CN116542765A

CN116542765A - Vehicle management method and related equipment

Info

Publication number: CN116542765A
Application number: CN202310824735.5A
Authority: CN
Inventors: 徐坤扬; 林振标; 周华海; 沈俊来
Original assignee: Shenzhen Mingxin Digital Intelligence Technology Co ltd
Current assignee: Shenzhen Mingxin Digital Intelligence Technology Co ltd
Priority date: 2023-07-06
Filing date: 2023-07-06
Publication date: 2023-08-04
Anticipated expiration: 2043-07-06
Also published as: CN116542765B

Abstract

The embodiment of the invention discloses a vehicle management method and related equipment, wherein the method comprises the following steps: acquiring basic information of a user, and matching the basic information with a preset database to obtain order information bound with loan application information; determining a loan status based on the loan application information, and if the loan status is a completion status, determining a target vehicle according to the order information; acquiring the position information of the target vehicle, and judging whether the target vehicle is in warehouse or not based on the position information and the position information of a preset parking point; if the target vehicle finishes warehousing, acquiring warehousing information of the target vehicle, wherein the warehousing information comprises verification information of the target vehicle during warehousing and monitoring information of the target vehicle after warehousing; and if the target vehicle does not finish warehousing, acquiring the transportation information of the target vehicle. The user can monitor the target vehicle in the time period before the delivery of the vehicle after the loan application is completed.

Description

Vehicle management method and related equipment

Technical Field

The present invention relates to the field of vehicle management technologies, and in particular, to a vehicle management method and related devices.

Background

With the increase of the number of domestic logistics and transportation commercial vehicles year by year, more and more users select loan purchasing commercial vehicles, but for the loan purchasing commercial vehicles, a GPS device is required to be installed before the user is delivered, and the user cannot know the state of the vehicles before the delivery, so that the blank period appears, the user experience is poor, and with the increase of the loan purchasing vehicles, the existing situation is that the user needs to pay attention to loan institutions in real time, such as loan approval progress of banks, and feeds back the loan approval progress to vehicle sales personnel, the vehicle sales personnel searches bills according to the feedback of the user, searches for the vehicles and other complicated operations, influences the working efficiency, and when the user acquires the vehicle information and the loan information, the user needs to log in different software and/or platforms for multiple identity verification, the vehicle information, the order information and the loan information are mutually independent, lack of association, disorder is easy to occur under the conditions that the order information is more and the loan information is more, and the user experience is influenced.

Disclosure of Invention

In view of the above, the invention provides a vehicle management method and related equipment, which are used for solving the problems that in the prior art, the vehicle key and certificate are lack of unified management, so that a user is inconvenient to fetch the vehicle and disorder is easy to cause. To achieve one or a part or all of the above or other objects, the present invention provides a vehicle management method, comprising: acquiring basic information of a user, and matching the basic information with a preset database to obtain order information bound with loan application information;

Determining a loan status based on the loan application information, and if the loan status is a completion status, determining a target vehicle according to the order information;

acquiring the position information of the target vehicle according to the frame information of the target vehicle, and judging whether the target vehicle is correctly put in storage or not based on the position information and the position information of a preset parking point;

if the target vehicle is correctly put in storage, the storage information of the target vehicle is acquired, wherein the storage information comprises verification information generated when the target vehicle is put in storage and monitoring information of the target vehicle after the target vehicle is put in storage;

and if the target vehicle is not correctly put in storage, acquiring the transportation information of the target vehicle.

Optionally, before the step of obtaining the basic information of the user and matching the basic information with the preset database, the method further includes:

docking with a vehicle sales system, and acquiring order information of all users, wherein the order information comprises order content data, order generation time and user basic information;

specifically, the step of interfacing with a vehicle sales system includes: defining an interface protocol of the CMP system and the vehicle sales system, so that the butt joint of the CMP system and the vehicle sales system is established on a public network, and the encryption interaction of the CMP system and the vehicle sales system is completed by setting a signature algorithm;

Screening order information of all users according to a preset screening rule to obtain target order information of the undelivered vehicle;

the method comprises the steps of interfacing with a loan issuing system, and obtaining loan application information corresponding to each target order information, wherein the loan application information comprises loan application initiating time and loan application process;

specifically, the step of interfacing with the loan issuing system includes: based on a network private line, acquiring a message of the loan issuing system by adopting JSON, and acquiring loan application information corresponding to each target order information based on the message;

and based on the order generation time and the loan application initiation time, carrying out data binding on the target order information, the user basic information and the loan application process, and establishing the preset database.

