CN116682280A

CN116682280A - Block chain-based idle parking space sharing renting system

Info

Publication number: CN116682280A
Application number: CN202310407975.5A
Authority: CN
Inventors: 杨龙
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-11-05
Filing date: 2020-11-05
Publication date: 2023-09-01
Also published as: CN112435353B; CN112435353A

Abstract

The invention discloses an idle parking space sharing renting system based on a blockchain, which comprises a vehicle information acquisition module, a vehicle owner renting module, a positioning module, a parking space management module, an online payment module, an idle parking space analysis module, an intelligent path analysis module and an intelligent distribution module, and has the beneficial effects that: the vehicle is easy to scratch the maintenance rate of the part and the driving age of the vehicle owner when backing up, the driving technology of the vehicle owner is judged, in addition, the idle parking space meeting the requirement of the vehicle owner is reasonably recommended to the vehicle owner by simply calculating the idle parking space probability, the operation efficiency of the parking lot is greatly improved, the regional recommendation is carried out according to the emergency degree of the vehicle owner initiating request, meanwhile, the idle parking space is recommended to the vehicle owner in the divided regions, the emergency parking requirement in the regions is greatly relieved, the interaction scene is simple, the parking space management is not required by the vehicle owner, and the vehicle owner does not need to browse the idle parking space information in a large amount.

Description

Block chain-based idle parking space sharing renting system

Technical Field

The invention relates to the technical field of parking space sharing, in particular to an idle parking space sharing renting system based on block chains.

Background

The parking space sharing aims at the existing parking space and the inventory of the disc, solves the problem of difficult parking through fully utilizing idle resources, solves various defects of the traditional manual management parking lot, improves the parking efficiency of an owner and the parking lot, can better analyze the parking space information through intellectualization and informatization, creates a new interaction scene, constructs a new business state for opening the owner, the parking lot and peripheral business parking, can network dynamic data of the parking lot besides basic data of products such as parking lot basic data, peak-staggering parking and the like, and can realize on-line management of the networking parking lot by utilizing the platform.

However, the existing idle parking space sharing renting system still has a plurality of defects, idle parking spaces cannot be reasonably recommended to an owner according to actual demands of the owner, corresponding idle parking space recommendation and route recommendation entering a garage cannot be carried out according to driving levels of the owner, operation efficiency of a parking lot is low, interaction scenes are complex, parking space management is carried out by the owner, the using space rule of the owner is calculated through the entering and exiting time of the owner in the prior art, a large amount of data is needed, calculation is complex and because of practical reasons, the using space time of the owner can be changed, idle parking space probability cannot be estimated through the rule obtained through calculation, and idle parking spaces cannot be reasonably arranged according to real-time positions of users and emergency degrees of requests.

Based on the above problems, a system for sharing the idle parking spaces based on the blockchain is to be proposed urgently, the driving technology of the vehicle owner is judged through the repair rate of the easily-scraped part of the vehicle and the driving age of the vehicle owner when the vehicle is backed up, the idle probability of the parking spaces is estimated through simple calculation, the idle parking spaces meeting the requirements of the vehicle owner are reasonably recommended to the vehicle owner, the operation efficiency of a parking lot is improved, the regional recommendation is carried out according to the emergency degree of the vehicle owner initiating request, meanwhile, the emergency parking requirements in the region are greatly relieved for the vehicle owner, the interaction scene is simple, the vehicle owner does not need to carry out parking space management, and the vehicle owner does not need to browse the idle parking space information in a large number.

Disclosure of Invention

The invention aims to provide a block chain-based parking space sharing renting system so as to solve the problems in the background technology.

