CN114360161A - Big data based intelligent management method and system for shared battery cars - Google Patents

Abstract

The application relates to a big data-based intelligent management method and system for a shared battery car, wherein the method comprises the following steps: establishing a shared battery car management platform; after the user completes registration and credit granting through the client or the third-party promotion platform; a user selects an idle shared battery car in a station, performs identity authentication and unlocks the shared battery car; after the user rides the shared battery car, the shared battery car is sent to a nearby station through a station distribution map, and then the user initiates a car returning request; the shared battery car management platform verifies the car returning request, locks the shared battery car passing the verification and calculates the riding cost of the user; the shared storage battery car management platform collects the number of the shared storage battery cars in each throwing station in real time, and regulates and controls the number of the shared storage battery cars in a certain station when the number of the shared storage battery cars in the station is too small or too large. The method and the device have the effects of managing the shared battery car standard and promoting good development of the shared battery car enterprises.

Description

Big data based intelligent management method and system for shared battery cars

Technical Field

The application relates to the field of shared battery car management, in particular to a shared battery car intelligent management method and system based on big data.

Background

The sharing economy refers to an organization or an individual who has idle resources and gives the resource use right to other people for compensation, a transferor obtains a return, and a sharer creates value by sharing the idle resources of other people. In the shared economy, idle resources are the first and most critical elements. It is the basis for resource owner and resource user to share resource. The idle resources under the shared economic concept can be understood as: the resource is originally used by an individual or an organization, and is an idle resource when not in a use state or an occupied state.

After sharing a single vehicle and a vehicle, the era of shared operation also catalyzes the popularity of another vehicle, namely a shared electric vehicle. The management system of the shared bicycle is generally deployed and built in a city unit and comprises a data center, a parking station, a parking electronic anti-theft lock, a battery car (comprising a vehicle-mounted lock and a vehicle electronic tag) and corresponding communication and monitoring equipment. Although several sharing single car enterprises appear in China at present, the management of the storage battery cars is relatively disordered, the phenomena of disordered parking, disordered placement and loss of the storage battery cars often appear, effective management and control are not carried out on the sharing storage battery cars, and the phenomenon that the enterprises are not good in operation is caused.

Aiming at the related technologies, the inventor thinks that the existing shared battery cars lack effective unified management, are easy to be parked and placed disorderly and lose the battery cars, and influence the good development of enterprises.

Disclosure of Invention

In order to solve the problems that the existing shared battery cars lack effective unified management, are prone to being disorderly parked and disorderly discharged, are lost and influence good development of enterprises, the application provides an intelligent management method and system for the shared battery cars based on big data.

In a first aspect, the application provides a big data-based intelligent management method for a shared battery car, which adopts the following technical scheme:

a big data based intelligent management method for a shared battery car comprises the following steps:

establishing a shared battery car management platform, and throwing a preset number of shared single cars to each throwing site in a city;

after a user finishes registration and credit granting through a client or a third-party promotion platform, acquiring a site distribution map;

after a user arrives at a nearby site according to the site distribution map, selecting an idle shared battery car in the site, performing identity authentication, and unlocking the shared battery car;

after the user rides the shared battery car, the shared battery car is sent to a nearby station through a station distribution map, and the user initiates a car returning request to the shared battery car management platform through a client or a third-party promotion platform;

after receiving the car returning request, the shared battery car management platform verifies the car returning request, locks the verified car returning request through the shared battery car, and calculates riding cost of a user;

the shared storage battery car management platform acquires the position information of each shared storage battery car in real time, acquires the number of the shared storage battery cars in each throwing site in real time, and regulates and controls the number of the shared storage battery cars in a certain site when the number of the shared storage battery cars in the site is too small or too large.

Through adopting above-mentioned technical scheme, put in the website through setting up and put in shared storage battery car, realize that shared storage battery car concentrates standardized management, avoid the phenomenon of putting in disorder to stop, and save user's identity information through shared storage battery car management platform, and carry out authentication to the user who rents shared storage battery car, realize that shared storage battery car rents the flow standardization, be convenient for carry out effective management and control to shared storage battery car, ensure that the age of renting the user all accords with the storage battery car age of the china's standard, realize managing and avoiding the storage battery car to lose sharing storage battery car standard, reach the effect that promotes shared storage battery car enterprise's good development. And through the position information of each sharing storage battery car of real-time acquisition to in time regulate and control each sharing storage battery car quantity of throwing in the website, ensure that the user can have sufficient sharing storage battery car and use, promote user's use and experience.