Optionally, the step of determining the loan status based on the loan application information, if the loan status is a completion status, determining the target vehicle according to the order information includes:

determining a loan state according to the loan application process, wherein the loan state comprises a state to be checked, a state failed to check and a completion state;

if the loan state is a completion state, determining all initial target vehicles meeting the order content data in a preset range according to the order content data, and acquiring garage position information of a garage where each initial target vehicle is located;

Determining a target garage based on the garage position information and the position information of the preset parking point;

and taking the initial target vehicle in the target garage as the target vehicle.

Optionally, the step of acquiring the position information of the target vehicle and judging whether the target vehicle finishes warehousing based on the position information and the position information of the preset parking point further includes:

acquiring size information of the target vehicle, and determining parking space size information required by the target vehicle according to the size information;

and determining a target preset parking point in each preset parking point based on the parking space size information.

Optionally, the step of acquiring the position information of the target vehicle according to the frame information of the target vehicle and judging whether the target vehicle is correctly put in storage based on the position information and the position information of the preset parking point includes:

acquiring equipment position information when the identification equipment acquires frame information of the target vehicle;

taking the equipment position information as the position information of the target vehicle, wherein the position information of the target vehicle is expressed by longitude and latitude;

judging whether the target vehicle is correctly put in storage or not based on the position information of the target vehicle and the position information of a preset parking point, wherein the position information of the preset parking point is expressed by longitude and latitude;

Specifically, determining the distance between the position information of the target vehicle and the position information of the preset parking point according to a formula:

distance of the position information of the target vehicle and the position information of the preset parking point=earth radius arcos [ cos (latitude of the target vehicle) ×cos (latitude of the preset parking point) ×longitude of the target vehicle-longitude of the preset parking point) +sin (latitude of the target vehicle) ×sin (latitude of the preset parking point) ];

and judging whether the target vehicle is correctly put in storage or not based on the distance between the position information of the target vehicle and the position information of the preset parking point.

Optionally, if the target vehicle is correctly put in storage, the step of acquiring the storage information of the target vehicle, where the storage information includes verification information generated when the target vehicle is put in storage and monitoring information of the target vehicle after being put in storage includes:

if the distance between the position information of the target vehicle and the position information of the preset parking point is smaller than or equal to a threshold value, the target vehicle is correctly put in storage, and verification information generated based on comparison between the basic information of the target vehicle and the order information when the target vehicle is put in storage is obtained;

when the preset parking point is a multi-storey building with at least two storeys, acquiring identification information of the identification equipment, and matching the identification information with an equipment list of the preset parking point to obtain a target storey where the target vehicle is located, wherein the equipment list comprises storey data where each identification equipment is located;

And acquiring monitoring information of the target vehicle after warehousing according to the monitoring equipment of the target layer.

Optionally, the method further comprises:

determining a motion trail of the target vehicle at the preset parking point based on the monitoring information;

acquiring an end position of the motion trail, and taking the end position as a parking position of the target vehicle;

a target locker is determined based on the parking location for storing keys and/or certificates and/or other related items of the target vehicle.

In another aspect, the present application provides a vehicle management apparatus, including:

the data acquisition module is used for acquiring basic information of a user, and matching the basic information with a preset database to obtain order information bound with loan application information;

the selecting module is used for determining a loan state based on the loan application information, and determining a target vehicle according to the order information if the loan state is a completion state;

the judging module is used for acquiring the position information of the target vehicle according to the frame information of the target vehicle and judging whether the target vehicle is correctly put in storage or not based on the position information and the position information of a preset parking point;

The monitoring module is used for acquiring the warehousing information of the target vehicle if the target vehicle is correctly warehoused, wherein the warehousing information comprises verification information generated when the target vehicle is warehoused and monitoring information of the target vehicle after the target vehicle is warehoused;

and the supervision module is also used for acquiring the transportation information of the target vehicle if the target vehicle is not correctly put in storage.

