CN109598859B - Multi-user co-rental car booking and renting system and method - Google Patents

Abstract

The invention relates to a reserved car renting system and method for multi-person combined renting. The system comprises a user mobile phone end, a server and a plurality of charging piles, wherein the server comprises a time matching unit, a route matching unit, a vehicle selecting unit and a charging unit. The system can match the proper vehicle to be rented for the user according to the basic information of the vehicle rented provided by the user, is beneficial to saving the fund for the user, solves the problem of resource shortage of the vehicle to be rented, and further improves the vehicle renting system to meet the differentiated requirements of different crowds.

Description

Multi-user co-rental car booking and renting system and method

Technical Field

The invention relates to the technical field of automobile leasing, in particular to a multi-person co-leasing vehicle leasing reservation system and a multi-person co-leasing vehicle leasing reservation method.

Background

The vehicle renting reservation provides convenience for some people planning to go out, and if the provided vehicle is rented for one person at a time, resource waste and the requirement on the vehicle to be rented are caused, so that inconvenience is brought to use, and the vehicle renting efficiency is reduced on the whole.

Disclosure of Invention

The invention mainly solves the problems of resource waste and shortage of vehicle demand to be rented caused by only one-person renting of the vehicle in the prior art, and provides a more convenient and humanized reserved vehicle renting system and method for multi-person combined renting.

The technical problem of the invention is mainly solved by the following technical scheme: the utility model provides a many people's reservation system of hiring jointly, includes user's cell-phone end, server, a plurality of electric pile of charging of being connected with electric automobile, the server includes constantly matching unit, route matching unit, vehicle selection unit, charging unit, and user's cell-phone end, constantly matching unit, route matching unit, vehicle selection unit, charging unit link to each other in proper order, and vehicle selection unit links to each other with each electric pile of charging respectively through the network.

According to the invention, a user selects a car renting starting point, a car renting destination and a car renting specific moment on a user mobile phone terminal to generate basic car renting information; the time matching unit matches the appointed car renting users with the same car using specific time; the route matching unit matches the car renting reservation users with the same route; the vehicle selection unit selects a proper vehicle to be rented for a user; the charging unit calculates the hiring fee due to different users of the same vehicle. The system can match the proper vehicle to be rented for the user according to the basic information of the vehicle rented provided by the user, is beneficial to saving the fund for the user, and solves the problem of resource shortage of the vehicle to be rented.

As an optimal scheme, the charging piles are installed in a charging pile cluster mode at each installation place, a cluster control unit and a communication unit are installed on each charging pile cluster, the cluster control unit is connected with the communication unit, each charging pile comprises an electric quantity detection unit, the electric quantity detection unit of each charging pile in each charging pile cluster is respectively connected with the cluster control unit, and the communication module is in communication connection with the vehicle selection unit. Fill electric pile and adopt cluster mode management, every fills electric pile and detects electric automobile current electric quantity through electric quantity detecting element. The communication unit is connected to the cluster control unit to realize communication between the charging pile and the server.

A reserved car renting method for multi-person combined renting comprises the following steps:

s1, a user mobile phone end carries out a request for closing a lease to generate a driving route and a specific time for using a car;

s2, matching the appointed car renting users with the same car using specific time by the time matching unit;

s3, matching the reserved car renting users of the same or similar routes by a route matching unit;

s4, selecting a proper vehicle and sending the license plate number to the user;

and S5, the charging unit charges the user.

As a preferable scheme, step S2 includes the following processes:

s21, setting every ten minutes as a moment, and dividing each hour into 12 moments;

s22, selecting the reserved car renting time by a user through a user mobile phone end;

and S23, summarizing the users who reserve the taxi at the same moment.

As a preferable scheme, step S3 includes the following processes:

s31, selecting reserved co-hiring users at the same time;

s32, carrying out induction and arrangement on the routes provided by the leased-in users;

s33, selecting users with the same or similar routes.

