously sends a result of the reservation request failure to the client a of the other temporary parking owner, and sends a new push list to each client a again, so that the other temporary parking clients select the parking space from the new push list to perform temporary parking according to the received new push list.

And S18, the vehicle management control center 1 sends the license plate number of the temporary parking owner to the in-out vehicle door control device 2.

Specifically, after the temporary parking vehicle owner sends the parking space reservation request through the client a, the vehicle management control center 1 cannot always lock the selected parking space for the temporary parking vehicle owner. When the temporary parking owner has something else to temporarily change the destination, if the vehicle management control center 1 locks the selected parking space for the temporary parking owner all the time, the parking space cannot provide service for other temporary parking owners.

In order to solve the problem, in the first embodiment of the present invention, a first preset time is set, and the temporary parking request further carries a license plate number of the temporary parking vehicle owner; after locking the selected parking space, the vehicle management control center 1 sends the license plate number of the temporary parking vehicle owner to the in-out vehicle door control device 2, so that the in-out vehicle door control device 2 determines whether the license plate number of the temporary parking vehicle owner is scanned.

And S19, if the vehicle management control center 1 receives a response that the entering and exiting vehicle door control device 2 scans the license plate number within a first preset time, sending an instruction for allowing the temporary parking owner to drive the vehicle into the target area and temporarily park the vehicle in the selected parking space to the entering and exiting vehicle door control device 2.

In specific implementation, the vehicle management control center 1 starts timing after locking the selected parking space, and sends an instruction for allowing the vehicle to enter the target area to the in-out vehicle door control device 2 if a response of scanning the license plate number sent by the in-out vehicle door control device 2 is received when the timing time does not reach or just reaches a first preset time.

And S110, the in-out vehicle door control device 2 opens a door of a target area according to the instruction, so that the temporary parking owner drives the vehicle into the target area and temporarily parks the vehicle in the selected parking space.

And the in-out vehicle door control device 2 drives the door to be opened after receiving the indication. And after seeing that the gate is opened, the temporary parking vehicle owner can drive the vehicle into the target area and temporarily park the vehicle at the selected parking place.

Preferably, the vehicle management control center 1 displays the parking space map of the target area to the user while sending the recommendation list to the client, and after the temporary parking owner drives the vehicle into the target area, the approximate position of the selected parking space information can be approximately known according to the parking space map of the target area; preferably, the developer of the client may cooperate with a third-party map, the temporary parking vehicle owner clicks the selected client on the client a after entering the target area, and then starts the third-party map to plan a route to the selected parking space for the temporary parking vehicle owner, and the temporary parking vehicle owner may reach the selected parking space according to the route planned for the temporary parking vehicle owner by the third party, which is more convenient for the temporary parking vehicle owner.

The third party map may be, but is not limited to, a high-grade map, a Baidu map, a dog search map, and the like.

Preferably, the parking space in the target area is paid by the parking space owner in the target area, so in order to guarantee the benefit of the parking space owner, the temporary parking method provided by the invention executes paid parking when the parking space is provided for the temporary parking owner, that is, when the temporary parking owner drives into the target area within the first preset time, the temporary parking owner starts to be charged.

And S111, the vehicle management control center 1 sends the selected parking space information and the license plate number to the parking space detection equipment 3.

Specifically, in order to avoid the temporary parking owner from parking its vehicle to the wrong parking space, the vehicle management control center 1 may send the license plate number of the temporary parking owner and the selected parking space thereof to the parking space detection apparatus 3.

S112, the parking space detection apparatus 3 determines whether the temporarily parked vehicle is parked to the selected parking space.

Specifically, the parking space detection device 3 starts the license plate number detection device at the parking space according to the received selected parking space information, and the license plate number detection device can scan the license plate number of the vehicle parked at the parking space and feed back the scanned license plate number to the parking space detection device 3. The parking space detection device 3 judges whether the license plate number obtained by scanning is consistent with the license plate number fed back by the vehicle management control center 1, and if so, feeds back a correct parking result to the vehicle management control center 1.

S113, if the parking space detection device 3 determines that the parking space is not present, the wrong parking result is fed back to the vehicle management control center 1.

S114, the vehicle management control center 1 sends an instruction of parking to the correct parking space to the temporary parking owner client A.

And if the parking positions are inconsistent, the wrong parking result is fed back to the vehicle management control center 1, and the vehicle management control center 1 sends the indication that the parking position is wrong and the parking position is required to be parked to the correct parking space to the client A according to the received result.

S115, the client A of the temporary parking vehicle owner shows the instruction to the temporary parking vehicle owner so that the temporary parking vehicle owner can park the vehicle to the determined parking space.

Specifically, after seeing the instruction from the vehicle management control center, the temporary parking vehicle owner parks the vehicle to the correct parking space, that is, the selected parking space.