In a third aspect, an embodiment of the present application provides an electronic device, including: a processor, a memory and a bus, the memory storing machine-readable instructions executable by the processor, the processor and the memory in communication via the bus when the electronic device is running, the machine-readable instructions when executed by the processor performing the steps of the vehicle management method as described above.

In a fourth aspect, embodiments of the present application provide a computer-readable storage medium having stored thereon a computer program which, when executed by a processor, performs the steps of a vehicle management method as described above.

The implementation of the embodiment of the invention has the following beneficial effects:

obtaining order information bound with loan application information by obtaining user basic information and matching the basic information with a preset database; determining a loan status based on the loan application information, and if the loan status is a completion status, determining a target vehicle according to the order information; acquiring the position information of the target vehicle according to the frame information of the target vehicle, and judging whether the target vehicle is correctly put in storage or not based on the position information and the position information of a preset parking point; if the target vehicle is correctly put in storage, the storage information of the target vehicle is acquired, wherein the storage information comprises verification information generated when the target vehicle is put in storage and monitoring information of the target vehicle after the target vehicle is put in storage; and if the target vehicle is not correctly put in storage, acquiring the transportation information of the target vehicle. Through binding loan application information and order information, only need once identity verification can acquire loan application information and order information simultaneously, promote user experience, simultaneously, vehicle seller no longer relies on user feedback loan information, and then need not to carry out the query work of checking in according to the loan information of user feedback. And judging whether the target vehicle finishes warehousing or not by acquiring the position information of the target vehicle, setting different supervision modes for the target vehicle which finishes warehousing and is not in warehousing, and providing supervision results for users, so that the users can supervise the vehicle in a time period before delivery of the vehicle after loan is finished again.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the invention, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Wherein:

FIG. 1 is a flow chart of a vehicle management method provided in an embodiment of the present application;

fig. 2 is a schematic structural view of a vehicle management device according to an embodiment of the present application;

fig. 3 is a schematic structural diagram of an electronic device according to an embodiment of the present application;

fig. 4 is a schematic structural diagram of a storage medium according to an embodiment of the present application.

Detailed Description

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

As shown in fig. 1, an embodiment of the present application provides a vehicle management method, including:

s101, acquiring basic information of a user, and matching the basic information with a preset database to obtain order information bound with loan application information;

illustratively, user basic information is obtained, when the user is an enterprise, enterprise three-element verification is performed, wherein the enterprise three-element comprises enterprise credit codes, enterprise names and legal names, when the user is a person, user identity information, face or fingerprint and the like are verified, and the order information comprises vehicle model information and user request information, namely, the vehicle purchasing intention of the user, such as a vehicle with a brand B model, color requirements and the like.

S102, determining a loan state based on the loan application information, and determining a target vehicle according to the order information if the loan state is a completion state;

s103, acquiring the position information of the target vehicle according to the frame information of the target vehicle, and judging whether the target vehicle is correctly put in storage or not based on the position information and the position information of a preset parking point;

s104, if the target vehicle is correctly put in storage, acquiring storage information of the target vehicle, wherein the storage information comprises verification information generated when the target vehicle is put in storage and monitoring information of the target vehicle after storage;

And S105, if the target vehicle is not correctly put in storage, acquiring the transportation information of the target vehicle.

