CN109242617B

CN109242617B - Car renting method and system

Info

Publication number: CN109242617B
Application number: CN201810981002.1A
Authority: CN
Inventors: 张永超; 赵琳娜; 吴超
Original assignee: Advanced New Technologies Co Ltd
Current assignee: Advanced New Technologies Co Ltd; Advantageous New Technologies Co Ltd
Priority date: 2018-08-27
Filing date: 2018-08-27
Publication date: 2021-09-28
Anticipated expiration: 2038-08-27
Also published as: WO2020042787A1; CN109242617A; TW202009837A

Abstract

The embodiment of the specification discloses a car renting method and system, car renting is achieved through control of a time-sharing renting server, a client can achieve renting of automobile renting services provided by different manufacturers through the time-sharing renting server, car renting can be achieved only by sending a car renting request and inputting a verification code for the client, operation is simple and rapid, and user experience can be optimized.

Description

Car renting method and system

Technical Field

The application relates to the technical field of car networking, in particular to a car renting method and system.

Background

With the increasing variety of the current transportation tools, the transportation trip is also changed greatly, and the efficient and convenient trip becomes the most basic requirement of the current transportation trip.

And along with the appearance of the internet, the trip mode of the internet is more efficient and convenient to give way.

At present, renting APP in China, such as drip, Shenzhou and the like, is already on the market. However, such APP can be used only by downloading APP for login, which is cumbersome to operate.

Disclosure of Invention

One or more embodiments of the present specification provide a method and a system for renting a car, so as to solve or partially solve the technical problem that the existing car renting method is complicated.

In order to solve the technical problem, one or more embodiments of the present specification provide a method for renting a car, which is applied to a time-sharing rental server; the method comprises the following steps:

receiving a car renting request sent by a client;

calculating and obtaining a recommended network car rental within a preset distance range from the position of the client based on the car rental request, and recommending the recommended network car rental to the client;

creating a taxi renting order based on a target network taxi selected from the recommended network taxies by the client;

sending the car rental order to a time-sharing rental manufacturer server corresponding to the target network car rental, so that the time-sharing rental manufacturer server generates a dynamic verification code according to the car rental order and returns the dynamic verification code;

sending the dynamic verification code to the client, so that the client generates a code to be verified;

receiving the code to be verified sent by the client, and forwarding the code to be verified to the time-sharing leasing manufacturer server, so that the time-sharing leasing manufacturer server verifies the code to be verified; and if the verification is passed, controlling the target network to rent the vehicle and start the vehicle renting service.

In another aspect of one or more embodiments of the present specification, there is provided a car rental method applied to a time-share rental vendor server, the method further including:

receiving a car renting order sent by a time-sharing renting server, wherein the car renting order is created by the time-sharing renting server based on a target network car renting selected from recommended network car renting by the client, and the recommended network car renting is the network car renting which is calculated and obtained by the time-sharing renting server based on a car renting request sent by the client and is within a preset distance range from the position of the client;

generating a dynamic verification code based on the taxi order and transmitting the dynamic verification code back to the time-sharing leasing server, so that the time-sharing leasing server forwards the dynamic verification code to the client and turns a to-be-verified code generated by the client based on the dynamic verification code;

verifying the code to be verified;

and if the verification is passed, controlling the target network to rent the vehicle and start the vehicle renting service.

In another aspect of one or more embodiments of the present specification, there is provided a time-share rental server, including:

the first receiving module is used for receiving a car renting request sent by the client;

the calculation module is used for calculating and obtaining a recommended network car rental within a preset distance range from the position of the client based on the car rental request and recommending the recommended network car rental to the client;

the creating module is used for creating a car rental order based on a target network car rental selected from the recommended network car rental by the client;

the first sending module is used for sending the car rental order to a time-sharing rental manufacturer server corresponding to the target network car rental so that the time-sharing rental manufacturer server generates and returns a dynamic verification code according to the car rental order;

the second sending module is used for sending the dynamic verification code to the client so that the client generates a code to be verified;

the second receiving module is used for receiving the code to be verified sent by the client and forwarding the code to be verified to the time-sharing leasing manufacturer server, so that the time-sharing leasing manufacturer server verifies the code to be verified; and if the verification is passed, controlling the target network to rent the vehicle and start the vehicle renting service.

In another aspect of one or more embodiments of the present specification, there is disclosed a time-share vendor server comprising:

the system comprises a first receiving unit, a time-sharing leasing server and a second receiving unit, wherein the first receiving unit is used for receiving a leasing order sent by the time-sharing leasing server, the leasing order is created by the time-sharing leasing server based on a target network leasing selected from recommended network leasing by the client, and the recommended network leasing is a network leasing which is calculated by the time-sharing leasing server based on a leasing request sent by the client and is within a preset distance range from the position of the client;

the first generation unit is used for generating a dynamic verification code based on the taxi renting order and transmitting the dynamic verification code back to the time-sharing leasing server, so that the time-sharing leasing server forwards the dynamic verification code to the client and turns the code to be verified generated by the client based on the dynamic verification code;

the verification unit is used for verifying the code to be verified;

and the control unit is used for controlling the target network car rental to start car rental service if the verification is passed.

In another aspect of one or more embodiments of the present specification, there is disclosed a car rental system, including:

the time-sharing leasing server is used for receiving a car leasing request sent by the client; calculating and obtaining a recommended network car rental within a preset distance range from the position of the client based on the car rental request, and recommending the recommended network car rental to the client; creating a taxi renting order based on a target network taxi selected from the recommended network taxies by the client; sending the car rental order to a time-sharing rental manufacturer server corresponding to the target network car rental;

the time-sharing leasing manufacturer server is used for generating a dynamic verification code according to the car leasing order and transmitting the dynamic verification code back to the time-sharing leasing server;

the time-sharing leasing server is used for sending the dynamic verification code to the client so that the client generates a code to be verified;

the time-sharing leasing server is used for receiving the code to be verified sent by the client and forwarding the code to be verified to the time-sharing leasing manufacturer server;

the time-sharing leasing manufacturer server is used for verifying the code to be verified; and if the verification is passed, controlling the target network to rent the vehicle and start the vehicle renting service.

One or more embodiments of the present specification disclose a method of renting a vehicle, the method comprising:

receiving a car renting request sent by a client;

obtaining a dynamic verification code based on the car rental order;

and receiving the code to be verified sent by the client, and controlling the target network car renting service based on a verification result corresponding to the code to be verified.

One or more embodiments of the present specification disclose a computer-readable storage medium having stored thereon a computer program which, when executed by a processor, implements the steps of the above-described method.