Preferably, in addition to performing the processes of steps S111 to S113 to determine whether the temporary parking owner parks his vehicle in the correct parking space, the following steps may be performed: the vehicle management control center 1 only sends the parking space information to the parking space detection equipment 3, after the parking space detection equipment 3 receives the parking space information, a license plate number detection device at the parking space is started, the license plate number detection device collects license plate numbers of vehicles parked at the parking space, then the parking space detection equipment feeds back the collected license plate numbers to the vehicle management control center 1, the vehicle management control center 1 determines whether the collected license plate numbers are consistent with license plate numbers of temporary parking owners, and if not, the steps S114-S115 are executed.

Preferably, the license plate number detection device may include a camera and an image processing module, the camera collects vehicle information at the parking space, and then the image processing module identifies the license plate number of the vehicle from the collected vehicle information.

Since the execution processes of steps S110 to S115 are all executed when the vehicle management control center 1 receives the response that the vehicle access door control device 2 scans the license plate number within the first preset time in step S19, and it is certain that the license plate number is not scanned within the first preset time in the actual process, step S116 of the present invention provides an execution process when the vehicle management control center 1 does not receive the response that the vehicle access door control device 2 scans the license plate number within the first preset time, as follows:

s116, if the response that the license plate number is scanned by the vehicle door control device 2 is not received within the first preset time, the vehicle management control center 1 sends the result that the parking space reservation fails to the temporary parking owner client A.

In specific implementation, the vehicle management control center 1 starts timing after locking the selected parking space, and if the response of scanning the license plate number sent by the in-out vehicle door control device 2 is not received when the timing time reaches the first preset time, the temporary parking vehicle owner can be instructed to reserve again in addition to sending the result of the parking space reservation failure to the client a.

Preferably, the parking space reservation request further carries current position information of the temporary parking vehicle owner;

preferably, the list of free parking spaces involved in steps S11-S116 may be generated according to the method shown in fig. 3, which may include the following steps:

and S31, receiving a parking space vacancy request sent by the parking space owner in the target area through the client B.

The parking space idle request carries the idle starting time and the idle ending time of the parking space and account information required by the parking space owner to log in the client.

In specific implementation, after the parking space owner drives a vehicle and leaves the parking space, the parking space owner client B can be used to send a parking space vacancy request to the vehicle management control center 1.

And S32, determining the parking space information registered by the parking space owner when the account is registered on the client according to the account information.

In specific implementation, when a parking space owner rents a parking space outwards by using the client B, the parking space owner needs to register first, and the parking space owner can fill in account information, the parking space information and license plate number information during registration. After receiving the parking space vacancy request, the vehicle management control center 1 determines parking space information registered during registration according to account information carried in the request.

And S33, generating an idle parking space list of the target area according to the idle starting time and the idle ending time carried in the received parking space idle request sent by each parking space owner and the determined parking space information.

It should be noted that, in the first embodiment of the present invention, not all the steps S11 to S116 are executed, and since the steps S11 to S116 relate to the determination process, it can be easily understood that the step to be executed subsequently when the determination result at the same time is yes and the step to be executed subsequently when the determination result is no can only be executed one. For example, step S19 and step S116 are selectively performed.

The embodiment of the invention provides a temporary parking method, which comprises the steps of receiving a temporary parking request sent by a temporary parking vehicle owner through a client, wherein the temporary parking request carries temporary parking time and a destination address; determining a target area with the distance between the target area and the destination address within a preset distance range; according to the temporary parking time, determining parking space information which accords with the temporary parking time from the stored free parking space list of the target area and generating a recommendation list; and sending the recommendation list to the client so that the temporary parking vehicle owner selects one parking space from the recommendation list to temporarily park the vehicle. By adopting the method provided by the invention, the temporary parking owner can temporarily park the vehicle on the fixed parking space of the parking space owner under the condition of not influencing the parking time of the vehicle of the parking space owner, so as to realize temporary parking, effectively solve the problem of difficult temporary parking, and be particularly suitable for temporary parking on the fixed parking space of the parking space owner in a residential quarter.

Example two

On the basis of the first embodiment of the present invention, in order to achieve the effect of mutual benefits and reciprocity between a parking space owner, a temporary parking vehicle owner, and a property (e.g., a residential quarter property) for managing the target area, on the basis of the first embodiment of the present invention, after step S19 in the first embodiment of the present invention is executed, the method further includes the process shown in fig. 4, including the following steps:

and S41, the vehicle management control center 1 determines the actual parking time of the vehicle of the temporary parking owner in the selected parking space.