In one possible implementation manner, before the step of obtaining the basic information of the user and matching the basic information with the preset database, the method further includes:

docking the CMP system with the vehicle sales system, and acquiring order information of all users, wherein the order information comprises order content data, order generation time and user basic information;

specifically, the step of interfacing the CMP system with a vehicle sales system includes: defining an interface protocol of the CMP system and the vehicle sales system, so that the butt joint of the CMP system and the vehicle sales system is established on a public network, and the encryption interaction of the CMP system and the vehicle sales system is completed by setting a signature algorithm;

docking the CMP system with a loan issuing system, and obtaining loan application information corresponding to each target order information, wherein the loan application information comprises loan application initiating time and loan application process;

specifically, the step of interfacing the CMP system with the loan issuing system includes: based on a network private line, acquiring a message of the loan issuing system by adopting JSON, and acquiring loan application information corresponding to each target order information based on the message;

Illustratively, interfacing the CMP system with the loan issuing system through the API method includes: defining an interface protocol, wherein the interface protocol is established on the basis of a network special line and is used for connecting an independent network line of a public center and a bank, and the interface protocol is specifically: HTTPS; the request mode is as follows: a POST; encoding: UTF-8; and the message format is that JSON is used for transmitting data, the transaction serial number cannot be repeated, the platform number is given by a loan issuing system, and the transmitted message is fixed. The message composition comprises: message header + message body, wherein, the message header plaintext transmits, message body ciphertext transmits, the message header includes:

synchronizing interfaces MX-a-00 via a secure key: returning ten symmetric keys, the access party appoints the current key pair through the key index number, and specifically, the Req request data field is:

the Resp return data field is:

the interface list of the CMP system and the loan issuing system is as follows:

the vehicle sales system is used as a core enterprise system, and is in butt joint with the core enterprise system, namely the vehicle sales system, and synchronizes small-B enterprise order information and small-B enterprise information through the CMP system, and performs data binding, and a core enterprise-small-B information database, namely a preset database is established, so that a core enterprise-small-B enterprise order information relation chain is formed, wherein small-B enterprise order information content comprises order amount, order time, order state and the like; the vehicle information includes brands, vehicle types, colors, years, etc., and the small-B business information includes business credit codes, business names, business legal identity information.

For example, the order information of all users is screened according to a preset screening rule to obtain target order information of undelivered vehicles, the preset screening rule is formulated according to actual requirements, for example, when the users have order information of a plurality of delivered vehicles, the order information of the delivered vehicles is used as a completed order, the completed order can be used for statistical analysis but cannot be used for vehicle management, and the preset rule is set to delete the completed order.

For example, the preset database may be established according to a causal relationship between order generation and loan application, that is, a loan application needs to be initiated after the order is completed, and based on the order generation time and the loan application initiation time, data binding is performed on the target order information, the user basic information and the loan application process.

The small B enterprise is authorized to log in the CMP system after filling in the enterprise credit code, the enterprise name, the enterprise legal name and the mobile phone number in the CMP system, and automatically performs matching check on the database according to the small B filling information, if the information is successfully matched with the database, all order information of the small B is directly displayed on a page of the CMP system, and the orders are split and ordered according to the state of the orders and the generation time of the orders, meanwhile, the orders are marked as pending application, application failure and application success (the pending application is that no credit application record exists in the current order, the order is submitted to a bank application, the application failure is that the order credit application is refused, the application success is that the order bank credit is passed, the small B clicks to request to mark the order to initiate credit application, if the information is consistent with the small B, the small B scans the identification information of the front and back of the legal person through ocr, the background system is checked to see if the information is consistent, the face recognition information is synchronous, the background is compared with the acquired human face according to the identification information, the enterprise legal person initiates the credit application, if the comparison is successful, the system automatically generates the order by the background, the small B is not provided with the order is not provided with any credit application record, the order is submitted by the enterprise legal application, the small B is finished, if the small B is synchronous credit application is finished, the small B is synchronously, the small B is bound to the small order bank identification information is sent to the small B, and the small order is synchronously the small B and the small order synchronous credit request is sent to the small B and the small enterprise bank identification data, if the borrowing application passes and the bank system returns that the financial order state is successful in paying, the CMP marks the financial order state as successful in paying, and the small B business order information, the borrowing order information and the small B enterprise information are synchronized to the enterprise checking system and the enterprise checking end CMP applet.