One or more embodiments of the present specification disclose a computer device comprising a memory, a processor and a computer program stored on the memory and executable on the processor, the processor implementing the steps of the above method when executing the program.

Through one or more technical solutions of one or more embodiments of the present specification, one or more embodiments of the present specification have the following advantages or advantages:

one or more embodiments of the specification disclose a method and a system for renting a car, the method is applied to a time-sharing rental server, the time-sharing rental server is used for replacing a time-sharing rental manufacturer server to rent the car, and the time-sharing rental server receives a car renting request sent by a client; and calculating and obtaining a recommended network car rental within a preset distance range from the position of the client based on the car rental request, and recommending the recommended network car rental to the client. Then, creating a car rental order based on a target network car rental selected from the recommended network car rental by the client; and sending the rental car order to a time-sharing rental manufacturer server corresponding to the target network rental car, so that the time-sharing rental manufacturer server generates a dynamic verification code according to the rental car order, and through data transmission of the time-sharing rental server, the time-sharing rental manufacturer server can verify a to-be-verified code generated by a verification client, and control the target network rental car to start a rental service. According to the description, the time-sharing leasing server and the time-sharing leasing manufacturer server are combined to realize car leasing, so that the client can lease car leasing services provided by different manufacturers only by using the time-sharing leasing server, and for the client, car leasing can be realized only by sending a car leasing request and inputting a verification code, so that the operation is simple and quick, and the user experience can be optimized.

The foregoing description is only an overview of one or more embodiments of the present disclosure, and in order to make the technical approaches of one or more embodiments of the present disclosure more clearly understandable, the embodiments may be implemented according to the contents of the present disclosure, and in order to make the above and other objects, features, and advantages of one or more embodiments of the present disclosure more obvious and understandable, the following detailed description of one or more embodiments of the present disclosure is given.

Drawings

Various other advantages and benefits will become apparent to those of ordinary skill in the art upon reading the following detailed description of the preferred embodiments. The drawings are only for purposes of illustrating the preferred embodiments and are not to be construed as limiting one or more embodiments of the present specification. Also, like reference numerals are used to refer to like parts throughout the drawings. In the drawings:

fig. 1 is a diagram illustrating an implementation process of a vehicle rental method on a time-share rental server side according to one or more embodiments of the present disclosure;

FIG. 2 illustrates a process diagram of credit escort in accordance with one or more embodiments of the present description;

FIG. 3 illustrates a time-share rental vendor server-side rental car process diagram in accordance with one or more embodiments of the subject specification;

FIG. 4 illustrates a process diagram for a specific implementation of a car rental in accordance with one or more embodiments of the disclosure;

FIG. 5 illustrates a diagram of a specific implementation of a return cart in accordance with one or more embodiments of the present disclosure;

FIG. 6 shows a schematic block diagram of a rental server in accordance with one or more embodiments of the specification;

FIG. 7 shows a schematic diagram of a timesharing vendor server according to one or more embodiments of the present description;

FIG. 8 shows a schematic diagram of a computer device in accordance with one or more embodiments of the present description.

Detailed Description

Exemplary embodiments of the present disclosure will be described in more detail below with reference to the accompanying drawings. While exemplary embodiments of the present disclosure are shown in the drawings, it should be understood that the present disclosure may be embodied in various forms and should not be limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the disclosure to those skilled in the art.

One or more embodiments of the present specification provide a method for renting a car, which is applied to a third-party server, and is referred to as a time-sharing rental server. The time-sharing leasing server is provided with a corresponding application program in a client, an applet plugin for performing data interaction with the time-sharing leasing manufacturer server is built in the application program, the applet plugin is regarded as a third-party time-sharing leasing platform by one or more embodiments of the specification, and all orders related to automobile (automatic automobile) leasing are processed by combining the time-sharing leasing server and the time-sharing leasing manufacturer server. The time-sharing leasing server and the time-sharing leasing manufacturer server are two mutually independent servers. The existing car renting mode is generally that a time-sharing renting manufacturer installs an APP (software application) corresponding to the time-sharing renting manufacturer on a client, and provides a car renting function for a user by starting the APP. In one or more embodiments of the present specification, a time-share rental manufacturer does not need to install an APP at a client, but sends a rental car order to a time-share rental server by using an application program provided by the time-share rental server, and the time-share rental server and the time-share rental manufacturer server are combined with each other to provide a car rental function for a user. The basis for realizing the method is that the time-sharing leasing manufacturer server is internally provided with an applet plugin in an application program provided by the time-sharing leasing server, the applet plugin (namely a third-party time-sharing leasing platform) can send the requirement of a user to the time-sharing leasing server from a client side, then the time-sharing leasing server and the time-sharing leasing manufacturer server perform data interaction, and the time-sharing leasing manufacturer server are combined with each other to realize a car leasing function. Certainly, since the manufacturers of the time-sharing leasing manufacturer servers are different, a total applet (named as a shared automobile, for example) can be embedded in the application program, and after the applet plug-in is opened, the corresponding subprogram plug-ins of each time-sharing leasing manufacturer server can also be displayed, and the subprogram plug-ins can be named by respective brands, such as a brand a shared automobile, a brand B shared automobile, and the like. Each subprogram plug-in can receive the operation of a user, specific operation information is sent to the time-sharing leasing server, the time-sharing leasing server and the corresponding time-sharing leasing manufacturer server perform data interaction, and the time-sharing leasing server and the corresponding time-sharing leasing manufacturer server are combined with each other to achieve a car leasing function.

Referring to fig. 1, a diagram of an implementation process of a car rental method provided in one or more embodiments of the present specification is shown, where the method is executed on a time-sharing rental server side, and specifically includes the following steps:

and step 11, receiving a car renting request sent by the client.

In a specific implementation, the client includes but is not limited to: smart phones, computers (laptops, desktops, all-in-one machines, etc.), PADs, etc.

The car rental request is also called a car (also called an automatic car) rental request, and the car (automatic car) related to one or more embodiments of the present specification includes but is not limited to: electric automobiles, fuel automobiles, battery cars (electric motorcycles), fuel motorcycles, electric bicycles, balance cars, bicycles, and the like.

And the client side is provided with an application program corresponding to the time-sharing leasing server.

When the user has a vehicle using requirement, the application program corresponding to the time-sharing rental server on the client side is operated to generate a vehicle renting request, for example, the application program corresponding to the time-sharing rental server is logged in, the time-sharing rental server is opened to operate to generate the vehicle renting request, and the vehicle renting request is sent to the time-sharing rental server. And on the time-sharing leasing server side, a car leasing request sent by the client side is received.