Preferably, the step of completing, by the user, registration and trust authorization through the client or the third-party promotion platform specifically includes: the user downloads an APP client opened by the shared battery car management platform or opens a registration page of the shared battery car management platform on a third-party promotion platform to fill in identity information for registration, face recognition verification is conducted, and meanwhile the shared battery car management platform is authorized to call credit scoring data.

By adopting the technical scheme, after the user fills in the identity information on the registration page to register, the face recognition verification is carried out on the user to ensure the authenticity of the user information, and the credit score data of the user is called by the user authorization, so that the platform can judge whether the user credit is good or not according to the user score, and further determine whether the user needs to pay the deposit, certain risks are avoided for enterprises, and the enterprise development is facilitated.

Preferably, after the user arrives at a nearby site according to the site distribution map, the user selects an idle shared battery car in the site, performs identity authentication and unlocks the shared battery car specifically comprises the following steps:

after a user selects and goes to a nearby station according to the station distribution diagram, selecting an idle shared battery car in the station;

the method comprises the steps that a user scans a two-dimensional code on an idle shared battery car body and sends an unlocking request to a shared battery car management platform, the shared battery car management platform associates the shared battery car with the user after receiving the unlocking request of the user and sends an identity authentication instruction to the shared battery car, and the shared battery car sends an identity authentication voice prompt to the user through a preset sound production part after receiving the identity authentication instruction;

a user places an ID card of the user on an ID card reading device preset on a shared battery car according to voice prompt for identity authentication, if the authentication is passed, the shared battery car management platform sends an unlocking signal to an electronic lock of the shared battery car, the electronic lock of the shared battery car removes the power-on starting of a locking battery car of the shared battery car after receiving the unlocking signal, and meanwhile, the shared battery car management platform times the use of the shared battery car; if the authentication is not passed, voice information is sent out to prompt the user to check the identity information.

Through adopting above-mentioned technical scheme, carry out authentication through the user who gets the car to sweeping the sign indicating number, ensure user information's accuracy, reduce the risk of losing of sharing storage battery car, effectively avoid simultaneously that the unsatisfied user who rides the storage battery car of age rents the phenomenon of sharing storage battery car, maintain public transportation safety, ensure masses personal and property safety of people.

Preferably, after receiving the car returning request, the shared battery car management platform verifies the car returning request, locks the verified car returning request through the shared battery car, and calculates the riding cost of the user specifically comprises the following steps:

the method comprises the steps that after a shared battery car management platform receives a car returning request of a user, position information of a shared battery car rented by the user is obtained;

the method comprises the steps that a shared battery car management platform verifies position information of a shared battery car rented by a user, if the shared battery car is located in a delivery site range, verification is passed, the shared battery car management platform sends a lock falling signal to an electronic lock of the shared battery car, the electronic lock of the shared battery car locks the shared battery car after receiving the lock falling signal, meanwhile, the shared battery car is powered off, and cost is calculated according to the use duration of the shared battery car and a preset formula;

if the shared battery car is not located in the range of the throwing site, the verification is failed, a car returning failure information prompt is sent to the user, and the user is prompted to send the shared battery car to the nearby throwing site according to the site distribution diagram.

Through adopting above-mentioned technical scheme, effectively ensure the user and use up the back at shared storage battery car, can send shared storage battery car back to throwing in the website, effectively avoid shared storage battery car to stop in disorder the emergence of putting the phenomenon of putting, realize standardizing the effect of management and control to shared storage battery car.

Preferably, after receiving the returning failure information, the user can send feedback information to the client through the APP client or the third-party promotion platform if the user determines that the returning failure information is within the scope of the release site.

By adopting the technical scheme, the phenomenon that the user cannot return the vehicle due to equipment failure is avoided, the user experience is improved, the user viscosity is increased, and the good and rapid development of enterprises is promoted.

Preferably, the shared battery car management platform acquires the position information of each battery car in real time, acquires the number of the shared battery cars in each throwing site in real time, and regulates and controls the number of the shared battery cars in a certain site when the number of the shared battery cars in the site is too small or too large, and the method specifically comprises the following steps:

the shared battery car management platform acquires the position information of each battery car in real time and acquires the number of the shared battery cars in each throwing station in real time;

if the number of the shared battery cars in a certain throwing station is smaller than a preset threshold value A, generating a distribution order of the shared battery cars;

if the number of the shared battery cars in a certain throwing station is larger than a preset threshold value B, generating a shared battery car taking order;

the shared storage battery car management platform sends the shared storage battery car distribution orders and/or the shared storage battery car retrieval orders to a manager, and the manager distributes the shared storage battery cars with the corresponding number from a preset transfer station to the station and/or takes the shared storage battery cars with the corresponding number from the release station to the transfer station according to the shared storage battery car distribution orders and/or the shared storage battery car retrieval orders.