In specific implementation, the vehicle management control center 1, when allowing the temporary parking owner to drive the vehicle into the target area to the selected parking space for temporary parking, and charging the vehicle, includes: when the vehicle management control center starts timing at the time when the entry/exit vehicle door control device 2 transmits the permission instruction, that is, when step S19 is executed in the first embodiment, the time when the permission instruction is transmitted is recorded as t1, and then the time is taken as the parking time of the temporary parking vehicle owner. When the parking space detection device 3 detects that the vehicle located in the selected parking space is driven out of the parking space, reporting the time when the temporary parking owner is driven out of the selected parking space to the vehicle management control center 1, which is recorded as t2, so that the actual parking time when the vehicle of the temporary parking owner is parked in the selected parking space can be obtained as t2-t 1.

Because the temporary parking time is carried in the temporary parking request sent by the temporary parking vehicle owner client A to the vehicle management control center 1, if the actual parking time is determined not to be greater than the temporary parking time, the temporary parking vehicle owner leaves the parking space in advance or just leaves the parking space, and then the temporary parking is charged according to the normal charging unit price.

And S42, when the actual parking time is determined not to exceed the temporary parking time, sending a first charging result to the temporary parking vehicle owner client A.

In specific implementation, when determining that the actual parking time is not greater than the temporary parking time, the vehicle management control center 1 determines the parking fee, namely a first charging amount, of the temporary parking vehicle owner for the temporary parking according to the actual parking time and the charging unit price, and feeds the first charging amount carried in a first charging result back to the temporary parking vehicle owner client a.

S43, the vehicle management control center 1 receives a first payment amount fed back by the temporary parking vehicle owner client A, judges whether the first payment amount is smaller than a first charging amount carried in the first charging result, and if not, executes the step S44; if so, step S415 is performed.

The temporary parking vehicle owner client A receives a first charging amount fed back by the vehicle management control center 1, and then shows the first charging amount to the temporary parking vehicle owner so that the temporary parking vehicle owner pays the temporary parking fee to the vehicle management control center 1, and specifically, the temporary parking vehicle owner can send the first payment amount to the vehicle management control center through the client A, and if the received first payment amount is determined not to be less than the first charging amount, the temporary parking vehicle owner drives the vehicle away from the target area, and the step S44 can be executed. Therefore, the parking space owner can provide the temporary parking space for the temporary parking car owner, the problem of parking difficulty of the temporary parking car owner is avoided, meanwhile, the parking space owner carries out temporary parking through compensation, and the economic benefit of the parking space owner is guaranteed not to be lost.

In specific implementation, the temporary parking vehicle owner client a may cooperate with a third party payment platform, such as a payment bank, a WeChat card, a bank card, etc., and then the temporary parking vehicle owner client a starts the third party payment platform when paying the first payment amount to the vehicle management control center 1, and then pays the first payment amount through the third party payment platform.

Preferably, the temporary parking vehicle owner can also pay for the fee manually at the vehicle door control device 2.

S44, when the determination result is negative, the vehicle management control center 1 sends an instruction to the in-out vehicle door control apparatus 2 to permit the temporary stopping owner to drive the vehicle away from the target area.

Specifically, when the vehicle management control center 1 determines that the first payment amount is not less than the first charging amount in the first charging result, indicating that the payment amount of the temporary parking owner is sufficient, then sending an indication for allowing the temporary parking owner to drive the vehicle away from the target area to the in-and-out vehicle door control device 2.

And S45, opening a door gate by the in-out vehicle door control device 2 according to the instruction, so that the temporary vehicle stopping owner drives the vehicle away from the target area.

Further, when the vehicle management control center 1 reaches the temporary parking time in the counted time, and after detecting that the vehicle of the temporary parking owner is still parked in the selected parking space, the temporary parking owner may send a delay request to the vehicle management control center 1, so that the vehicle management control center 1 performs the steps of steps S46 to S416, and provides better parking service for the temporary parking owner.

S46, when the current parking time reaches the temporary parking time, the vehicle management control center 1 judges whether a delay request sent by the temporary parking owner through the client side is received, if so, the step S47 is executed; otherwise, step S412 is executed.

Specifically, when the current parking time obtained by timing reaches the temporary parking vehicle, it indicates that the temporary parking vehicle owner should drive out of the selected parking space, but the temporary parking vehicle owner does not drive out the vehicle from the selected parking space, the vehicle management control center 1 further needs to detect whether a delay request sent by the temporary parking vehicle owner through the client a is received.

Preferably, the vehicle management control center 1 may set a time period, that is, whether the vehicle management control center receives the delay request sent by the temporary parking vehicle owner through the client a in the time period, where the delay time period may be 5 minutes and the like.

S47, the vehicle management control center 1 judges whether the sum of the delay time and the current time is less than the idle ending time reported by the parking space owner, if so, the step S48 is executed; otherwise, step S49 is executed.