As an alternative embodiment, the deposit-exempt service may be implemented based on user credit prior to receiving a car rental request sent by the client. Referring to fig. 2, a diagram of a credit exemption implementation process of one or more embodiments of the present specification is shown.

In a specific implementation process, the application program corresponding to the timesharing server can generate credit points according to the historical credit (for example, the amount of repayment, borrowing, buying and selling, and the like) of the user. If the credit score of the user is higher than a certain value, the deposit-free service of the user can be realized for the user, and the shared automobile in any scene can be rented at will under the condition of not needing to pay deposit, so that the fund safety problem of the user is solved, and the user experience is optimized.

In addition, after the user uploads the verification image (such as an identification card photo), the time-sharing leasing server encrypts and stores the verification image uploaded by the user, and the verification image can be output to the time-sharing leasing manufacturer server for storage after the user agrees to use the vehicle. One-time uploading and multiple output use are carried out, so that the user experience is optimized.

Reference is now made to specific implementations.

Step 201, the time-sharing leasing server receives a car leasing service appointment request sent by the client. The taxi service appointment request carries user information, credit points and the like of the client. Then, the time-sharing leasing server calls a judgment rule from a credit database based on the car leasing service agreement request; the decision rule may be a credit point decision rule, e.g. the user's credit point must meet a preset credit point threshold, e.g. 600 points, etc. And further, step 202 is performed.

And step 202, the time-sharing leasing server verifies the user information of the client. In the verification process, the user information may be verified in the form of an account password or the like, or the user information may be verified by using face recognition, and the like, and one or more embodiments of the present specification are not limited herein.

If the verification is passed, step 203 is executed, and the time-sharing leasing server calls the judgment rule from the credit database based on the renting service appointment request. Here, the time-share leasing server and the time-share leasing manufacturer server perform data communication, and the time-share leasing generation server calls out the judgment rule from the credit database and transmits the judgment rule to the time-share leasing server.

Step 204, judging the client by using the judgment rule; the specific judgment mode is to judge whether the credit score corresponding to the client meets a preset credit score threshold, and if so, the client is indicated to meet the judgment rule. For example, the user score reaches 600 points, indicating that the client satisfies the determination rule.

If the client side is determined to satisfy the determination rule, step 205 is executed to receive and store the identification image sent by the client side. And the identification image sent by the client can be encrypted and stored for more secure protection. Further, step 206 is executed, and when the user agrees to output the identification image, the identification image is sent to the time-sharing lease generation server for encrypted storage.

Step 207, the time-sharing leasing server judges whether the escort-free amount of the client is zero or not;

if not, the escort-free limit is more than 0, then step 208 is executed, and the time-sharing leasing server and the client side sign up a credit pre-authorization protocol. Further, the credit score corresponding to the client is used for determining the escort-free amount of the client. And then mortgage the corresponding rent according to the free credit.

And step 209 is executed, and the time-sharing leasing server sends the first subscription information obtained after successful subscription to the time-sharing leasing manufacturer server for storage.

If yes, indicating that the escort-free quota is 0, executing step 210, the time-sharing leasing server and the client side perform fund pre-authorization protocol subscription, and executing step 211, and sending second subscription information obtained after successful subscription to the time-sharing leasing manufacturer server for storage.

The above is a specific implementation process using credit exemption. If the credit score of the user is higher than a certain value, the deposit-free service of the user can be realized for the user, and the shared automobile in any scene can be rented at will under the condition of not needing to pay deposit, so that the fund safety problem of the user is solved, and the user experience is optimized.

And step 12, calculating and obtaining a recommended network car rental within a preset distance range from the position of the client based on the car rental request, and recommending the recommended network car rental to the client.

In a specific calculation process, the recommended network rented vehicles can be obtained through calculation and recommended to the client based on the vehicle renting request and by combining an artificial intelligence algorithm and the respective basic parameter information of all network rented vehicles within the preset distance range.

The basic parameter information of the net rented vehicle at least comprises one or more of the following dimension information: user experience, net hire car position, parking area historical record, the cost of parkking, operation efficiency, trip frequency, net hire car electric quantity.

The preset distance range in the embodiment can be set at will, and the time-sharing leasing server can recommend all network leased cars to the client as recommended network leased cars after calculating and obtaining basic parameter information of all network leased cars within the preset distance range in combination with an artificial intelligence algorithm; or sorting the network rented vehicles, and then recommending the preset number of network rented vehicles which are sorted in the front to the client as recommended network rented vehicles. For example, in the recommendation process, the time-share leasing server first determines all the net leasing cars (50 cars) which are 500 meters away from the client position. And then, combining an artificial intelligence algorithm and basic parameter information of the online car renting, and performing comprehensive analysis on the aspects of user experience, the position, the historical record of the parking lot, the parking cost, the operation efficiency, the trip frequency, the electric quantity and the like according to the sequence of comprehensive evaluation from high to low. Further, all the 50 rented cars are recommended to the client, or 10 front-ranked cars are selected from the 50 rented cars and recommended to the client.

In addition, in the recommendation process, a weight may be set for each dimension. The weights of the dimensions can be set to be the same, or the weight setting proportion of a certain dimension can be increased. For example, the weight of the power dimension is set to 0.5, the total weight of other dimensions is 0.5 (the sum of the weights of all dimensions is 1), and so on. Of course, the sorting may also be performed by taking a certain dimension as itself, for example, sorting according to the electricity amount or sorting according to the parking cost, and the like.

Further, various ways may be used for recommendation. For example, the recommended net renters can be ranked and recommended in a list form according to the level of the comprehensive score. The positions of the rented cars of all the networks can be displayed on the map, and the license plate number, the car model number, the manufacturer, the comprehensive score and the like can be displayed and selected by the user.

And step 13, creating a taxi renting order based on the target network taxi selected from the recommended network taxi renting by the client.

In the specific implementation process of creating the rental order, the rental order carries basic information (such as a car model and a specified boarding position) of a target network car appointment, subscription information of a time-sharing rental manufacturer server, and the like. The designated boarding position is a boarding position reserved by the user through the client and may be different from the position of the client.

As an alternative embodiment, after the client creates a car rental order from a target network car rental selected from the recommended network car renters, the car rental order is further sent to a credit database for recording, and a fulfillment record is created by the credit database, so that the car rental is also included in the credit evaluation of the user.

And step 14, sending the car rental order to a time-sharing rental manufacturer server corresponding to the target network car rental, so that the time-sharing rental manufacturer server generates a dynamic verification code according to the car rental order and returns the dynamic verification code.

In a specific implementation process, the time-sharing leasing manufacturer server verifies the subscription information carried by the rental car order, and if the subscription information passes the verification, a dynamic verification code is further generated and transmitted back to the time-sharing leasing server.