Through adopting above-mentioned technical scheme, through the positional information of each sharing storage battery car of real-time acquisition to in time regulate and control each sharing storage battery car quantity of throwing in the website, ensure that the user can have sufficient sharing storage battery car and use, effectively avoid appearing the phenomenon that certain website sharing storage battery car quantity too much leads to the unable parking of user simultaneously, promote user's use and experience and rent the car satisfaction.

Preferably, the shared bicycle platform monitors the use time of the rented shared bicycle, when the use time is longer than a preset threshold value C, an alarm signal is generated and sent to a manager, and the manager contacts an overtime user to perform inquiry processing according to the alarm information.

Through adopting above-mentioned technical scheme, through the user to sharing storage battery car that does not return for a long time contact the inquiry, can effectively reduce the probability that sharing storage battery car loses, in time provide help for the user that can't in time return the car because of the storage battery car trouble simultaneously, promote user's use and experience and satisfaction, also can strike and warn the phenomenon of borrowing the car not still simultaneously, reach the effect that promotes good development of enterprise to sharing storage battery car standard management.

In a second aspect, the application provides a sharing storage battery car intelligent management system based on big data, adopts following technical scheme:

the utility model provides a sharing storage battery car intelligent management system based on big data, includes:

the server module is used for establishing a shared battery car management platform, recording position information of each release site to generate a site distribution map, and receiving registration information submitted by a user through a client or a third-party promotion platform;

the shared battery car renting module is used for receiving an unlocking request of a user, unlocking the shared battery car after identity authentication is carried out on the user, sending the shared battery car to a nearby station through a station distribution map after riding of the user is finished, receiving a car returning request initiated by the user to the shared battery car management platform through a client or a third party promotion platform, verifying the car returning request, locking the verified shared battery car, and calculating riding cost of the user;

the shared storage battery car regulating and controlling module is used for acquiring the position information of each storage battery car in real time, acquiring the number of the shared storage battery cars in each throwing site in real time, and regulating and controlling the number of the shared storage battery cars in a certain site when the number of the shared storage battery cars in the site is too small or too large;

the server module, the shared battery car renting module and the shared battery car regulating and controlling module are in communication connection with each other.

Through adopting above-mentioned technical scheme, put in the website through setting up and put in shared storage battery car, realize that shared storage battery car concentrates standardized management, avoid the phenomenon of putting in disorder to stop, and save user's identity information through shared storage battery car management platform, and carry out authentication to the user who rents shared storage battery car, realize that shared storage battery car rents the flow standardization, be convenient for carry out effective management and control to shared storage battery car, ensure that the age of renting the user all accords with the storage battery car age of the china's standard, realize managing and avoiding the storage battery car to lose sharing storage battery car standard, reach the effect that promotes shared storage battery car enterprise's good development. And through the position information of each sharing storage battery car of real-time acquisition to in time regulate and control each sharing storage battery car quantity of throwing in the website, ensure that the user can have sufficient sharing storage battery car and use, promote user's use and experience.

In a third aspect, the application provides a shared battery car, which adopts the following technical scheme:

a shared battery car comprises a car body, a power assembly for driving the car body to move, a controller, a power supply, an electronic lock for locking the car body, a GPS positioning module, a communication module for receiving signals of a management platform of the shared battery car and an identity card reading device for reading identity information of a user; the power assembly, the power supply, the electronic lock, the GPS positioning module, the communication module and the identity card reading device are all connected with the controller.

Through adopting above-mentioned technical scheme, be convenient for sharing storage battery car management platform carries out long-range accurate management to the sharing storage battery car of putting in the website, optimize user's use and experience, promote the user and rent the car satisfaction, avoid the indiscriminate phenomenon of putting out of parking to take place, and be convenient for sharing storage battery car management platform to the collection and the authentication of user identity information, ensure that the age of renting the user all accords with the storage battery car age of riding of china's standard, realize sharing storage battery car management platform and avoid the storage battery car to lose to sharing storage battery car standard management, reach the effect that promotes sharing storage battery car enterprise's good development.

In a fourth aspect, the present application provides a computer-readable storage medium, which adopts the following technical solutions:

a computer-readable storage medium, storing a computer program that can be loaded by a processor and that performs any of the methods described above.