In specific implementation, when the vehicle management control center 1 recommends a temporary position for the temporary parking owner according to the temporary parking time, the recommended free parking time of the free parking space is generally greater than or equal to the temporary parking time, so after receiving the delay request, the vehicle management control center 1 may determine whether the sum of the delay time and the current time is less than the free end time reported by the parking space owner, for example, the delay time is 30 minutes, the current time is 15 o ' clock 30 minutes, and the free end time reported by the parking space owner is 16 o ' clock 30 minutes, may determine that the sum of the delay time and the current time is 16 o ' clock, and easily obtain that 16 o ' clock is less than 16 o ' clock 30 minutes of the free end time, and then send a result of agreeing to delay to the temporary parking owner client a.

S48, the vehicle management control center 1 sends the result of agreeing to delay to the temporary parking vehicle owner client A and carries out step charging on the delay time.

In specific implementation, after agreeing with the delay request of the temporary parking owner, the vehicle management control center 1 performs step charging on the delay time, for example, the temporary parking time is charged according to a normal charging unit price, and the delay time is charged according to a step charging mode, and the conventional step charging method is all suitable for the invention.

In specific implementation, when it is determined that the sum of the temporary time and the current time is greater than the idle end time reported by the temporary parking vehicle owner, in order to better provide service for the temporary parking vehicle owner and bring great convenience to the temporary parking vehicle owner, the present invention provides a process that can be executed in steps S49 to S412:

and S49, the vehicle management control center 1 sends a delay inquiry request to the parking space owner client B, wherein the delay inquiry request carries the delay time.

In specific implementation, when the vehicle management control center 1 determines that the sum of the temporary time and the current time is greater than the idle end time reported by the temporary parking owner, and the owner of the parking space is not detected to return to the parking space, the vehicle management control center may send a delay inquiry request to the client B of the parking space owner.

And S410, the parking place owner client B sends a delayed response result to the vehicle management control center 1.

After receiving the delay inquiry request, the client B predicts the time for the client B to return to the target area, and then feeds back a response result of agreeing to delay to the vehicle management control center 1 if it is determined that the delay time in the delay inquiry request is less than the time for returning to the target area, or feeds back a response result of disagreeing to delay.

Preferably, when the parking space owner sends the parking space vacancy request through the client B, the parking space vacancy request may also carry a contact manner of the parking space owner. If the vehicle management control center 1 detects that the response result fed back by the client B is not received within the third preset time, the vehicle management control center may inquire whether to agree to delay time in a call mode according to the contact mode of the parking lot owner.

S411, the vehicle management control center 1 judges whether the delay response result is the consent delay, if yes, the step S48 is executed; otherwise, step S412 is executed.

S412, the vehicle management control center 1 sends a notification for indicating that the temporary parking vehicle owner drives away from the parking space within a second preset time to the temporary parking vehicle owner client A.

And if the received response result is not the delay time, the vehicle management control center 1 indicates a notification that the vehicle leaves the parking space within a second preset time to the temporary parking vehicle owner through the client A.

Because the temporary parking owner may not be currently in the target area, the second preset time is set in the application.

Preferably, the temporary parking request may further carry a contact manner of the temporary parking vehicle owner, and when the second preset time is reached, if it is detected that the temporary parking vehicle owner has not driven the vehicle away from the parking space, the vehicle management control center 1 dials the contact manner, and notifies the temporary parking vehicle owner to drive away from the parking place in a voice call manner.

If the temporary parking owner does not leave the parking space within the fourth preset time, on one hand, a parking fee charging mode can be adopted to make up the parking space owner, and on the other hand, the vehicle of the temporary parking owner can be forced to leave the parking space.

Preferably, when determining that the delay time has arrived, the vehicle management control center 1 may further perform the processes of steps S413 to S416:

and S413, when the vehicle management control center 1 determines that the delay time is reached, sending a second charging result to the client of the temporary parking vehicle owner.

For example, the temporary parking time of the temporary parking owner is 5 hours, the normal billing unit price is 5 yuan/hour, and if the temporary parking owner drives away from the selected parking space within the temporary parking time, the first billing amount is calculated in the following manner: actual parking time 5 yuan/hour; if the temporary parking owner sends a delay request when the timing time reaches the temporary parking time, and the sum of the delay time and the current time obtained by calculation is smaller than the idle ending time reported by the parking space owner, the calculation mode of the second charging amount should be as follows: and determining the gradient unit price corresponding to the delay time according to the gradient corresponding to the delay time, and then calculating the second charging amount according to the delay time and the gradient unit price. For example, the delay time is 1 hour, and the tiered charging rule is shown in table 2:

TABLE 2

Time delay (hours)	Step charging unit price
		Not more than 0.5	Unit price 1
0.5～1.0	Unit price 2
		1.0～2.0	Monovalent 3
……	……

The time-lag time interval in table 1 is left open and right closed, that is, the actual range represented by 0.5 to 1.0 is (0.5, 1), and further, taking the example of the temporary stop time being 5 hours and the time-lag time being 1 hour as an example, the second billing amount should be 5 × normal billing unit price +1 × unit price 2.