In order to solve the technical problems, the invention provides the following technical scheme:

the utility model provides a system is rented to idle parking stall sharing based on blockchain, includes vehicle information acquisition module, car owner lease module, positioning module, parking stall management module, online payment module, idle parking stall analysis module, intelligent path analysis module and intelligent allocation module, vehicle information acquisition module is used for obtaining the vehicle information of the car owner who initiates the lease request at present, vehicle information includes vehicle maintenance record, car owner and age, car owner lease module is used for the car owner that has the parking to initiate the lease request at present, the lease request still includes the request parking interval, positioning module is used for obtaining the real-time position of car owner who issues the lease request at present and its peripheral idle parking stall position, the parking stall management module is used for discerning the wall body and the cylinder information around current parking stall of current pre-parking vehicle information, on-line payment module is used for paying to the car owner after the parking stall is accomplished, idle parking stall analysis module passes through the parking stall management module and obtains idle position in the current appointed parking area, idle stall analysis module passes through positioning module and car owner and intelligent path analysis module and obtains idle position, idle stall analysis module is used for calculating the real-time position of idle parking stall in the current parking stall path analysis module and intelligent path analysis module accords with the real-time position of the intelligent path analysis module to the car owner.

Further, the vehicle information acquisition module intelligently analyzes the overhaul times and overhaul parts of the vehicle through the acquired current pre-parked vehicle information, wherein the overhaul parts comprise front sides, side surfaces close to the vehicle, lower parts of the tail parts of the vehicle and AB column blind areas, calculates the vehicle overhaul rate in a vehicle age time period according to the overhaul times and the vehicle ages of the overhaul parts, sets a vehicle overhaul rate threshold according to the driving ages of the vehicle owners, calculates the vehicle overhaul rate according to the overhaul times and the vehicle ages of the vehicle owners which are easy to receive the scratch parts in the reversing process, and can estimate the reversing warehouse technology of the vehicle owners by combining the vehicle overhaul rate and the driving ages of the vehicle owners.

Further, the parking space occupation information identified by the parking space management module comprises vehicle information on the current parking space, information on whether the current parking space is occupied or not and occupied time zone information of the current parking space, the occupied time zone information is requested parking time zone information when a vehicle owner initiates a lease request and time zone information of the parking space which is used by the vehicle owner in the previous day, the requested parking time zone when the vehicle owner initiates the lease request is a first time zone, the time zone of the parking space which is used by the vehicle owner in the previous day is a second time zone, the time zone information of the parking space which is used by the vehicle owner in the previous day is used as a vehicle position using rule of the vehicle owner, complex calculation is avoided, and meanwhile, the vehicle position using rule is updated every day, so that the vehicle position management module accords with the actual situation.

Further, the intelligent distribution module recommends the peripheral idle parking space position information of the idle probability of the parking space greater than or equal to the idle probability threshold value of the parking space to the vehicle owner, the peripheral idle parking space position information is sequentially displayed according to the idle probability of the parking space, the idle parking space position information comprises garage position information and adjacent parking space state information of the vehicle parking space, the adjacent parking space state information is in an idle state or an occupied state, if a vehicle owner selects a parking space, the intelligent distribution module sends request information confirmation to the vehicle owner, the vehicle owner and the vehicle owner do not need to carry out other operations in the process, the vehicle owner only needs to initiate a lease request, the intelligent distribution module recommends the idle parking space to the vehicle owner according to the real-time position information of the existing vehicle owner and the idle parking space information, the vehicle owner only needs to select the parking space, and the vehicle owner also only needs to confirm or reject the request information according to the current requirement of using the parking space, so that the flow of parking space sharing is greatly simplified, and the respective time is saved.

Further, if the current parking space is in an idle state, the idle parking space analysis module intelligently analyzes the idle probability of the parking space in the first period according to the first period and the second period, and the calculation formula of the idle probability of the parking space is as follows:

wherein T is ₁ For the coincidence time period of the first time period and the second time period, T is the first time period, K is the idle probability of the parking space, if the coincidence time period does not exist between the first time period and the second time period, the value of K is 1, the situation that the parking space is needed suddenly by the owner of the parking space while the owner of the renting service is avoided by analyzing the coincidence time period between the first time period and the second time period, and the probability of whether the owner of the renting service can be completely carried out in the first time period can be estimated according to the idle probability of the parking space.

Further, the intelligent distribution module acquires real-time position information of a current car owner and peripheral idle parking space position information of the current car owner through the positioning module according to a lease request initiated by the car owner lease module, the car owner can set the urgency of current parking requirements through the car owner lease module, if the current emergency needs to park, the intelligent distribution module recommends idle parking space positions meeting the requirements in a first range threshold to the car owner, if the current temporary parking can be carried out, the intelligent distribution module recommends all idle parking space positions in a second range threshold to the car owner, the second range threshold is larger than the first range threshold, and the emergency parking requirements in the area can be relieved by setting the first range and the second range.