Through adopting above-mentioned technical scheme, put in the website through setting up and put in shared storage battery car, realize that shared storage battery car concentrates standardized management, avoid the phenomenon of putting in disorder to stop, and save user's identity information through shared storage battery car management platform, and carry out authentication to the user who rents shared storage battery car, realize that shared storage battery car rents the flow standardization, be convenient for carry out effective management and control to shared storage battery car, ensure that the age of renting the user all accords with the storage battery car age of the china's standard, realize managing and avoiding the storage battery car to lose sharing storage battery car standard, reach the effect that promotes shared storage battery car enterprise's good development. And through the position information of each sharing storage battery car of real-time acquisition to in time regulate and control each sharing storage battery car quantity of throwing in the website, ensure that the user can have sufficient sharing storage battery car and use, promote user's use and experience.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the shared battery car is thrown by setting the throwing station, so that the centralized standardized management of the shared battery cars is realized, the phenomenon of disordered throwing is avoided, the identity information of users is stored by the shared battery car management platform, the identity authentication is carried out on the users who rent the shared battery cars, the standardized leasing process of the shared battery cars is realized, the shared battery cars are conveniently and effectively controlled, the ages of the rented users are ensured to be in accordance with the battery car riding ages specified in China, the standardized management of the shared battery cars is realized, the battery cars are prevented from being lost, and the effect of promoting the good development of the shared battery car enterprises is achieved;

2. the identity authentication is carried out on the user who scans the code and gets the car, so that the accuracy of user information is ensured, the loss risk of the shared battery car is reduced, meanwhile, the phenomenon that the user whose age is not satisfied rents the shared battery car is effectively avoided, the public transportation safety is maintained, and the personal and property safety of the masses of people is ensured;

3. the position information of each shared battery car is collected in real time, and the number of the shared battery cars of each throwing station is regulated and controlled in time, so that a user can be ensured to have sufficient shared battery cars for use, the phenomenon that the user cannot stop due to the fact that the number of the shared battery cars of a certain station is too large is effectively avoided, and the use experience and the car renting satisfaction of the user are improved;

4. the vehicle returning request of the user returning the shared battery car is verified, the shared battery car can be returned to the throwing site after the shared battery car is used up, the phenomenon that the shared battery car is parked and placed disorderly is effectively avoided, and the effect of standard management and control on the shared battery car is achieved.

Drawings

FIG. 1 is a block diagram of a method for intelligent management of a shared battery car based on big data in an embodiment of the present application;

FIG. 2 is a flowchart of a method for a user to unlock a shared battery car in an embodiment of the application;

FIG. 3 is a flowchart of a method for a user to return a shared battery car in an embodiment of the application;

FIG. 4 is a flowchart of a method for adjusting the number of shared battery cars in a delivery site according to an embodiment of the present application;

FIG. 5 is a system block diagram of a big data-based shared battery car intelligent management system in an embodiment of the present application;

fig. 6 is a system block diagram of a shared battery car in the embodiment of the present application.

Description of reference numerals: 1. a server module; 2. sharing a battery car leasing module; 3. sharing a storage battery car regulation and control module; 4. a power assembly; 5. a controller; 6. a power source; 7. an electronic lock; 8. a GPS positioning module; 9. a communication module; 10. an identity card reading device.

Detailed Description

The present application is described in further detail below with reference to figures 1-5.

The embodiment of the application discloses a shared battery car intelligent management method based on big data. Referring to fig. 1, an intelligent management method for a shared battery car based on big data comprises the following steps:

s1, establishing a shared battery car management platform: establishing a shared battery car management platform, and throwing a preset number of shared single cars to each throwing site in a city;

s2, user registration and trust: after a user finishes registration and credit granting through a client or a third-party promotion platform, acquiring a site distribution map;

s3, authenticating the user identity to unlock the shared battery car: after a user arrives at a nearby site according to the site distribution map, selecting an idle shared battery car in the site, performing identity authentication, and unlocking the shared battery car;

s4, the user initiates a car returning request: after the user rides the shared battery car, the shared battery car is sent to a nearby station through a station distribution map, and the user initiates a car returning request to the shared battery car management platform through a client or a third-party promotion platform;

s5, verifying the vehicle returning request and calculating the cost: after receiving the car returning request, the shared battery car management platform verifies the car returning request, locks the verified car returning request through the shared battery car, and calculates riding cost of a user;

s6, regulating and controlling the number of the shared battery cars of the throwing sites: the shared storage battery car management platform acquires the position information of each shared storage battery car in real time, acquires the number of the shared storage battery cars in each throwing site in real time, and regulates and controls the number of the shared storage battery cars in a certain site when the number of the shared storage battery cars in the site is too small or too large. The shared battery car is thrown in by setting the throwing station, centralized and standardized management of the shared battery car is realized, the phenomenon of disorderly stopping and disorderly throwing is avoided, the identity information of users is stored through the shared battery car management platform, the identity authentication is carried out on the users who rent the shared battery car, the standardized renting flow of the shared battery car is realized, the shared battery car is conveniently and effectively controlled, the ages of the rented users are ensured to be consistent with the riding ages of the battery cars specified in China, the standardized management of the shared battery car is realized, the battery cars are prevented from being lost, and the effect of promoting the good development of the shared battery car enterprises is achieved. And through the position information of each sharing storage battery car of real-time acquisition to in time regulate and control each sharing storage battery car quantity of throwing in the website, ensure that the user can have sufficient sharing storage battery car and use, promote user's use and experience.