And step 15, sending the dynamic verification code to the client, so that the client generates a code to be verified.

In a specific implementation process, the time-sharing leasing server sends the dynamic verification code to the client, and a user corresponding to the client inputs a code to be verified to the client based on the dynamic verification code, so that the client can obtain the code to be verified. Generally, the code to be verified must be consistent with the dynamic verification code before the code to be verified can be verified. If not (e.g., user input error), the verification fails.

Step 16, receiving the code to be verified sent by the client, and forwarding the code to be verified to the time-sharing leasing manufacturer server, so that the time-sharing leasing manufacturer server verifies the code to be verified; and if the verification is passed, controlling the target network to rent the vehicle and start the vehicle renting service.

In a specific implementation process, if the verification is passed, the time-sharing leasing manufacturer server can control the target network to order the car and unlock the car for the user to use. In addition, the designated boarding position of the client is different from the position of the client, so that the time-sharing leasing manufacturer server can control the target network to lease the car to automatically go to the boarding position designated by the client, the user can conveniently use the car, and the convenience is improved.

As an alternative embodiment, in the process of controlling the target network car rental to start the car rental service, the target network car rental service may be controlled to be locked for a preset time (for example, 15 minutes), if no new instruction is received after the preset time, the car rental service of the target network car rental is controlled to be closed, and if the client needs to use the target network car rental again, the car rental order must be created again.

The implementation process of car renting is realized by combining the time-sharing renting server and the time-sharing renting manufacturer server, for a user, the user can conveniently and quickly rent the car by one key only by initiating a car renting request, the car renting mode is simple and convenient, and the safety of the car renting can be ensured.

As an optional embodiment, the receiving unit receives the to-be-verified code sent by the client, and forwards the to-be-verified code to the time-share leasing vendor server, so that the time-share leasing vendor server verifies the to-be-verified code; and if the verification is passed, controlling the implementation process of returning the car to the client after the target network car renting is started.

The returning process will be described in detail below.

As an alternative embodiment, when the target network rented car reaches the destination, parking information is generated and sent to the time-sharing renting manufacturer server. Therefore, for the time-sharing leasing server, parking information forwarded by the time-sharing leasing manufacturer server is received, and the parking information is generated after the target network car renting arrives at the destination position and is sent to the time-sharing leasing manufacturer server; and then the time-sharing leasing server generates car returning reminding information based on the parking information and sends the car returning reminding information to the client, so that the client reminds the user, wherein the reminding mode can be voice reminding, character reminding and the like.

As an optional embodiment, when the user needs to return the car, the user, as a time-sharing rental server, receives a car return request sent by the client; then generating information to be paid based on the car returning request, and sending the information to be paid to the client for payment; and generating corresponding result information based on the payment information sent by the client, and sending the result information to the time-sharing leasing manufacturer server for recording. In addition, the result information is also synchronized to a credit database.

In a specific implementation process, after generating information to be paid and sending the information to the client for payment, whether the client pays successfully can be judged based on the payment information sent by the client; and if the payment is successful, sending the result information of successful payment to the time-sharing leasing manufacturer server for recording, and synchronizing the result information of successful payment to a credit database. At this moment, the credit database records the payment result information, marks the completion of the fulfillment record of the user based on the result information of successful payment, and increases the credit score of the user. And if the payment fails, sending result information of the payment failure to the time-sharing leasing manufacturer server for recording, synchronizing the result information of the payment failure to a credit database, and generating a re-payment prompt by the credit database. And if the payment still fails within the specified time, generating a default record based on the result information of the payment failure, and deducting the credit points of the user.

In a specific implementation process, after a car returning request sent by the client is received, calculating and obtaining a recommended parking position by using an artificial intelligence algorithm based on the car returning request; and then sending the parking recommended position to the time-sharing leasing manufacturer server, so that the time-sharing leasing manufacturer server generates a car returning instruction based on the parking recommended position, and sends the car returning instruction to the target network car renting, and further the target network car renting automatically goes to the parking recommended position.

Further, in the specific implementation process of calculating and obtaining the parking recommended position by using the artificial intelligence algorithm, the parking recommended position is calculated and obtained by combining the artificial intelligence algorithm and the basic parameter information of the target network for renting the car. And the basic parameter information of the target network car rental at least comprises one or more of the following dimension information: the electric quantity, the position of the target network rented vehicle, the parking lot, the cost of the parking lot, the operation efficiency and the trip frequency.

In the implementation process of calculating the recommended positions, corresponding weights can be set for the dimensions, then, an artificial intelligence algorithm is combined to obtain comprehensive scores of all parking recommended positions, and then, one or more calculated parking recommended positions are sent to a user so that the user can select the parking recommended positions.

In addition, for the time-share leasing vendor server side, the implementation process of the car leasing method is as follows with reference to fig. 3:

and step 31, receiving a car rental order sent by the time-sharing rental server.

The time-sharing leasing server selects a target network leasing from recommended network leasing based on the client, and the recommended network leasing is a network leasing which is calculated by the time-sharing leasing server based on a leasing request sent by the client and is within a preset distance range from the client.

As an optional embodiment, after receiving a car rental order sent by the time-sharing rental server, a car rental instruction may be generated based on the car rental order, where the car rental instruction carries the getting-on position and the destination position specified by the client; and sending the car renting instruction to the target network car renting so that the target network car renting automatically goes to the car getting-on position appointed by the client. Further, the client-specified boarding location and the current location of the client may be different.

And step 32, generating a dynamic verification code based on the taxi order and transmitting the dynamic verification code back to the time-sharing leasing server, so that the time-sharing leasing server forwards the dynamic verification code to the client and turns the code to be verified generated by the client based on the dynamic verification code.

And step 33, verifying the code to be verified.

And step 34, controlling the target network to rent the vehicle and start the vehicle renting service if the verification is passed.

After controlling the target network car rental to start car rental service, receiving parking information generated and sent after the target network car rental reaches a destination position; and then forwarding the parking information to the time-sharing leasing server, so that the time-sharing leasing server generates car returning reminding information based on the parking information, and sends the car returning reminding information to the client.

Further, the temporary parking location of the target network rental car may not be the destination location. When the parking position of the target network car rented at the temporary parking place exceeds a preset time threshold, a temporary parking message is also generated and sent; and forwarding the temporary parking message to the time-sharing leasing server, so that the time-sharing leasing server generates corresponding car returning reminding information based on the temporary parking message, and sends the corresponding car returning reminding information to the client.