Further, if the intelligent distribution module does not find an idle parking space meeting the current parking requirement in the first range threshold or does not find an idle parking space in the first range threshold, the intelligent distribution module obtains the requested parking time periods of other owners who are carrying out the rental service in the range through the owner renting module, obtains the renting ending time according to the requested parking time periods, recommends the owners to close to the renting to the idle parking space according to the renting ending time, and the owners can select the idle parking space waiting for the renting to be ended or finding the idle parking space with a longer distance according to the self time.

Further, the intelligent distribution module intelligently distributes idle parking spaces for the vehicle owners according to the vehicle maintenance rate threshold, if the vehicle maintenance rate of the vehicle which initiates the leasing request currently is greater than or equal to the vehicle maintenance rate threshold, the intelligent distribution module preferentially recommends the idle parking spaces adjacent with a plurality of continuous idle state parking spaces for the vehicle owners according to the adjacent parking space state information of the recommended idle parking spaces, if the idle parking spaces which meet the parking requirements of the vehicle owners do not exist in the current period, namely, the idle parking spaces adjacent with the idle parking spaces which meet the parking requirements of the vehicle owners do not exist in other idle states, the system prompts that the parking is at risk, and the idle parking spaces recommended for the vehicle owners according to the reversing and warehousing technology of the vehicle owners are adjacent with a plurality of continuous idle state parking spaces, so that the vehicle owners can conveniently reverse and warehouse-in speed of the vehicle owners is accelerated, road congestion in the garage is avoided, and the parking space operation efficiency is improved.

Further, the intelligent distribution module obtains the current idle parking space position information through the parking space management module, if the vehicle maintenance rate of the vehicle which initiates the leasing request currently is greater than or equal to the vehicle maintenance rate threshold, the intelligent distribution module preferentially recommends idle parking spaces with no walls and columns around for the vehicle owners, and the walls and columns are not arranged around the recommended idle parking spaces according to the reversing and warehousing technology of the vehicle owners, so that the vehicle owners can conveniently reverse and warehouse, the scratch accident rate is reduced, the reversing and warehousing speed of the vehicle owners is accelerated, the road congestion in the garage is avoided, and the operation efficiency of the parking lot is improved.

Further, if the vehicle overhaul rate of the vehicle for which the rental request is currently initiated is smaller than a vehicle overhaul rate threshold, the intelligent path analysis module makes a route according to the real-time position of the vehicle, the position of an idle parking space nearby meeting the parking requirement and the entrance position of a garage to which the idle parking space belongs, the time-consuming shortest route is intelligently recommended to a vehicle owner, if the vehicle overhaul rate of the vehicle for which the rental request is currently initiated is greater than or equal to the vehicle overhaul rate threshold, the intelligent path analysis module acquires the entrance traffic information of the garage to which the idle parking space belongs through path data selected by the vehicle owner in the past, namely, the vehicle entrance times of each garage entrance are counted and the corresponding time period are counted, and the intelligent path pushing analysis module preferentially recommends the garage entrance with the minimum vehicle entrance times in a certain time period for the vehicle owner, so that the vehicle owner can enter the garage to park, and the operation efficiency of the parking lot is improved.

Compared with the prior art, the invention has the following beneficial effects: according to the method, the device and the system, the repair rate of the position, which is easily scratched, of the vehicle and the driving age of the vehicle owner are judged when the vehicle is backed up, the driving technology of the vehicle owner is judged, in addition, the idle parking space meeting the requirement of the vehicle owner is reasonably recommended to the vehicle owner by simply calculating the estimated idle parking space probability, the operation efficiency of the parking lot is improved, the regional recommendation is carried out according to the emergency degree of the vehicle owner initiating the request, meanwhile, the idle parking space to be recommended to the vehicle owner is greatly relieved, the emergency parking requirement in the region is greatly relieved, the interaction scene is simple, the parking space management is not required by the vehicle owner, and the vehicle owner does not need to browse the idle parking space information in a large quantity.