S414, the vehicle management control center 1 receives a second payment amount fed back by the temporary parking vehicle owner client A, judges whether the second payment amount is smaller than a second charging amount carried in the second charging result, and if not, executes the steps S44 and S45; otherwise, step S415 is executed.

In specific implementation, reference may be made to the implementation manner of step S43, and repeated details are not repeated.

S415, the vehicle management control center 1 sends a response result that the payment amount is incorrect to the temporary parking vehicle owner client A;

in specific implementation, when it is determined in step S43 that the first payment amount paid by the client a does not satisfy the first charging amount or it is determined in step S414 that the second payment amount paid by the client a is less than the second charging amount, step S415 is executed to enable the temporary parking vehicle owner to pay a correct amount.

And S416, the temporary parking vehicle owner client A pays the correct payment amount to the vehicle management control center 1 according to the received response result that the payment amount is incorrect.

In specific implementation, the flows shown in fig. 4 in the second embodiment of the present invention are not all executed, and fig. 4 relates to a determination process, so it is easy to understand that the flow executed after the determination result is yes and the flow executed when the determination result is no are selectively executed. For example, when the judgment result of the step S45 is yes, the step S46 is performed, and the step S411 is not performed accordingly.

Preferably, if the vehicle management center 1 does not receive the delay request sent by the temporary parking owner through the client a, or the vehicle management control center 1 forwards the delay sending request to the parking place owner client B and receives the response result of the disapproval delay fed back by the client B, the vehicle management control center 1 may send a recommendation list satisfying the delay time to the temporary parking owner again according to the delay time, so that the temporary parking owner selects a parking place from the recommendation list for temporary parking, drives the vehicle out of the current parking place after the temporary parking owner selects the vehicle, then temporarily parks the vehicle in the newly selected parking place, and charges the vehicle according to a normal manner. Although the paid charging amount is (temporary parking time + delay time) × normal charging amount, when the vehicle management control center 1 allocates the amount, the vehicle management control center needs to allocate the preset proportion of the temporary parking time × (normal) charging amount to the first parking space; and then allocating the delay time to the second parking space which is newly selected according to the preset proportion of the normal charging amount.

In the embodiment of the invention, the temporary vehicle parking system based on the target area is possibly managed by the property, and a part of the amount paid by the temporary parking owner is also required to be allocated to the property, and the allocation of the amount can be determined by the negotiation between the parking space owner and the property, so that the mutual benefit and the benefit among the parking space owner, the temporary parking owner and the property of managing the target area are realized.

In the temporary parking method provided by the second embodiment of the present invention, the vehicle management control center 1 determines an actual parking time for the vehicle of the temporary parking vehicle owner to park in the selected parking space, and sends a first charging result to the temporary parking vehicle owner client a when it is determined that the actual parking time does not exceed the temporary parking time; and receiving a first payment amount fed back by the temporary parking owner client A, judging whether the first payment amount is smaller than a first charging amount carried in the first charging result, and sending an instruction for allowing the temporary parking owner to drive the vehicle away from the target area to the in-and-out vehicle door control equipment 2 if the first payment amount is not smaller than the first charging amount carried in the first charging result. Therefore, the temporary parking of the temporary parking car owner is realized, and the effect of mutual benefits and mutual benefits between the parking place owner of the temporary parking car and the property of the target area is realized through the design payment function.

EXAMPLE III

Based on the same inventive concept, the embodiment of the invention also provides a temporary parking device, and as the principle of solving the problems of the device is similar to that of the temporary parking method, the implementation of the device can refer to the implementation of the method, and repeated parts are not described again.

As shown in fig. 5, a schematic structural diagram of a temporary parking apparatus provided in a third embodiment of the present invention includes: a first receiving unit 51, a first determining unit 52, a second determining unit 53 and a transmitting unit 54, wherein:

the system comprises a first receiving unit 51, a first storage unit, a first processing unit and a second receiving unit, wherein the first receiving unit 51 is used for receiving a temporary parking request sent by a temporary parking owner through a client, and the temporary parking request carries temporary parking time and a destination address expected to be reached by the temporary parking owner;

a first determination unit 52 that determines a target area having a distance to the destination address within a preset distance range;

a second determining unit 53, configured to determine, according to the temporary parking time, parking space information that meets the temporary parking time from a stored free parking space list of the target area, and generate a recommendation list;

a sending unit 54, configured to send the recommendation list to the client, so that the temporary parking owner selects a parking space from the recommendation list to temporarily park a vehicle.

a locking unit for locking the selected parking space;

Preferably, the apparatus further comprises:

the second permission unit is used for allowing the temporary parking owner to drive the vehicle into the target area to the selected parking space for temporary parking and charging the vehicle, and then sending a first charging result to the client of the temporary parking owner when the fact that the actual parking time of the vehicle of the temporary parking owner in the selected parking space does not exceed the temporary parking time is determined, wherein the first charging result carries a first charging amount; and when the first payment amount sent by the client is determined to be not less than the first charging amount, allowing the vehicle of the temporary parking vehicle owner to drive away from the target area.