As an alternative embodiment, after controlling the target network to rent the car and start the car renting service, the following steps are also executed:

receiving a car returning request transmitted by the client and forwarded by the time-sharing leasing server;

receiving a parking recommended position calculated and obtained by the time-sharing leasing server by using an artificial intelligence algorithm;

and generating a car returning instruction based on the parking recommended position, and sending the car returning instruction to the target network car renting, so that the target network car renting automatically goes to the parking recommended position.

In the specific implementation process, further, in the specific implementation process of obtaining the parking recommended position by using the artificial intelligence algorithm, the parking recommended position is obtained by calculation in combination with the artificial intelligence algorithm and the basic parameter information of the target network for renting the car. And the basic parameter information of the target network car rental at least comprises one or more of the following dimension information: the electric quantity, the position of the target network rented vehicle, the parking lot, the cost of the parking lot, the operation efficiency and the trip frequency.

In the implementation process of calculating the parking recommended positions, corresponding weights can be set for the dimensions, then, an artificial intelligence algorithm is combined to obtain comprehensive scores of the parking recommended positions, and then, one or more calculated parking recommended positions are sent to a user so that the user can select the parking recommended positions.

The above description is about the car rental process and the car return process from the time-share rental company server side.

In the following implementation process, please refer to fig. 4, which is a process for realizing car rental by several aspects of a client, a time-sharing rental server, a time-sharing rental vendor server, a network car rental, and a credit database.

Step 411, the client sends a car renting request to the time-sharing renting server.

And step 412, recommending the net rented vehicle near the designated position by the time-sharing renting server based on an artificial intelligence algorithm AI algorithm.

And step 413, returning the recommendation result to the client.

And step 414, the client selects the target network to rent the vehicle.

And step 415, the time-sharing leasing server creates a car leasing order based on the target network car leasing.

And step 416, the time-sharing leasing server sends the car leasing order to the time-sharing leasing manufacturer server for storage.

And step 417, the time-sharing leasing server sends the car leasing order to the credit database.

Step 418, the credit database creates a fulfillment record.

And 419, generating a car rental instruction based on the car rental order by the time-sharing rental manufacturer server and sending the car rental instruction to the target network.

And step 420, automatically forwarding the target network car renting to the car getting-on position designated by the client based on the car renting instruction.

And step 421, synchronizing the information to the time-sharing leasing manufacturer server.

And step 422, the time-sharing leasing manufacturer server generates a dynamic verification code based on the car leasing order.

And step 423, sending the dynamic verification code to the client.

Step 424, the client generates a code to be verified.

And step 425, the time-sharing leasing manufacturer server performs information verification based on the code to be verified.

And 426, after the verification is successful, sending a door opening instruction to the target network car rental.

And 427, starting the car renting service by the target network to finish one-key car renting.

Please refer to fig. 5, which illustrates the process of returning the car from the client, the timesharing platform, the timesharing vendor server, the online car rental, and the credit database.

And 511, generating parking information after the target network rents the vehicles to the target position.

And step 512, the time-sharing leasing manufacturer server forwards the parking information to the time-sharing leasing server.

And 513, the time-sharing leasing server generates car returning reminding information based on the parking information. In addition, parking information is also recorded.

And step 514, the time-sharing leasing server sends the car returning reminding information to the client.

Step 515, the client generates and sends a request to return the car.

And step 516, the time-sharing leasing server calculates the parking recommended position based on the car returning request and the AI algorithm.

And 517, the time-sharing leasing server sends the parking recommended position to the time-sharing leasing manufacturer server.

And 518, generating a car returning instruction by the time-sharing leasing manufacturer server based on the parking recommended position, and sending the car returning instruction to the target network for car leasing.

And step 519, automatically enabling the target network to rent the vehicle to the parking recommended position.

And step 520, the time-sharing leasing server generates information to be paid based on the car returning request and sends the information to the client for payment.

And 521, judging whether the payment is successful or not by the time-sharing leasing server based on the payment information sent by the client.

And 522, synchronizing the payment result to the time-sharing leasing manufacturer server if the payment is successful.

Step 523, if the payment is successful, the payment result is synchronized to the credit database.

Step 524, if the payment fails, the payment result is synchronized to the credit database.

Based on the same inventive concept, one or more embodiments of the specification disclose a car renting method, which can be applied to a time-sharing renting server and also can be applied to a time-sharing renting manufacturer server.

If the method is applied to the time-sharing leasing server, the time-sharing leasing server receives a car leasing request sent by a client in a specific implementation process; then, based on the car renting request, calculating and obtaining a recommended network car renting distance from the position of the client within a preset distance range and recommending the recommended network car renting distance to the client; further, the time-sharing lease server can also establish a lease order based on a target network lease selected from the recommended network leases by the client; obtaining a dynamic verification code based on the car rental order; sending the dynamic verification code to the client, so that the client generates a code to be verified; and then receiving the code to be verified sent by the client, and controlling the target network car renting service based on a verification result corresponding to the code to be verified.

In a specific implementation process, one or more implementation modes can be provided for obtaining the dynamic verification code based on the taxi order. For example, the dynamic validation code may be generated by the timesharing server itself based on the rental car order. Or the rental car order is sent to a time-sharing rental manufacturer server corresponding to the target network rental car, so that the time-sharing rental manufacturer server generates a dynamic verification code according to the rental car order and returns the dynamic verification code. The time-sharing leasing server can also acquire and store the verification code from the time-sharing leasing manufacturer server in advance, and after the car rental order is acquired, the verification code can be directly provided for the client based on the car rental order.

As an optional example, in the process of controlling the target network car rental service based on the verification result corresponding to the to-be-verified code, there may be one or more implementation manners. For example, the time-sharing leasing server may control the target network car leasing service and control the target network car leasing to start the service, or the time-sharing leasing server may forward the to-be-verified code to the time-sharing leasing manufacturer server after receiving the to-be-verified code sent by the client, so that the time-sharing leasing manufacturer server verifies the to-be-verified code; and if the verification is passed, controlling the target network car rental by the time-sharing rental manufacturer server to start car rental service.

Based on the same inventive concept, referring to fig. 6, one or more embodiments of the present specification disclose a time-share rental server, including:

the first receiving module 61 is used for receiving a car renting request sent by the client;

the calculation module 62 is configured to calculate, based on the car renting request, a recommended network car rented from the client within a preset distance range and recommend the recommended network car rented to the client;

a creating module 63, configured to create a rental car order based on a target web rental car selected by the client from the recommended web rental cars;

the first sending module 64 is configured to send the rental car order to a time-sharing rental manufacturer server corresponding to the target network rental car, so that the time-sharing rental manufacturer server generates and returns a dynamic verification code according to the rental car order;

a second sending module 65, configured to send the dynamic verification code to the client, so that the client generates a to-be-verified code;

a second receiving module 66, configured to receive the to-be-verified code sent by the client, and forward the to-be-verified code to the time-share leasing vendor server, so that the time-share leasing vendor server verifies the to-be-verified code; and if the verification is passed, controlling the target network to rent the vehicle and start the vehicle renting service.