In step S2, the step of completing, by the user, registration and trust authorization through the client or the third-party promotion platform specifically includes: the user downloads an APP client opened by the shared battery car management platform or opens a registration page of the shared battery car management platform on a third-party promotion platform to fill in identity information for registration, face recognition verification is conducted, and meanwhile the shared battery car management platform is authorized to call credit scoring data. And the shared battery car management platform implements exemption of deposit on the users with scores meeting the preset scores according to the credit scores of the users, and collects the deposit on the users with insufficient credit scores. In addition, in the implementation, the credit score calling platform is the sesame credit score of the payer platform. After the user fills in identity information on a registration page and registers, face recognition verification is carried out on the user to ensure authenticity of user information, credit scoring data of the user is called through user authorization, a platform can conveniently judge whether the user credit is good or not according to user scoring, and then whether the user needs to pay a deposit or not is determined, certain risks are avoided for enterprises, and good development of the enterprises is facilitated.

Referring to fig. 2, after the user arrives at a nearby site according to the site distribution map in step S3, selecting an idle shared battery car in the site and performing identity authentication, and then unlocking the shared battery car specifically includes the following steps:

a1, selecting an idle shared battery car: after a user selects and goes to a nearby station according to the station distribution diagram, selecting an idle shared battery car in the station;

a2, sending an unlocking request by a user through code scanning: the method comprises the steps that a user scans a two-dimensional code on an idle shared battery car body and sends an unlocking request to a shared battery car management platform, the shared battery car management platform associates the shared battery car with the user after receiving the unlocking request of the user and sends an identity authentication instruction to the shared battery car, and the shared battery car sends an identity authentication voice prompt to the user through a preset sound production part after receiving the identity authentication instruction;

a3, authenticating the identity of the user: a user places an ID card of the user on an ID card reading device preset on a shared battery car according to voice prompt for identity authentication, if the authentication is passed, the shared battery car management platform sends an unlocking signal to an electronic lock of the shared battery car, the electronic lock of the shared battery car removes the power-on starting of a locking battery car of the shared battery car after receiving the unlocking signal, and meanwhile, the shared battery car management platform times the use of the shared battery car; if the authentication is not passed, voice information is sent out to prompt the user to check the identity information. Identity authentication is carried out through the user who gets the car to sweeping the sign indicating number, ensures user information's accuracy, reduces the risk of losing of sharing storage battery car, effectively avoids the phenomenon that the unsatisfied user who rides the storage battery car of age rents the sharing storage battery car simultaneously, maintains public transport safety, ensures the masses personal and property safety of people.

Referring to fig. 3, in step S5, after the shared battery car management platform receives the car return request, verifying the car return request, locking the verified car return request by the shared battery car, and calculating the riding cost of the user specifically includes the following steps:

b1, acquiring the position information of the shared battery car rented by the user: the method comprises the steps that after a shared battery car management platform receives a car returning request of a user, position information of a shared battery car rented by the user is obtained;

b2, verifying the position information of the shared battery car: the method comprises the steps that a shared battery car management platform verifies position information of a shared battery car rented by a user, if the shared battery car is located in a delivery site range, verification is passed, the shared battery car management platform sends a lock falling signal to an electronic lock of the shared battery car, the electronic lock of the shared battery car locks the shared battery car after receiving the lock falling signal, meanwhile, the shared battery car is powered off, and cost is calculated according to the use duration of the shared battery car and a preset formula;

b3, sending prompt information after verification failure: if the shared battery car is not located in the range of the throwing site, the verification is failed, a car returning failure information prompt is sent to the user, and the user is prompted to send the shared battery car to the nearby throwing site according to the site distribution diagram. The vehicle returning request of the user returning the shared battery car is verified, the shared battery car can be returned to the throwing site after the shared battery car is used up, the phenomenon that the shared battery car is parked and placed disorderly is effectively avoided, and the effect of standard management and control on the shared battery car is achieved.