Preferably, the apparatus further comprises:

a third determining unit, configured to, if the determination result of the second determining unit is yes, send a result of agreeing to delay to the client and perform step charging on the delay time if it is determined that the sum of the delay time and the current time is smaller than the idle end time reported by the parking space owner; when the delay time is determined to be reached, sending a second charging result to the client of the temporary parking vehicle owner, wherein the second charging result carries a second charging amount; and if the second payment amount sent by the client is determined to be not less than the second charging amount, allowing the vehicle of the temporary parking vehicle owner to drive away from the target area.

Preferably, the apparatus further comprises:

Preferably, the first determining unit 52 is further configured to determine, outside the preset distance range, a nearest area of the destination address as the target area if it is determined that there is no target area within the preset distance range or there is no free parking space in the target area within the preset distance range.

For convenience of description, the above parts are separately described as modules (or units) according to functional division. Of course, the functionality of the various modules (or units) may be implemented in the same or in multiple pieces of software or hardware in practicing the invention. For example, the temporary parking apparatus provided by the third embodiment of the present invention may be disposed in a vehicle management control center, and the vehicle management control center determines a recommendation list for a temporary parking vehicle owner according to a temporary parking request sent by the temporary parking vehicle owner through a client, so that the temporary parking vehicle owner selects one parking space according to the recommendation list to perform temporary parking.

Example four

An embodiment of the present application provides a nonvolatile computer storage medium, where the computer storage medium stores computer-executable instructions, and the computer-executable instructions may execute the temporary parking method in any method embodiment.

EXAMPLE five

Fig. 6 is a schematic diagram of a hardware structure of an electronic device for implementing a temporary parking method according to a sixth embodiment of the present invention, and as shown in fig. 6, the electronic device includes:

one or more processors 610 and a memory 620, with one processor 610 being an example in fig. 6.

The electronic device performing the temporary parking method may further include: an input device 630 and an output device 640.

The processor 610, the memory 620, the input device 630, and the output device 640 may be connected by a bus or other means, such as the bus connection in fig. 6.

The memory 620, as a non-volatile computer-readable storage medium, may be used to store non-volatile software programs, non-volatile computer-executable programs, and modules, such as program instructions/modules/units (e.g., the first receiving unit 51, the first determining unit 52, the second determining unit 53, and the sending unit 54 shown in fig. 5) corresponding to the temporary parking method in the embodiment of the present application. The processor 610 executes various functional applications and data processing of the server or the smart terminal by executing the nonvolatile software program, instructions and modules/units stored in the memory 620, that is, the temporary parking method of the above-described method embodiment is implemented.

The memory 620 may include a storage program area and a storage data area, wherein the storage program area may store an operating system, an application program required for at least one function; the storage data area may store data created according to the use of the temporary parking apparatus, and the like. Further, the memory 620 may include high speed random access memory, and may also include non-volatile memory, such as at least one magnetic disk storage device, flash memory device, or other non-volatile solid state storage device. In some embodiments, memory 620 optionally includes memory located remotely from processor 610, which may be connected to the temporary parking facility via a network. Examples of such networks include, but are not limited to, the internet, intranets, local area networks, mobile communication networks, and combinations thereof.

The input means 630 may receive input numeric or character information and generate key signal inputs related to user settings and function control of the temporary parking apparatus. The output device 640 may include a display device such as a display screen.

The one or more modules are stored in the memory 620 and, when executed by the one or more processors 610, perform the temporary parking method of any of the method embodiments described above.

The product can execute the method provided by the embodiment of the application, and has the corresponding functional modules and beneficial effects of the execution method. For technical details that are not described in detail in this embodiment, reference may be made to the methods provided in the embodiments of the present application.

The electronic device of the embodiments of the present application exists in various forms, including but not limited to:

(1) a mobile communication device: such devices are characterized by mobile communications capabilities and are primarily targeted at providing voice, data communications. Such terminals include smart phones (e.g., iphones), multimedia phones, functional phones, and low-end phones, among others.

(2) Ultra mobile personal computer device: the equipment belongs to the category of personal computers, has calculation and processing functions and generally has the characteristic of mobile internet access. Such terminals include: PDA, MID, and UMPC devices, etc., such as ipads.