As a preferable scheme, step S32 includes the following processes:

s321, dividing a route provided by a customer into a plurality of road sections according to intersections, and marking each road section by using a unique symbol respectively, namely converting the route provided by the customer into a route symbol set consisting of a plurality of symbols;

s322, sorting all routes provided by customers from short to long according to the lengths of route symbol sets and marking the routes with numbers, marking the routes with the same length of the route symbol sets with the same number, performing superposition comparison on all the route symbol sets and the route symbol sets marked with the numbers larger than or equal to the route symbol sets, namely sequentially comparing the two sets from a first symbol, if the symbols at corresponding positions are completely the same, completely superposing the route symbol set of one route on all the symbols or partial symbols of the route symbol set of the other route, and judging the two routes to be the same route; if the symbols of the corresponding positions are not identical, the two routes are judged to be different routes

S323, arranging users with the same route on the same automobile;

s324, if the number of the shared tenants on the same route on the automobile reaches 4, executing the step S43;

s325, when the same route co-lease can not be matched for the user, selecting a similar route for arranging the co-lease for the user and informing the user whether to accept the similar route co-lease, if the user agrees, performing the next step, and if the user refuses, ending the co-lease process;

s326, carrying out coincidence comparison on the routes with the same route symbol set label, and judging the routes to be similar if the coincidence rate of the route symbol set of one route and the route symbol set of the other route is greater than a set threshold value;

s327, arranging users with similar routes on the same automobile, and if the number of the tenants on the automobile with similar routes reaches 4, executing the step S43;

s328. when a similar route cannot be found, the server sends a message informing the client that there is no suitable rental vehicle.

As a preferable scheme, step S4 includes the following processes:

s41, selecting a proper vehicle by the system;

s42, arranging the same route or similar route at the same time for the user to rent the vehicle;

s43, when the number of tenants reaches 4, the system determines that the vehicle is fully loaded, at which point step S41 is executed.

As a preferable scheme, step S5 includes the following processes:

s51, judging whether the user is co-hired on the same route or the similar route;

s52, if the routes are the same, determining the total vehicle renting cost W according to the longest actual running route of each vehicle;

s53, determining the actual number of rented people of each vehicle;

s54, calculating the ratio H of the traveled mileage of each person to the total traveled mileage of all persons in the same vehicle;

s55, calculating the taxi fee WH due to each person;

and S56, if the route is similar, carrying out user uniform cost control.

The system can match the proper vehicle to be rented for the user according to the basic information of the vehicle rented provided by the user, is beneficial to saving the fund for the user, and solves the problem of resource shortage of the vehicle to be rented.

Therefore, the invention has the advantages that: the system can select the proper electric vehicle to rent for the user according to the vehicle renting time and route of the user, is beneficial to the user to select to rent together or singly, saves the fund, solves the problem of resource shortage of the vehicle to be rented and further improves the vehicle renting system to meet the differentiated requirements of different people.

Drawings

FIG. 1 is a block diagram of one construction of the present invention;

fig. 2 is a flow chart of route determination of the present invention.

The method comprises the steps of 1, a user mobile phone end 2, a server 21, a time matching unit 22, a route matching unit 23, a vehicle selecting unit 24, a charging unit 3, a charging pile cluster 31, a charging pile 311, an electric quantity detecting unit 32, a communication unit 33 and a cluster control unit.

Detailed Description

The technical scheme of the invention is further specifically described by the following embodiments and the accompanying drawings.

Example (b):

the reserved car renting system for multi-user co-renting comprises a user mobile phone end 1, a server 2 and a plurality of charging piles connected with an electric automobile, wherein the server comprises a time matching unit 21, a route matching unit 22, a vehicle selecting unit 23 and a charging unit 24, the user mobile phone end, the time matching unit, the route matching unit, the vehicle selecting unit and the charging unit are sequentially connected, and the vehicle selecting unit is respectively connected with each charging pile through a network.

The charging pile is installed in a charging pile cluster mode at each installation place, a cluster control unit 33 and a communication unit 32 are installed on each charging pile cluster 3, the cluster control unit is connected with the communication unit, the charging pile comprises an electric quantity detection unit 311, the electric quantity detection unit of each charging pile in the charging pile cluster is connected with the cluster control unit respectively, and the communication module is in communication connection with a vehicle selection unit.

As shown in fig. 2:

a reserved car renting method for multi-person combined renting comprises the following steps:

s1, a user mobile phone end carries out a lease-closing request to generate a driving route and a vehicle using specific time.