As an optional embodiment, the calculating module 62 is specifically configured to calculate and obtain the recommended network rental car and recommend the recommended network rental car to the client based on the car rental request and by combining an artificial intelligence algorithm and the respective basic parameter information of all network rental cars within the preset distance range.

As an optional embodiment, the basic parameter information includes one or more of the following dimension information:

user experience, position, parking area historical record, the expense of parkking, operation efficiency, trip frequency, electric quantity.

As an optional embodiment, the time sharing lease server further includes:

a third receiving module for receiving the request of the car renting service appointment sent by the client

The calling module is used for calling a judgment rule from a credit database based on the taxi renting service appointment request;

the first judgment module is used for judging the client by utilizing the judgment rule;

the fourth receiving module is used for receiving and storing the identification image sent by the client if the client is judged to meet the judgment rule;

the second judgment module is used for judging whether the escort-free amount of the client is zero or not;

the first subscription module is used for carrying out credit pre-authorization protocol subscription with the client if the client does not receive the credit pre-authorization protocol subscription request, and sending first subscription information obtained after the subscription is successful to the time-sharing leasing manufacturer server for storage;

and the second subscription module is used for carrying out fund pre-authorization protocol subscription with the client if the client receives the request, and sending second subscription information obtained after successful subscription to the time-sharing leasing manufacturer server for storage.

As an optional embodiment, the time sharing lease server further includes: the verification module is used for verifying the user information of the client after receiving the vehicle renting service appointment request sent by the client, and calling a judgment rule from a credit database based on the vehicle renting service appointment request if the user information passes the verification;

the first judging module is specifically configured to judge whether a credit score corresponding to the client meets a preset credit score threshold, and if yes, the client is indicated to meet the judging rule;

the time sharing lease server further comprises: and the determining module is used for determining the escort-free amount of the client by using the credit score corresponding to the client before judging whether the escort-free amount of the client is zero.

As an optional embodiment, the time sharing lease server further includes:

and the recording module is used for sending the taxi renting order to a credit database for recording after the taxi renting order is created based on the target network taxi selected from the recommended network taxi renting by the client.

As an optional embodiment, the time sharing lease server further includes:

the fifth receiving module is used for receiving parking information forwarded by the time-sharing leasing manufacturer server, and the parking information is generated after the target network rental car reaches a destination position and is sent to the time-sharing leasing manufacturer server;

and the third sending module is used for generating car returning reminding information based on the parking information and sending the car returning reminding information to the client.

As an optional embodiment, the time sharing lease server further includes:

the sixth receiving module is used for receiving the car returning request sent by the client;

the generating module is used for generating information to be paid and sending the information to be paid to the client side for payment based on the vehicle returning request;

and the fourth sending module is used for generating corresponding result information based on the payment information sent by the client and sending the result information to the time-sharing leasing manufacturer server for recording.

As an optional embodiment, the time sharing lease server further includes:

and the synchronization module is used for synchronizing the result information to the credit database.

As an optional embodiment, the time sharing lease server further includes:

the obtaining module is used for calculating and obtaining a parking recommended position by utilizing an artificial intelligence algorithm based on the returning request;

and the fifth sending module is used for sending the parking recommended position to the time-sharing leasing manufacturer server, so that the time-sharing leasing manufacturer server generates a car returning instruction based on the parking recommended position, sends the car returning instruction to the target network car renting and further enables the target network car renting to automatically go to the parking recommended position.

As an optional embodiment, the obtaining module is specifically configured to calculate and obtain the recommended parking position by combining the artificial intelligence algorithm and the basic parameter information of the target network car rental.

As an optional embodiment, the basic parameter information of the target network car rental includes one or more of the following dimension information:

the electric quantity, the position of the target network rented vehicle, the parking lot, the cost of the parking lot, the operation efficiency and the trip frequency.

Based on the same inventive concept, referring to fig. 7, one or more embodiments of the present specification disclose a time-share rental vendor server, the method further comprising:

a first receiving unit 71, configured to receive a rental car order sent by a time-sharing rental server, where the rental car order is created by the time-sharing rental server based on a target web rental car selected by the client from recommended web rental cars, and the recommended web rental car is a web rental car calculated by the time-sharing rental server based on a rental car request sent by the client, and the obtained location is within a preset distance range from the client;

the first generating unit 72 is configured to generate a dynamic verification code based on the rental car order and transmit the dynamic verification code back to the time-sharing rental server, so that the time-sharing rental server forwards the dynamic verification code to the client, and turns back a to-be-verified code generated by the client based on the dynamic verification code;

a verification unit 73, configured to verify the code to be verified;

and the control unit 74 is used for controlling the target network to rent the vehicle and start the vehicle renting service if the verification is passed.

As an optional embodiment, the timesharing rental vendor server further comprises:

the second generation unit is used for generating a car renting instruction based on the car renting order after receiving the car renting order sent by the time-sharing renting server, wherein the car renting instruction carries the getting-on position and the destination position specified by the client;

and the sending unit is used for sending the car renting instruction to the target network car renting so that the target network car renting can automatically go to the car getting-on position appointed by the client.

the second receiving unit is used for controlling the target network car rental to start car rental service and then receiving the parking information generated and sent by the target network car rental after the target network car rental reaches the destination position;

and the third generating unit is used for forwarding the parking information to the time-sharing leasing server, so that the time-sharing leasing server generates car returning reminding information based on the parking information and sends the car returning reminding information to the client.

the fourth receiving unit is used for controlling the target network to receive the car returning request transmitted by the client and forwarded by the time-sharing leasing server after the car leasing service is started;

a fifth receiving unit, configured to receive a recommended parking position calculated by the time-sharing rental server using an artificial intelligence algorithm;

and the fourth generating unit is used for generating a car returning instruction based on the parking recommended position, sending the car returning instruction to the target network car renting, and enabling the target network car renting to automatically go to the parking recommended position.

Based on the same inventive concept, one or more embodiments of the present specification disclose a car rental system, including:

Based on the same inventive concept as in the previous embodiments, one or more embodiments of the present description further provide a computer-readable storage medium having stored thereon a computer program, which when executed by a processor, performs the steps of any of the methods described above.