Drawings

The accompanying drawings are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate the invention and together with the embodiments of the invention, serve to explain the invention. In the drawings:

FIG. 1 is a block chain based modular schematic diagram of an idle parking space sharing rental system.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1, the present invention provides the following technical solutions:

the utility model provides an idle parking stall sharing taxi system based on blockchain, including vehicle information acquisition module, car owner lease module, positioning module, the parking stall management module, on-line payment module, idle parking stall analysis module, intelligent route analysis module and intelligent allocation module, vehicle information acquisition module is used for obtaining the vehicle information of car owner who initiates the lease request at present, vehicle information includes the vehicle maintenance record, car owner drives age and car age, car owner lease module is used for the car owner who has the parking needs at present initiates the lease request, the lease request still includes the request parking period, positioning module is used for obtaining the real-time position of car owner who issues the lease request at present and its peripheral idle parking stall position, the parking stall management module is used for discerning current pre-parking vehicle information, the occupation information of current parking stall and wall body and cylinder information around the current parking stall, on-line payment module is used for paying to the car owner after the taxi is accomplished, idle parking stall analysis module passes through the parking stall management module and obtains idle stall quantity in the current appointed parking area, idle stall analysis module passes through positioning module and parking stall management module and obtains idle position, idle probability in the idle stall analysis module is used for calculating in the certain period, the idle path analysis module accords with idle parking stall demand for the car owner according to idle stall position and idle stall position of car owner in the intelligent allocation route.

The vehicle information acquisition module intelligently analyzes the overhaul times and overhaul parts of the vehicle through the acquired current pre-parking vehicle information, wherein the overhaul parts comprise front sides, side surfaces close to the vehicle, lower parts of the tail parts of the vehicle and AB column blind areas, calculates the vehicle overhaul rate in a vehicle age time period according to the overhaul times and the vehicle age of the overhaul parts, and sets a vehicle overhaul rate threshold according to the driving age of a vehicle owner, wherein the vehicle overhaul rate threshold of the vehicle owner with long driving age is smaller than the vehicle overhaul rate threshold of the vehicle owner with short driving age.

The parking space occupation information identified by the parking space management module comprises vehicle information on a current parking space, whether the current parking space is occupied or not and occupied time period information of the current parking space, wherein the occupied time period information is parking request time period information when an owner initiates a lease request and time period information of the parking space used by the owner in the previous day, the parking request time period when the owner initiates the lease request is a first time period, and the time period of the parking space used by the owner in the previous day is a second time period.

The intelligent allocation module recommends peripheral idle parking space position information with the idle probability of the parking space being greater than or equal to the idle probability threshold value of the parking space to the vehicle owner, the peripheral idle parking space position information is sequentially arranged and displayed according to the idle probability of the parking space, the idle parking space position information comprises garage position information and adjacent parking space state information of the vehicle parking space, the adjacent parking space state information is in an idle state or an occupied state, and if the vehicle owner selects the parking space, the intelligent allocation module sends request information confirmation to the affiliated parking space owner.

If the current parking space is in an idle state, the idle parking space analysis module intelligently analyzes the idle probability of the parking space in the first period according to the first period and the second period, and the calculation formula of the idle probability of the parking space is as follows:

wherein T is ₁ And for the overlapping time period of the first time period and the second time period, T is the first time period, K is the idle probability of the parking space, and if the overlapping time period does not exist between the first time period and the second time period, the value of K is 1.

The intelligent distribution module acquires real-time position information of a current car owner and peripheral idle parking space position information of the current car owner through the positioning module according to a lease request initiated by the car owner lease module, the car owner can set the urgency of the current parking requirement through the car owner lease module, if the current emergency parking is needed, the intelligent distribution module recommends idle parking space positions meeting the requirement in a first range threshold to the car owner, and if the current temporary parking is needed, the intelligent distribution module recommends all idle parking space positions in a second range threshold to the car owner, wherein the second range threshold is larger than the first range threshold.