And after receiving the returning failure information, the user can send feedback information to the client through the APP client or the third-party promotion platform if the user determines that the returning failure information is within the release site range. Through the establishment of the feedback channel, the phenomenon that a user cannot return the vehicle due to equipment failure is avoided, the user experience is improved, the user viscosity is further increased, and good and rapid development of enterprises is promoted.

Referring to fig. 4, the step S6 of obtaining, by the shared battery car management platform, the position information of each battery car in real time, collecting, in real time, the number of shared battery cars in each delivery site, and controlling the number of shared battery cars in a site when the number of shared battery cars in the site is too small or too large specifically includes the following steps:

c1, collecting the number of the shared battery cars in the throwing site: the shared battery car management platform acquires the position information of each battery car in real time and acquires the number of the shared battery cars in each throwing station in real time;

c2, generating a sharing storage battery car distribution order: if the number of the shared battery cars in a certain throwing station is smaller than a preset threshold value A, generating a distribution order of the shared battery cars;

c3, generating a shared battery car retrieval order: if the number of the shared battery cars in a certain throwing station is larger than a preset threshold value B, generating a shared battery car taking order;

c4, adjusting the number of the shared battery cars in the throwing station: the shared storage battery car management platform sends the shared storage battery car distribution orders and/or the shared storage battery car retrieval orders to a manager, and the manager distributes the shared storage battery cars with the corresponding number from a preset transfer station to the station and/or takes the shared storage battery cars with the corresponding number from the release station to the transfer station according to the shared storage battery car distribution orders and/or the shared storage battery car retrieval orders. Through the positional information of each sharing storage battery car of real-time acquisition to in time regulate and control each sharing storage battery car quantity of putting in the website, ensure that the user can have sufficient sharing storage battery car and use, effectively avoid appearing the phenomenon that certain website sharing storage battery car quantity too much leads to the unable parking of user simultaneously, promote user's use and experience and rent the car satisfaction.

In addition, the shared bicycle platform monitors the use time of the rented shared bicycle, when the use time is longer than a preset threshold value C, an alarm signal is generated and sent to a manager, the manager contacts an overtime user according to the alarm information to perform inquiry processing, and the preset threshold value C is set by the manager. Through the inquiry of contacting the user who does not return the shared storage battery car for a long time, can effectively reduce the probability that shared storage battery car loses, in time provide help for the user that can't in time return the car because of the storage battery car trouble simultaneously, promote user's use and experience and satisfaction, also can strike and warn the phenomenon that the car borrowing is not still simultaneously, reach the effect that promotes good development of enterprise to the standard management of shared storage battery car.

The embodiment of the application also discloses a sharing storage battery car intelligent management system based on big data. Referring to fig. 5, a big data-based intelligent management system for a shared battery car includes:

the server module 1 is used for establishing a shared battery car management platform, recording position information of each release site to generate a site distribution map, and receiving registration information submitted by a user through a client or a third-party promotion platform;

the shared battery car renting module 2 is used for receiving an unlocking request of a user, unlocking the shared battery car after identity authentication is carried out on the user, sending the shared battery car to a nearby station through a station distribution map after riding of the user is completed, receiving a car returning request initiated by the user to the shared battery car management platform through a client or a third party promotion platform, verifying the car returning request, locking the verified shared battery car, and calculating riding cost of the user;

the shared storage battery car regulating and controlling module 3 is used for acquiring the position information of each storage battery car in real time, acquiring the number of the shared storage battery cars in each throwing site in real time, and regulating and controlling the number of the shared storage battery cars in a certain site when the number of the shared storage battery cars in the site is too small or too large; the server module 1, the shared battery car renting module 2 and the shared battery car regulating and controlling module 3 are in communication connection with each other. The shared battery car is thrown in by setting the throwing station, centralized and standardized management of the shared battery car is realized, the phenomenon of disorderly stopping and disorderly throwing is avoided, the identity information of users is stored through the shared battery car management platform, the identity authentication is carried out on the users who rent the shared battery car, the standardized renting flow of the shared battery car is realized, the shared battery car is conveniently and effectively controlled, the ages of the rented users are ensured to be consistent with the riding ages of the battery cars specified in China, the standardized management of the shared battery car is realized, the battery cars are prevented from being lost, and the effect of promoting the good development of the shared battery car enterprises is achieved. And through the position information of each sharing storage battery car of real-time acquisition to in time regulate and control each sharing storage battery car quantity of throwing in the website, ensure that the user can have sufficient sharing storage battery car and use, promote user's use and experience.