Based on the same inventive concept as in the previous embodiments, with reference to fig. 8, comprising a memory 804, a processor 302 and a computer program stored on the memory 304 and executable on the processor 802, the processor 302 when executing the program realizes the steps of any of the methods described above.

Where in fig. 8 a bus architecture (represented by bus 800), bus 800 may include any number of interconnected buses and bridges, bus 800 linking together various circuits including one or more processors, represented by processor 802, and memory, represented by memory 804. The bus 800 may also link together various other circuits such as peripherals, voltage regulators, power management circuits, and the like, which are well known in the art, and therefore, will not be described any further herein. A bus interface 805 provides an interface between the bus 800 and the receiver 801 and transmitter 803. The receiver 801 and the transmitter 803 may be the same element, i.e., a transceiver, providing a means for communicating with various other apparatus over a transmission medium. The processor 802 is responsible for managing the bus 800 and general processing, and the memory 804 may be used for storing data used by the processor 802 in performing operations.

With one or more of the one or more embodiments of the present description, the one or more embodiments of the present description have the following advantageous effects or advantages:

The algorithms and displays presented herein are not inherently related to any particular computer, virtual machine, or other apparatus. Various general purpose systems may also be used with the teachings herein. The required structure for constructing such a system will be apparent from the description above. In addition, one or more embodiments of the present specification are not directed to any particular programming language. It is appreciated that a variety of programming languages may be used to implement the teachings of one or more embodiments of the present specification and the descriptions of specific languages above are provided to disclose the best modes of one or more embodiments of the present specification.

In the description provided herein, numerous specific details are set forth. It can be appreciated, however, that embodiments of one or more embodiments of the specification may be practiced without these specific details. In some instances, well-known methods, structures and techniques have not been shown in detail in order not to obscure an understanding of one or more embodiments of the description.

Similarly, it should be appreciated that in the foregoing description of exemplary embodiments of one or more embodiments of the specification, various features of one or more embodiments of the specification are sometimes grouped together in a single embodiment, figure, or description thereof for the purpose of streamlining the disclosure and aiding in the understanding of one or more of the various inventive aspects. However, the disclosed method should not be interpreted as reflecting an intention that: that is, one or more embodiments of the claimed subject matter require more features than are expressly recited in each claim. Rather, as the following claims reflect, inventive aspects lie in less than all features of a single foregoing disclosed embodiment. Thus, the claims following the detailed description are hereby expressly incorporated into this detailed description, with each claim standing on its own as a separate embodiment of one or more embodiments of this specification.

Those skilled in the art will appreciate that the modules in the device in an embodiment may be adaptively changed and disposed in one or more devices different from the embodiment. The modules or units or components of the embodiments may be combined into one module or unit or component, and furthermore they may be divided into a plurality of sub-modules or sub-units or sub-components. All of the features disclosed in one or more embodiments of this specification (including any accompanying claims, abstract and drawings), and all of the processes or elements of any method or apparatus so disclosed, may be combined in any combination, except combinations where at least some of such features and/or processes or elements are mutually exclusive. Each feature disclosed in one or more embodiments of the specification (including the accompanying claims, abstract and drawings) may be replaced by alternative features serving the same, equivalent or similar purpose, unless expressly stated otherwise.

Furthermore, those of skill in the art will understand that although some embodiments herein include some features included in other embodiments, rather than other features, combinations of features of different embodiments are meant to be within the scope of one or more embodiments of the present description and form different embodiments. For example, in the following claims, any of the claimed embodiments may be used in any combination.

The various component embodiments of one or more embodiments of this specification may be implemented in hardware, or in software modules running on one or more processors, or in a combination thereof. Those skilled in the art will appreciate that a microprocessor or Digital Signal Processor (DSP) may be used in practice to implement some or all of the functionality of some or all of the components of a gateway, proxy server, system in accordance with one or more embodiments of the present description. One or more embodiments of the present specification can also be implemented as an apparatus or device program (e.g., computer program and computer program product) for performing a portion or all of the methods described herein. Such programs implementing one or more embodiments of the present specification may be stored on a computer-readable medium or may be in the form of one or more signals. Such a signal may be downloaded from an internet website or provided on a carrier signal or in any other form.

It should be noted that the above-mentioned embodiments illustrate rather than limit one or more embodiments of the specification, and that those skilled in the art will be able to design alternative embodiments without departing from the scope of the appended claims. In the claims, any reference signs placed between parentheses shall not be construed as limiting the claim. The word "comprising" does not exclude the presence of elements or steps not listed in a claim. The word "a" or "an" preceding an element does not exclude the presence of a plurality of such elements. One or more embodiments of the present description may be implemented by means of hardware comprising several distinct elements, and by means of a suitably programmed computer. In the unit claims enumerating several means, several of these means may be embodied by one and the same item of hardware. The usage of the words first, second and third, etcetera do not indicate any ordering. These words may be interpreted as names.

Claims

1. A car renting method is applied to a time-sharing renting server, the time-sharing renting server and a time-sharing renting manufacturer server are mutually independent servers, different manufacturers correspond to the respective time-sharing renting manufacturer servers, and the method comprises the following steps:

receiving a car renting request generated and sent by an application program on a client, wherein the application program is provided by the time-sharing renting server, and an applet plug-in used for data interaction with the time-sharing renting manufacturer server is arranged in the application program;

2. The method according to claim 1, wherein the calculating, based on the car rental request, a recommended network car rental that is within a preset distance range from the location of the client and is recommended to the client includes:

and calculating to obtain the recommended network rented vehicles and recommending the recommended network rented vehicles to the client based on the vehicle renting request by combining an artificial intelligence algorithm and the respective basic parameter information of all network rented vehicles within the preset distance range.

3. The method of claim 2, wherein the basic parameter information comprises one or more of the following dimensional information:

4. The method of claim 1, prior to the receiving a rental car request sent by a client, the method further comprising:

receiving a car renting service appointment request sent by the client;

calling a judgment rule from a credit database based on the car renting service appointment request;

judging the client by using the judgment rule;

if the client side meets the judgment rule, receiving and storing an identification image sent by the client side;

judging whether the escort-free amount of the client is zero or not;

if not, performing credit pre-authorization protocol subscription with the client, and sending first subscription information obtained after successful subscription to the time-sharing leasing manufacturer server for storage;

and if yes, carrying out fund pre-authorization protocol subscription with the client, and sending second subscription information obtained after successful subscription to the time-sharing leasing manufacturer server for storage.

5. The method of claim 4, after receiving the request for a rental car service engagement sent by the client, the method further comprising:

the determining the client by using the determination rule specifically includes:

judging whether the credit score corresponding to the client meets a preset credit score threshold value or not, if so, indicating that the client meets the judgment rule;

before the step of judging whether the escort-free amount of the client is zero, the method further comprises the following steps:

and determining the escort-free limit of the client by using the credit score corresponding to the client.