If the intelligent distribution module does not find the free parking space meeting the current parking requirement in the first range threshold or the free parking space does not appear in the first range threshold, the intelligent distribution module obtains the parking requesting time periods of other owners who are carrying out leasing services in the range through the owner leasing module, obtains the leasing ending time according to the parking requesting time periods, and recommends the empty parking space to the owner according to the leasing ending time, wherein the empty parking space is about to end leasing.

The intelligent allocation module intelligently allocates idle parking spaces for the vehicle owners according to the vehicle maintenance rate threshold, if the vehicle maintenance rate of the vehicle which initiates the lease request currently is greater than or equal to the vehicle maintenance rate threshold, the intelligent allocation module preferentially recommends the idle parking spaces with a plurality of continuous idle state parking spaces for the vehicle owners according to the adjacent parking space state information of the recommended idle parking spaces, and if the idle parking spaces which meet the conditions do not exist in the current period, namely, the idle parking spaces which meet the parking requirements of the vehicle owners currently are adjacent to the parking spaces with no other idle state, the system prompts that the parking is at risk.

The intelligent distribution module acquires the current idle parking space position information through the parking space management module, and if the vehicle maintenance rate of the vehicle which initiates the lease request currently is greater than or equal to the vehicle maintenance rate threshold value, the intelligent distribution module preferentially recommends idle parking spaces without walls and columns around for vehicle owners.

If the vehicle overhaul rate of the vehicle which initiates the lease request at present is smaller than the vehicle overhaul rate threshold, the intelligent path analysis module establishes a route according to the real-time position of the vehicle, the position of the idle parking space which accords with the parking requirement nearby and the entrance position of the garage to which the idle parking space belongs, the time-consuming shortest route is intelligently recommended to the vehicle owners, if the vehicle overhaul rate of the vehicle which initiates the lease request at present is larger than or equal to the vehicle overhaul rate threshold, the intelligent path analysis module acquires the entrance traffic information of the garage to which the idle parking space belongs through the path data selected by the vehicle owners in the past, namely, the intelligent path pushing analysis module counts the vehicle entrance times of each garage entrance and the corresponding time period, and preferentially recommends the garage entrance with the minimum vehicle entrance times for the vehicle owners in a certain time period.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Finally, it should be noted that: the foregoing description is only a preferred embodiment of the present invention, and the present invention is not limited thereto, but it is to be understood that modifications and equivalents of some of the technical features described in the foregoing embodiments may be made by those skilled in the art, although the present invention has been described in detail with reference to the foregoing embodiments. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. An idle parking space sharing renting system based on block chain is characterized in that: the system comprises a vehicle information acquisition module, a vehicle owner leasing module, a positioning module, a parking space management module, an online payment module, an idle parking space analysis module, an intelligent path analysis module and an intelligent distribution module, wherein the vehicle information acquisition module is used for acquiring vehicle information of a vehicle owner initiating a leasing request currently, the vehicle information comprises a vehicle maintenance record, a driving age and a vehicle age, the vehicle owner leasing module is used for initiating the leasing request of the vehicle owner having a parking requirement currently, the leasing request also comprises a parking request period, the positioning module is used for acquiring a real-time position of the vehicle owner issuing the leasing request currently and a surrounding idle parking space position thereof, the parking space management module is used for identifying current pre-parking vehicle information, occupation information of the current parking space and wall and column information around the current parking space, the online payment module is used for paying to the vehicle owner after the taxi is completed, the idle parking space analysis module acquires the idle number in the current designated parking space through the parking space management module, the idle parking space analysis module acquires the idle position through the positioning module and the intelligent path analysis module is used for calculating the idle probability in a certain period, and the intelligent path analysis module accords with the current parking space requirement of the intelligent parking space to the vehicle owner;

the vehicle information acquisition module intelligently analyzes the overhaul times and overhaul parts of the vehicle through the acquired current pre-parking vehicle information, wherein the overhaul parts comprise front sides, side surfaces close to the vehicle, lower parts of the tail parts of the vehicle and AB column blind areas, the vehicle overhaul rate in a vehicle age time period is calculated according to the overhaul times and the vehicle ages of the overhaul parts, and a vehicle overhaul rate threshold value is set according to the driving ages of vehicle owners, and the vehicle overhaul rate threshold value of the vehicle owners with long driving ages is smaller than that of the vehicle owners with short driving ages;