S2, matching the appointed car renting users with the same car using specific time by the time matching unit;

s21, setting every ten minutes as a moment, and dividing each hour into 12 moments;

s22, selecting the reserved car renting time by a user through a user mobile phone end;

and S23, summarizing the users who reserve the taxi at the same moment.

S3, matching the reserved car renting users of the same or similar routes by a route matching unit;

s31, selecting reserved co-hiring users at the same time;

s32, carrying out induction and arrangement on the routes provided by the leased-in users;

s321, dividing a route provided by a client into a plurality of road sections according to intersections, and marking each road section by using a unique symbol, namely converting the route provided by the client into a route symbol set consisting of a plurality of symbols, for example, converting the route into a set represented by route symbols such as AB, AK, ABC, AKC, ABCD, ABED, AGED, AKCE, ABCDFH, ABEDTH and the like;

s322, sorting all routes provided by customers from short to long according to the lengths of route symbol sets and marking the routes with the same length by using numbers, for example, marking the route symbol sets AB and AK as 2, marking ABC and AKC as 3, marking ABCD, ABED, AGED and AKCE as 4, overlapping and comparing all the route symbol sets with the route symbol sets marked with the numbers larger than or equal to that of the route symbol sets, namely comparing the two sets from a first symbol in sequence, if the symbols at corresponding positions are completely the same, completely overlapping the route symbol set of one route with all the symbols or part of the symbols of the route symbol set of the other route, judging the two routes to be the same route, and otherwise, judging the two routes to be different routes; for example, part of symbols of the ABC route symbol set that the AB completely overlaps the corresponding positions of the ABC route symbol set and the ABCD route symbol set are determined as the same route, all symbols of the ABCD route symbol set that the ABCD completely overlaps the corresponding positions of the ABCD route symbol set are determined as the same route, and the AB, AK, ABC, and ABCD are different routes from the ABED, age, and AKCE, respectively;

s323, arranging users with the same route on the same automobile;

s324, if the number of the shared tenants on the same route on the automobile reaches 4, executing the step S43;

s325, when the same route co-lease can not be matched for the user, selecting a similar route for arranging the co-lease for the user and informing the user whether to accept the similar route co-lease, if the user agrees, performing the next step, and if the user refuses, ending the co-lease process;

s326, carrying out coincidence comparison on routes with the same route symbol set label, if the coincidence rate of the route symbol set of one route and the route symbol set of the other route is greater than a set threshold value, judging the routes as similar routes, wherein the coincidence rate is the ratio of the number of different corresponding position symbols to the length of the route set, for example, the lengths of the ABCDFGH and the ABEDTH route sets are 7-bit symbols, and the coincidence rate is 2/7 if the coincidence rate is greater than the set threshold value, and judging the routes as similar routes if the coincidence rate is greater than the set threshold value;

s327, arranging users with similar routes on the same automobile, and if the number of the tenants on the automobile with similar routes reaches 4, executing the step S43;

s328, when the similar route cannot be found, the server sends information to inform the client that no suitable car is rented;

s33, selecting users with the same or similar routes.

S4, selecting a proper vehicle and sending the license plate number to the user;

s41, selecting a proper vehicle by the system;

s42, arranging the same route or similar route at the same time for the user to rent the vehicle;

s43, when the number of tenants reaches 4, the system determines that the vehicle is fully loaded, at which point step S41 is executed.

S5, the charging unit charges the user;

s51, judging whether the user is co-hired on the same route or the similar route;

s52, if the routes are the same, determining the total vehicle renting cost W according to the longest actual running route of each vehicle;

s53, determining the actual number of rented people of each vehicle;

s54, calculating the ratio H of the traveled mileage of each person to the total traveled mileage of all persons in the same vehicle;

s55, calculating the taxi fee WH due to each person;

and S56, if the route is similar, carrying out user uniform cost control.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications or additions may be made to the described embodiments or alternatives may be employed by those skilled in the art without departing from the spirit or ambit of the invention as defined in the appended claims.

Although the terms user mobile terminal, server, mileage calculation unit, time calculation unit, etc. are used more herein, the possibility of using other terms is not excluded. These terms are used merely to more conveniently describe and explain the nature of the present invention; they are to be construed as being without limitation to any additional limitations that may be imposed by the spirit of the present invention.