6. The method of claim 1, after creating a rental car order based on a target web rental car selected by the client from the recommended web rental cars, the method further comprising:

and sending the car rental order to a credit database for recording.

7. The method of claim 1, wherein the receiving the code to be verified sent by the client and forwarding the code to be verified to the timesharing vendor server causes the timesharing vendor server to verify the code to be verified; if the verification is passed, after controlling the target network to rent the vehicle and start the vehicle renting service, the method further comprises the following steps:

receiving parking information forwarded by the time-sharing leasing manufacturer server, wherein the parking information is generated after the target network rental car reaches a destination position and is sent to the time-sharing leasing manufacturer server;

and generating car returning reminding information based on the parking information, and sending the car returning reminding information to the client.

8. The method of claim 1, wherein the receiving the code to be verified sent by the client and forwarding the code to be verified to the timesharing vendor server causes the timesharing vendor server to verify the code to be verified; if the verification is passed, after controlling the target network to rent the vehicle and start the vehicle renting service, the method further comprises the following steps:

receiving a car returning request sent by the client;

generating information to be paid based on the car returning request, and sending the information to be paid to the client for payment;

and generating corresponding result information based on the payment information sent by the client, and sending the result information to the time-sharing leasing manufacturer server for recording.

9. The method of claim 8, after generating corresponding result information based on the payment information sent by the client, the method further comprising:

synchronizing the result information into a credit database.

10. The method of claim 8, after receiving the request for returning the vehicle sent by the client, the method further comprising:

calculating to obtain a parking recommended position by utilizing an artificial intelligence algorithm based on the returning request;

and sending the parking recommended position to the time-sharing leasing manufacturer server, so that the time-sharing leasing manufacturer server generates a car returning instruction based on the parking recommended position, and sends the car returning instruction to the target network car leasing, and further the target network car leasing automatically goes to the parking recommended position.

11. The method according to claim 10, wherein the calculating of the parking recommended position based on the car returning request by using an artificial intelligence algorithm specifically comprises:

and calculating to obtain the parking recommended position by combining the artificial intelligence algorithm and the basic parameter information of the target network car rental.

12. The method of claim 10, wherein the basic parameter information of the target network car rental comprises one or more of the following dimension information:

13. A car renting method is applied to a time-sharing renting manufacturer server, and further comprises the following steps:

receiving a car rental order sent by a time-sharing rental server, wherein the car rental order is created by the time-sharing rental server based on a target network car rental selected by a client from recommended network car renters, the recommended network car rental is a network car renter which is calculated and obtained by the time-sharing rental server based on a car rental request generated and sent by an application program on the client and is within a preset distance range from the client, the time-sharing rental server and a time-sharing rental manufacturer server are mutually independent servers, different manufacturers correspond to the respective time-sharing rental manufacturer servers, the application program is provided by the time-sharing rental server, and a small program plug-in used for data interaction with the time-sharing rental manufacturer server is arranged in the application program;

verifying the code to be verified;

14. The method of claim 13, after receiving the rental car order sent by the timesharing server, the method further comprising:

generating a car renting instruction based on the car renting order, wherein the car renting instruction carries the getting-on position and the destination position specified by the client;

and sending the car renting instruction to the target network car renting so that the target network car renting automatically goes to the car getting-on position appointed by the client.

15. The method of claim 13, after controlling the target network to rent the car and start a car rental service, the method further comprising:

receiving parking information generated and sent by the target network rented vehicle after the target network rented vehicle reaches a destination position;

and forwarding the parking information to the time-sharing leasing server, so that the time-sharing leasing server generates car returning reminding information based on the parking information, and sends the car returning reminding information to the client.

16. The method of claim 13, after controlling the target network to rent the car and start a car rental service, the method further comprising:

17. The utility model provides a timesharing lease server, timesharing lease server and timesharing lease firm server are mutually independent server, and different producers correspond respective timesharing lease firm server, include:

the system comprises a first receiving module, a second receiving module and a third receiving module, wherein the first receiving module is used for receiving a car renting request generated and sent by an application program on a client, the application program is provided by a time-sharing renting server, and an applet plug-in used for carrying out data interaction with the time-sharing renting manufacturer server is arranged in the application program;

18. A time-share rental vendor server, comprising:

the system comprises a first receiving unit, a time-sharing leasing server and a second receiving unit, wherein the first receiving unit is used for receiving a leasing order sent by the time-sharing leasing server, the leasing order is created by the time-sharing leasing server based on a target network leasing selected from recommended network leasing by a client, the recommended network leasing is a network leasing which is calculated and obtained by the time-sharing leasing server based on a leasing request generated and sent by an application program on the client and is within a preset distance range from the client, the time-sharing leasing server and the time-sharing leasing manufacturer server are mutually independent servers, different manufacturers correspond to the respective time-sharing leasing manufacturer servers, the application program is provided by the time-sharing leasing server, and a small program plug-in used for data interaction with the time-sharing manufacturer leasing server is arranged in the application program;

the verification unit is used for verifying the code to be verified;

19. A car rental system, comprising: the time-sharing leasing server and different manufacturers correspond to respective time-sharing leasing manufacturer servers, the time-sharing leasing server and each time-sharing leasing manufacturer server are mutually independent servers,

the time-sharing leasing server is used for receiving a car leasing request generated and sent by an application program on the client; calculating and obtaining a recommended network car rental within a preset distance range from the position of the client based on the car rental request, and recommending the recommended network car rental to the client; creating a taxi renting order based on a target network taxi selected from the recommended network taxies by the client; sending the car rental order to a time-sharing rental manufacturer server corresponding to the target network car rental; the application program is provided by the time-sharing leasing server, and an applet plug-in used for data interaction with the time-sharing leasing manufacturer server is arranged in the application program;

20. A car renting method is applied to a car renting system, and the car renting system comprises the following steps: the time-sharing leasing method comprises the following steps that a time-sharing leasing server and different manufacturers correspond to respective time-sharing leasing manufacturer servers, and the time-sharing leasing server and each time-sharing leasing manufacturer server are mutually independent servers, and the method comprises the following steps:

obtaining a dynamic verification code based on the car rental order;

21. A computer-readable storage medium, on which a computer program is stored which, when being executed by a processor, carries out the steps of the method of any one of claims 1 to 12.

22. A computer device comprising a memory, a processor and a computer program stored on the memory and executable on the processor, the processor implementing the steps of the method of any one of claims 1-12 when executing the program.