(3) A portable entertainment device: such devices can display and play multimedia content. Such devices include audio and video players (e.g., ipods), handheld game consoles, electronic books, as well as smart toys and portable car navigation devices.

(4) A server: the device for providing the computing service comprises a processor, a hard disk, a memory, a system bus and the like, and the server is similar to a general computer architecture, but has higher requirements on processing capacity, stability, reliability, safety, expandability, manageability and the like because of the need of providing high-reliability service.

(5) And other electronic devices with data interaction functions.

EXAMPLE six

Sixth, an embodiment of the present application provides a computer program product, wherein the computer program product includes a computer program stored on a non-transitory computer readable storage medium, the computer program including program instructions, wherein the program instructions, when executed by a computer, cause the computer to perform any one of the above-mentioned method embodiments of the present application.

The temporary parking device provided by the embodiment of the application can be realized by a computer program. It should be understood by those skilled in the art that the above-mentioned module division is only one of many module division, and if the module division is divided into other modules or not, it is within the scope of the present application as long as the temporary parking apparatus has the above-mentioned functions.

As will be appreciated by one skilled in the art, embodiments of the present invention may be provided as a method, system, or computer program product. Accordingly, the present invention may take the form of an entirely hardware embodiment, an entirely software embodiment or an embodiment combining software and hardware aspects. Furthermore, the present invention may take the form of a computer program product embodied on one or more computer-usable storage media (including, but not limited to, disk storage, CD-ROM, optical storage, and the like) having computer-usable program code embodied therein.

The present invention is described with reference to flowchart illustrations and/or block diagrams of methods, apparatus (systems), and computer program products according to embodiments of the invention. It will be understood that each flow and/or block of the flow diagrams and/or block diagrams, and combinations of flows and/or blocks in the flow diagrams and/or block diagrams, can be implemented by computer program instructions. These computer program instructions may be provided to a processor of a general purpose computer, special purpose computer, embedded processor, or other programmable data processing apparatus to produce a machine, such that the instructions, which execute via the processor of the computer or other programmable data processing apparatus, create means for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be stored in a computer-readable memory that can direct a computer or other programmable data processing apparatus to function in a particular manner, such that the instructions stored in the computer-readable memory produce an article of manufacture including instruction means which implement the function specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be loaded onto a computer or other programmable data processing apparatus to cause a series of operational steps to be performed on the computer or other programmable apparatus to produce a computer implemented process such that the instructions which execute on the computer or other programmable apparatus provide steps for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

While preferred embodiments of the present invention have been described, additional variations and modifications in those embodiments may occur to those skilled in the art once they learn of the basic inventive concepts. Therefore, it is intended that the appended claims be interpreted as including preferred embodiments and all such alterations and modifications as fall within the scope of the invention.

It will be apparent to those skilled in the art that various changes and modifications may be made in the present invention without departing from the spirit and scope of the invention. Thus, if such modifications and variations of the present invention fall within the scope of the claims of the present invention and their equivalents, the present invention is also intended to include such modifications and variations.

Claims

1. A temporary parking method, comprising:

receiving a temporary parking request sent by a temporary parking vehicle owner through a client, wherein the temporary parking request carries temporary parking time, a destination address expected to be reached by the temporary parking vehicle owner and a license plate number of the temporary parking vehicle owner;

determining a target area with a distance to the destination address within a preset distance range, specifically including: determining a plurality of target areas with the distance between the target areas and the destination address within a preset distance range; and are

According to the temporary parking time, determining parking space information which accords with the temporary parking time from the stored free parking space list of the target area and generating a recommendation list, specifically comprising the following steps: for each target area, according to the temporary parking time, determining parking space information which accords with the temporary parking time from a stored free parking space list of the target area and generating a recommendation list of the target area;

sending the recommendation list to the client to enable the temporary parking vehicle owner to select a parking space from the recommendation list for temporary parking, specifically comprising: sending the recommendation lists of all the target areas to the client, so that the temporary parking vehicle owner selects one recommendation list of a target area according to the recommendation lists of all the target areas and selects one parking space temporary parking from the recommendation lists;

receiving a parking space reservation request sent by a client, wherein the parking space reservation request is sent after the client receives a parking space selected by a temporary parking vehicle owner from the recommendation list, and the parking space reservation request carries parking space information of the selected parking space and current position information of the temporary parking vehicle owner;

if the reserved parking space requests aiming at the same selected parking space and sent by at least one client side are received at the same time, the distance between the current position information of the temporary parking vehicle owner carried in each reserved parking space request and the target area is respectively determined; locking the selected parking space for the nearest temporary parking vehicle owner; sending a result of the reservation request failure to the client of the other temporary parking vehicle owner;

judging whether the license plate number of the nearest temporary parking vehicle owner is scanned within a first preset time;

if so, allowing the nearest temporary parking owner to drive the vehicle into the target area to the selected parking space for temporary parking, and charging the vehicle;

and if not, releasing the selected parking space, and sending a result of the failure of reserving the parking space to the client of the temporary parking vehicle owner closest to the selected parking space.