Claims (4)

1. A reserved car renting system for multi-user combined renting is characterized by comprising a user mobile phone end, a server and a plurality of charging piles connected with an electric car, wherein the server comprises a time matching unit, a route matching unit, a car selecting unit and a charging unit, the user mobile phone end, the time matching unit, the route matching unit, the car selecting unit and the charging unit are sequentially connected, and the car selecting unit is respectively connected with each charging pile through a network;

the multi-user co-rental car-booking method realized based on the multi-user co-rental car-booking system comprises the following steps:

s1, a user mobile phone end carries out a request for closing a lease to generate a driving route and a specific time for using a car;

s2, matching the appointed car renting users with the same car using specific time by the time matching unit;

s3, matching the reserved car renting users of the same or similar routes by a route matching unit;

s4, selecting a proper vehicle and sending the license plate number to the user;

s5, the charging unit charges the user;

step S3 includes the following procedures:

s31, selecting reserved co-hiring users at the same time;

s32, carrying out induction and arrangement on the routes provided by the leased-in users;

s33, selecting users with the same or similar routes;

step S32 includes the following procedures:

s321, dividing a route provided by a customer into a plurality of road sections according to intersections, and marking each road section by using a unique symbol respectively, namely converting the route provided by the customer into a route symbol set consisting of a plurality of symbols;

s322, sorting all routes provided by customers from short to long according to the lengths of route symbol sets and marking the routes with numbers, marking the routes with the same length of the route symbol sets with the same number, performing superposition comparison on all the route symbol sets and the route symbol sets marked with the numbers larger than or equal to the route symbol sets, namely sequentially comparing the two sets from a first symbol, if the symbols at corresponding positions are completely the same, completely superposing the route symbol set of one route on all the symbols or partial symbols of the route symbol set of the other route, and judging the two routes to be the same route; if the symbols of the corresponding positions are not identical, the two routes are judged to be different routes

S323, arranging users with the same route on the same automobile;

s324, if the number of the shared tenants on the same route on the automobile reaches 4, executing the step S43;

s325, when the same route co-lease can not be matched for the user, selecting a similar route for arranging the co-lease for the user and informing the user whether to accept the similar route co-lease, if the user agrees, performing the next step, and if the user refuses, ending the co-lease process;

s326, carrying out coincidence comparison on the routes with the same route symbol set label, and judging the routes to be similar if the coincidence rate of the route symbol set of one route and the route symbol set of the other route is greater than a set threshold value;

s327, arranging users with similar routes on the same automobile, and if the number of the tenants on the automobile with similar routes reaches 4, executing the step S43;

s328, when the similar route cannot be found, the server sends information to inform the client that no suitable car is rented;

step S4 includes the following procedures:

s41, selecting a proper vehicle by the system;

s42, arranging the same route or similar route at the same time for the user to rent the vehicle;

s43, when the number of tenants reaches 4, the system determines that the vehicle is fully loaded, at which point step S41 is executed.

2. The system for reserving and renting multiple rents according to claim 1, wherein the charging piles are installed in a cluster form at each installation site, a cluster control unit and a communication unit are installed on each charging pile cluster, the cluster control unit is connected with the communication unit, each charging pile comprises an electric quantity detection unit, the electric quantity detection unit of each charging pile in the charging pile cluster is respectively connected with the cluster control unit, and the communication module is in communication connection with the vehicle selection unit.

3. The system for reserved car rental by multi-person multi-rental according to claim 1, wherein the step S2 comprises the steps of:

s21, setting every ten minutes as a moment, and dividing each hour into 6 moments;

s22, selecting the reserved car renting time by a user through a user mobile phone end;

and S23, summarizing the users who reserve the taxi at the same moment.

4. The system for reserved car rental by multi-person multi-rental according to claim 1, wherein the step S5 comprises the steps of:

s51, judging whether the user is co-hired on the same route or the similar route;

s52, if the routes are the same, determining the total vehicle renting cost W according to the longest actual running route of each vehicle;

s53, determining the actual number of rented people of each vehicle;

s54, calculating the ratio H of the traveled mileage of each person to the total traveled mileage of all persons in the same vehicle;

s55, calculating the taxi fee WH due to each person;

and S56, if the route is similar, carrying out user uniform cost control.

Images