The embodiment of the application also discloses a sharing storage battery car. Referring to fig. 6, a shared battery car includes: the intelligent electric bicycle comprises a bicycle body, a power assembly 4 for driving the bicycle body to move, a controller 5, a power supply 6, an electronic lock 7 for locking the bicycle body, a GPS positioning module 8, a communication module 9 for receiving signals of a shared electromobile management platform and an identity card reading device 10 for reading identity information of a user. The power component 4, the power supply 6, the electronic lock 7, the GPS positioning module 8, the communication module 9 and the identity card reading device 10 are all connected with the controller 5. And GPS orientation module 8 is connected with stand-by power supply, and stand-by power supply supplies power for GPS orientation module 8 alone. Through the setting of sharing storage battery car, the sharing storage battery car management platform of being convenient for carries out long-range accurate management to the sharing storage battery car of putting in the website, optimize user's use and experience, promote the user and rent the car satisfaction, avoid the indiscriminate phenomenon of putting out of parking and taking place, and be convenient for sharing storage battery car management platform to the collection and the authentication of user identity information, ensure that the age of renting the user all accords with the storage battery car age of riding that china's standard, realize sharing storage battery car management platform and avoid the storage battery car to lose to sharing storage battery car standard management, reach the effect that promotes sharing storage battery car enterprise's good development.

The embodiment of the present application further discloses a computer-readable storage medium, which stores a computer program that can be loaded by a processor and executed in the method as described above, and the computer-readable storage medium includes, for example: various media capable of storing program codes, such as a usb disk, a removable hard disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), a magnetic disk, or an optical disk.

The above examples are only used to illustrate the technical solutions of the present invention, and do not limit the scope of the present invention. It is to be understood that the described embodiments are merely exemplary of the invention, and not restrictive of the full scope of the invention. All other embodiments, which can be derived by a person skilled in the art from these embodiments without making any inventive step, fall within the scope of the present invention. Although the present invention has been described in detail with reference to the above embodiments, those skilled in the art may still make various combinations, additions, deletions or other modifications of the features of the embodiments of the present invention according to the situation without conflict, so as to obtain different technical solutions without substantially departing from the spirit of the present invention, and these technical solutions also fall within the protection scope of the present invention.

Claims (10)

1. The utility model provides a sharing storage battery car intelligent management method based on big data which characterized in that: the method comprises the following steps:

establishing a shared battery car management platform, and throwing a preset number of shared single cars to each throwing site in a city;

after a user finishes registration and credit granting through a client or a third-party promotion platform, acquiring a site distribution map;

after a user arrives at a nearby site according to the site distribution map, selecting an idle shared battery car in the site, performing identity authentication, and unlocking the shared battery car;

after the user rides the shared battery car, the shared battery car is sent to a nearby station through a station distribution map, and the user initiates a car returning request to the shared battery car management platform through a client or a third-party promotion platform;

after receiving the car returning request, the shared battery car management platform verifies the car returning request, locks the verified car returning request through the shared battery car, and calculates riding cost of a user;

the shared storage battery car management platform acquires the position information of each shared storage battery car in real time, acquires the number of the shared storage battery cars in each throwing site in real time, and regulates and controls the number of the shared storage battery cars in a certain site when the number of the shared storage battery cars in the site is too small or too large.

2. The intelligent management method for the shared battery car based on the big data as claimed in claim 1, wherein the step of completing the registration and credit granting by the user through the client or the third party promotion platform specifically comprises the following steps: the user downloads an APP client opened by the shared battery car management platform or opens a registration page of the shared battery car management platform on a third-party promotion platform to fill in identity information for registration, face recognition verification is conducted, and meanwhile the shared battery car management platform is authorized to call credit scoring data.

3. The big data based intelligent management method for the shared battery car as claimed in claim 1, wherein the method comprises the following steps: after the user arrives at a nearby site according to the site distribution map, the user selects an idle shared battery car in the site, performs identity authentication and unlocks the shared battery car, and the method specifically comprises the following steps:

after a user selects and goes to a nearby station according to the station distribution diagram, selecting an idle shared battery car in the station;

the method comprises the steps that a user scans a two-dimensional code on an idle shared battery car body and sends an unlocking request to a shared battery car management platform, the shared battery car management platform associates the shared battery car with the user after receiving the unlocking request of the user and sends an identity authentication instruction to the shared battery car, and the shared battery car sends an identity authentication voice prompt to the user through a preset sound production part after receiving the identity authentication instruction;

a user places an ID card of the user on an ID card reading device preset on a shared battery car according to voice prompt for identity authentication, if the authentication is passed, the shared battery car management platform sends an unlocking signal to an electronic lock of the shared battery car, the electronic lock of the shared battery car removes the power-on starting of a locking battery car of the shared battery car after receiving the unlocking signal, and meanwhile, the shared battery car management platform times the use of the shared battery car; if the authentication is not passed, voice information is sent out to prompt the user to check the identity information.