2. The method according to claim 1, further comprising, after allowing the closest temporary parking owner to drive his vehicle into the target area to the selected parking space for temporary parking and billing the vehicle:

3. The method according to claim 1, further comprising, after allowing the closest temporary parking owner to drive his vehicle into the target area to the selected parking space for temporary parking and billing the vehicle:

4. A method according to any one of claims 1 to 3, wherein the list of free parking spaces of the target area is generated as follows:

5. The method according to any one of claims 1 to 3,

and if the target area is determined to be absent in the preset distance range or no free parking space is present in the target area in the preset distance range, determining the area with the shortest distance from the destination address as the target area outside the preset distance range.

6. A temporary parking apparatus, comprising:

the system comprises a first receiving unit, a second receiving unit and a third receiving unit, wherein the first receiving unit is used for receiving a temporary parking request sent by a temporary parking owner through a client, and the temporary parking request carries temporary parking time, a destination address expected to be reached by the temporary parking owner and a license plate number of the temporary parking owner;

the first determining unit is specifically configured to determine a plurality of target areas whose distances from the destination address are within a preset distance range;

the second determining unit is specifically configured to determine, for each target area, according to the temporary parking time, parking space information that meets the temporary parking time from a stored free parking space list of the target area, and generate a recommendation list of the target area;

the sending unit is used for sending the recommendation list to the client so that the temporary parking vehicle owner selects one parking space from the recommendation list to temporarily park the vehicle;

the sending unit is specifically configured to send the recommendation lists of the target areas to the client, so that the temporary parking vehicle owner selects one recommendation list of a target area according to the recommendation lists of the target areas, and selects one parking space from the recommendation lists for temporary parking;

a second receiving unit, configured to receive a parking space reservation request sent by a client, where the parking space reservation request is sent by the client after receiving that a temporary parking vehicle owner selects a parking space from the recommendation list, and the parking space reservation request carries parking space information of the selected parking space and current position information of the temporary parking vehicle owner;

the locking unit is used for respectively determining the distance between the current position information of the temporary parking car owner carried in each reserved parking space request and the target area if the reserved parking space request aiming at the same selected parking space and sent by at least one client is received at the same time; locking the selected parking space for the nearest temporary parking vehicle owner; sending a result of the reservation request failure to the client of the other temporary parking vehicle owner;

the first judgment unit is used for judging whether the license plate number of the nearest temporary parking vehicle owner is scanned within a first preset time;

a first permitting unit, configured to permit the closest temporary parking owner to drive the vehicle into the target area to the selected parking space for temporary parking if the determination result of the first determining unit is yes, and charge the vehicle;

and the releasing unit is used for releasing the selected parking space and sending a parking space reservation failure result to the client of the nearest temporary parking vehicle owner if the judgment result of the first judging unit is negative.

7. The apparatus of claim 6, further comprising:

a second permission unit, configured to, after the first permission unit permits the temporary parking vehicle owner closest to the target area to enter the selected parking space for temporary parking, and charges the vehicle, and when it is determined that an actual parking time of the vehicle of the temporary parking vehicle owner parked in the selected parking space does not exceed the temporary parking time, send a first charging result to a client of the temporary parking vehicle owner, where the first charging result carries a first charging amount; and when the first payment amount sent by the client is determined to be not less than the first charging amount, allowing the vehicle of the temporary parking vehicle owner to drive away from the target area.

8. The apparatus of claim 6, further comprising:

a second judging unit, configured to judge, after the first permitting unit permits the nearest temporary parking vehicle owner to enter the target area to the selected parking space for temporary parking, and charges the vehicle, whether a delay request sent by the temporary parking vehicle owner through the client is received when it is determined that a parking time of the vehicle of the temporary parking vehicle owner in the selected parking space reaches the temporary parking time, where the delay request carries a delay time of the temporary parking vehicle owner;

9. The apparatus of any one of claims 6 to 8, further comprising:

10. The apparatus according to any one of claims 6 to 8,

the first determining unit is further configured to determine, outside the preset distance range, an area closest to the destination address as a target area if it is determined that there is no target area within the preset distance range or there is no empty parking space in the target area within the preset distance range.

11. A non-transitory computer storage medium storing computer-executable instructions for performing the method of any of claims 1 to 5.

12. An electronic device, comprising:

at least one processor; and

the memory stores instructions executable by the at least one processor to enable the at least one processor to perform the method of any one of claims 1 to 5.