the parking space occupation information identified by the parking space management module comprises vehicle information on a current parking space, information on whether the current parking space is occupied or not and occupied time period information of the current parking space, wherein the occupied time period information is parking request time period information when a vehicle owner initiates a lease request and time period information of a parking space used by the vehicle owner in the previous day, the parking request time period when the vehicle owner initiates the lease request is a first time period, and the time period of the parking space used by the vehicle owner in the previous day is a second time period;

the intelligent allocation module recommends peripheral idle parking space position information with the idle probability of the parking space being greater than or equal to a parking space idle probability threshold value to an owner, the peripheral idle parking space position information is sequentially displayed according to the size of the idle parking space probability, the idle parking space position information comprises garage position information and adjacent parking space state information of the parking space, the adjacent parking space state information is in an idle state or an occupied state, and if the owner selects a parking space, the intelligent allocation module sends request information confirmation to the owner of the parking space;

wherein T is ₁ The method comprises the steps that the time interval is the coincidence time interval of a first time interval and a second time interval, T is the first time interval, K is the idle probability of a parking space, and if the coincidence time interval does not exist between the first time interval and the second time interval, the value of K is 1;

the intelligent distribution module acquires real-time position information of a current car owner and peripheral idle parking space position information of the current car owner through the positioning module according to a lease request initiated by the car owner lease module, the car owner can set the urgency of the current parking requirement through the car owner lease module, if the current emergency parking is needed, the intelligent distribution module recommends idle parking space positions meeting the requirement in a first range threshold to the car owner, and if the current temporary parking is needed, the intelligent distribution module recommends all idle parking space positions in a second range threshold to the car owner, wherein the second range threshold is larger than the first range threshold;

if the intelligent allocation module does not find an idle parking space meeting the current parking requirement in the first range threshold or does not appear in the first range threshold, the intelligent allocation module acquires the parking request time periods of other owners who are in the range and are carrying out leasing service through the owner leasing module, and acquires the leasing ending time according to the parking request time periods, and the intelligent allocation module recommends the parking space which is about to end leasing and is about to be idle to the owners according to the leasing ending time;

the intelligent allocation module intelligently allocates idle parking spaces for the vehicle owners according to the vehicle overhaul rate threshold, if the vehicle overhaul rate of the vehicle which initiates the lease request currently is larger than or equal to the vehicle overhaul rate threshold, the intelligent allocation module preferentially recommends the idle parking spaces adjacent with a plurality of continuous idle state parking spaces for the vehicle owners according to the adjacent parking space state information of the recommended idle parking spaces, and if the idle parking spaces which meet the condition do not exist in the current period, namely, the idle parking spaces which meet the parking requirements of the vehicle owners currently are adjacent with no other idle state parking spaces, the system prompts that the parking is at risk;

the intelligent distribution module acquires the current idle parking space position information through the parking space management module, and if the vehicle overhaul rate of the vehicle which initiates the lease request currently is greater than or equal to the vehicle overhaul rate threshold value, the intelligent distribution module preferentially recommends idle parking spaces without walls and columns around for vehicle owners.

2. The blockchain-based free space sharing rental system of claim 1, wherein: if the vehicle overhaul rate of the vehicle which initiates the lease request is smaller than the vehicle overhaul rate threshold, the intelligent path analysis module establishes a route according to the real-time position of the vehicle, the position of the idle parking space which accords with the parking requirement nearby and the entrance position of the garage to which the idle parking space belongs, the time-consuming shortest route is intelligently recommended to the vehicle owners, if the vehicle overhaul rate of the vehicle which initiates the lease request is larger than or equal to the vehicle overhaul rate threshold, the intelligent path analysis module acquires the entrance traffic information of the garage to which the idle parking space belongs through the path data selected by the vehicle owners in the past, namely, the intelligent path push analysis module counts the vehicle entrance times of each garage entrance and the corresponding time period, and preferentially recommends the garage entrance with the minimum vehicle entrance times for the vehicle owners in a certain time period.