4. The big data-based intelligent management method for the shared battery car is characterized in that after the shared battery car management platform receives a car returning request, the car returning request is verified, the verification is locked through the shared battery car, and meanwhile, the step of calculating the riding cost of a user specifically comprises the following steps:

the method comprises the steps that after a shared battery car management platform receives a car returning request of a user, position information of a shared battery car rented by the user is obtained;

the method comprises the steps that a shared battery car management platform verifies position information of a shared battery car rented by a user, if the shared battery car is located in a delivery site range, verification is passed, the shared battery car management platform sends a lock falling signal to an electronic lock of the shared battery car, the electronic lock of the shared battery car locks the shared battery car after receiving the lock falling signal, meanwhile, the shared battery car is powered off, and cost is calculated according to the use duration of the shared battery car and a preset formula;

if the shared battery car is not located in the range of the throwing site, the verification is failed, a car returning failure information prompt is sent to the user, and the user is prompted to send the shared battery car to the nearby throwing site according to the site distribution diagram.

5. The big data based intelligent management method for the shared battery car as claimed in claim 4, wherein the method comprises the following steps: and after receiving the returning failure information, the user can send feedback information to the client through the APP client or the third-party promotion platform if the user determines that the returning failure information is within the release site range.

6. The big-data-based intelligent management method for the shared battery cars, according to claim 1, characterized in that the shared battery car management platform acquires the position information of each shared battery car in real time, acquires the number of the shared battery cars in each throwing site in real time, and regulates and controls the number of the shared battery cars in a certain site when the number of the shared battery cars in the site is too small or too large, specifically comprising the following steps:

the shared battery car management platform acquires the position information of each shared battery car in real time and acquires the number of the shared battery cars in each throwing station in real time;

if the number of the shared battery cars in a certain throwing station is smaller than a preset threshold value A, generating a distribution order of the shared battery cars;

if the number of the shared battery cars in a certain throwing station is larger than a preset threshold value B, generating a shared battery car taking order;

the shared storage battery car management platform sends the shared storage battery car distribution orders and/or the shared storage battery car retrieval orders to a manager, and the manager distributes the shared storage battery cars with the corresponding number from a preset transfer station to the station and/or takes the shared storage battery cars with the corresponding number from the release station to the transfer station according to the shared storage battery car distribution orders and/or the shared storage battery car retrieval orders.

7. The big-data-based intelligent management method for the shared battery cars is characterized in that the method further comprises the step that the shared bicycle platform monitors the use time of the rented shared bicycle, when the use time is longer than a preset threshold value C, an alarm signal is generated and sent to a manager, and the manager contacts an overtime user to perform inquiry processing according to the alarm information.

8. A big data-based intelligent management system for a shared battery car, which is applied to the big data-based intelligent management method for the shared battery car according to any one of the claims 1 to 7, and is characterized by comprising the following steps:

the server module (1) is used for establishing a shared battery car management platform, recording position information of each release site to generate a site distribution map, and receiving registration information submitted by a user through a client or a third-party promotion platform;

the shared battery car renting module (2) is used for receiving an unlocking request of a user, unlocking the shared battery car after identity authentication is carried out on the user, sending the shared battery car to a nearby station through a station distribution map after riding of the user is completed, receiving a car returning request initiated by the user to the shared battery car management platform through a client or a third party promotion platform, verifying the car returning request, locking the verified shared battery car, and calculating riding cost of the user;

the shared storage battery car regulating and controlling module (3) is used for acquiring the position information of each storage battery car in real time, acquiring the number of the shared storage battery cars in each throwing site in real time, and regulating and controlling the number of the shared storage battery cars in a certain site when the number of the shared storage battery cars in the site is too small or too large;

the server module (1), the shared battery car renting module (2) and the shared battery car regulating and controlling module (3) are in communication connection with each other.

9. A shared battery car is applied to the intelligent management method based on the big data of any one of the claims 1 to 7, and is characterized by comprising a car body, a power assembly (4) for driving the car body to move, a controller (5), a power supply (6), an electronic lock (7) for locking the car body, a GPS positioning module (8), a communication module (9) for receiving a signal of a management platform of the shared battery car and an identity card reading device (10) for reading identity information of a user; the power assembly (4), the power source (6), the electronic lock (7), the GPS positioning module (8), the communication module (9) and the identity card reading device (10) are all connected with the controller (5).

10. A computer-readable storage medium, in which a computer program is stored which can be loaded by a processor and which executes the method of any one of claims 1 to 7.

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