Illustratively, interfacing the CMP system with the vehicle sales system through the API method includes: establishing an interface protocol of the CMP system and the vehicle sales system, wherein the interface protocol of the CMP system and the vehicle sales system is established on a public network, and a security encryption protocol is used, and the security encryption protocol comprises: generating a key bit number selection 2048 or 1024 bits, selecting PKCS#8 by a key format Java language, selecting PKCS#1 by a non-Java language, and not filling a certificate password. Uploading the generated PUBLIC KEY, preserving the private KEY, and removing the head and tail, namely, BEGIN PUBLIC KEY, END PUBLIC KEY; setting a signature algorithm, acquiring all public request parameters, excluding byte type parameters such as files and byte streams, eliminating sign fields, eliminating parameters with null values, and carrying out incremental sorting according to parameter names ASCII codes (alphabetical ascending sorting), if the same characters are encountered, carrying out incremental sorting according to key values ASCII codes of the second characters, and the like. The ordered parameters and the corresponding values are combined into a format of 'parameter name=urlencode (parameter value, UTF-8)', and the parameters are connected by & characters, and the character string generated at this time is the character string to be signed. The result Base64 is encoded using the corresponding MD5withRSA signature function and signing the string to be signed based on the application private key. The generated signature is assigned to the sign parameter and added to the request parameter.

The list of interfaces of the CMP system with the vehicle sales system is:

in one possible implementation manner, the step of determining the loan status based on the loan application information, and if the loan status is a completion status, determining the target vehicle according to the order information includes:

For example, if the loan status is the completion status, the vehicle vendor needs to prepare target vehicles for the user, when preparing vehicles for the user, the vehicles need to be called from outside, all initial target vehicles meeting the order content data in a preset range are determined according to the order content data, a plurality of preset ranges, for example, a first preset range, a second preset range and a third preset range are set, wherein the first preset range is greater than the second preset range and greater than the third preset range, garage position information of a garage where each initial target vehicle is located is obtained, and an optimal route and a target garage are selected by a weighting method based on the garage position information and the position information of a preset parking point, taking road conditions, transportation modes and other factors into consideration.

In one possible implementation manner, before the step of acquiring the position information of the target vehicle and determining whether the target vehicle finishes warehousing based on the position information and the position information of the preset parking point, the method further includes:

For example, in order to facilitate unified management of vehicles, different types of vehicles are placed at different parking points, after a loan vehicle storage area is determined, a core enterprise platform logs in a CMP applet through authorization core enterprise information to click to set a white list address, a current positioning address is started for authorization and then the white list address can be submitted to a CMP system, meanwhile, the background of the system calculates the distance according to the enterprise information address (office address) and the authorized positioning address recorded by the core enterprise, if the distance is less than or equal to 10KM, the white list address is returned to be successfully set, and the input site size of the core enterprise personnel is used for calculating the number of the stored vehicles and the installation number of cameras.

In one possible implementation manner, the step of acquiring the position information of the target vehicle according to the frame information of the target vehicle and judging whether the target vehicle is correctly put in storage based on the position information and the position information of a preset parking point includes:

For example, after the small B financial order status in the CMP system is successful in paying, the financial order information and the small B information are synchronously collided with the core enterprise-small B information database, so as to obtain core enterprise information, and the financial order information, the vehicle information and the small B enterprise information are pushed to the core enterprise system and the core enterprise end CMP applet to inform the core enterprise of finishing the loan vehicle warehousing operation. The CMP automatically allocates the appointed parking lot and the corresponding parking lot number to each loan order vehicle according to the appointed parking lot information provided by the core enterprise, and combines each camera monitoring picture installed in each parking lot to identify the number of the parked vehicles, displays the specific address and the number of the parking lot at the front end, ensures that each loan vehicle is parked in the appointed parking lot of the system, and is convenient for subsequent vehicle management and early warning and reminding of insufficient remaining vehicle positions of the parking lot. The system automatically calculates the number of parked vehicles under each camera (the number of parked vehicles under each camera=the maximum distance of a monitoring picture/the width of each parking space) according to the maximum distance < = 70M of each camera which is pre-installed, the background automatically calculates the number of parked vehicles under each camera (the number of parked vehicles under each camera=the maximum distance of the monitoring picture/the width of each parking space), acquires the maximum number of parked vehicles and acquires each parking space number through the monitoring picture (the number of parking spaces which can be acquired through the monitoring picture before the parked vehicles are not marked with the number of the parking spaces is automatically written by the system, and the coding rule is written for the address of a nuclear enterprise-the parking space and the acquisition data time-sequence number of the camera), and then automatically calculates the number of the remaining parking spaces under each current camera according to the number of parked vehicles which are captured by each current camera, thereby calculating the current number of remaining parking spaces and the number of remaining parking spaces of each parking space according to the number of installation cameras of the parking lot. After a current loan vehicle is parked in a system appointed parking space, a camera monitoring picture captures that the current appointed parking space has a vehicle parked, a CMP system synchronously informs a nuclear enterprise that the information of the loan vehicle can be verified, a nuclear enterprise platform stores a nuclear enterprise end CMP applet authorized to log on a land after personnel enter the nuclear enterprise information, the nuclear enterprise information is matched with a database, financial order information, vehicle information and small B information of a small B enterprise under the nuclear enterprise are automatically acquired, the warehousing personnel clicks a recognition frame number through the CMP applet to call OCR, OCR recognition is carried out on a front windshield frame number of a field vehicle to acquire the frame number, and the background acquires the current positioning address, namely, the position information of a target vehicle, if the OCR recognition frame number is matched with the frame number of the loan order vehicle and the distance between the positioning information and the position information of a preset parking point is < = 10KM, a specific calculation formula:

and if the distance between the position information of the target vehicle and the position information of the preset parking point < = 10KM, indicating that the loan vehicle has arrived at the appointed place and is parked in the appointed parking space, otherwise, the loan vehicle is not parked in the appointed place, and the loan vehicle is regarded as not being put in storage.

The timing core enterprise is required to finish the loan vehicle warehouse-in within 15 days after the bank is successfully paid, if the loan vehicle monitoring operation is not finished within 15 days, the CMP system starts early warning, and early warning information is synchronized to the bank and the core enterprise system.

In one possible implementation manner, if the target vehicle is correctly parked, the step of acquiring parking information of the target vehicle, where the parking information includes verification information generated when the target vehicle is parked and monitoring information of the target vehicle after parking, includes:

When the preset parking point is a multi-layer building with at least two layers, for example, when the vehicle delivery is performed, the target vehicle is often in the preset parking point, but the floor where the target vehicle is located cannot be determined, and the monitoring information of each layer needs to be processed, where the monitoring information is data such as a monitoring video and a monitoring image, so that the monitoring information of the target vehicle is identified, huge calculation amount is brought, monitoring efficiency is affected, and downtime risk is brought. And after the identification information is matched with the equipment list of the preset parking point to obtain the target layer where the target vehicle is located, only video data of the target layer, namely, monitoring information, is required to be processed, so that the calculated amount is greatly reduced.

In one possible embodiment, the method further comprises:

In a possible embodiment, the step of determining a target locker based on the parking position for storing keys and/or certificates and/or other related items of the target vehicle comprises:

acquiring the position information of each locker in the preset parking point;

selecting a target locker with the smallest difference value with the position information of the parking position based on the position information of each locker;

and formulating an access strategy of the vehicle key and the certificate of the target vehicle according to the target locker.

The method comprises the steps of defining a designated area according to a target garage layout plan, installing camera shooting equipment as a garage visual system information source, presetting the number of parked vehicles, constructing a warehouse visual system, forming a visual stereoscopic image of the target garage according to the parking layout stereoscopic image and vehicle storage information, adding each locker in the target garage in the visual stereoscopic image, further obtaining the position information of each locker in the target garage according to the visual stereoscopic image, intuitively selecting the target locker with the smallest difference value with the position information of the available space of the target, and enabling the vehicle keys and certificates of the target vehicle to be stored in the target locker closest to the target vehicle.

In one possible embodiment, the method further comprises:

acquiring the working state of the target locker, wherein the working state comprises a normal working state and an abnormal state;

when the target locker is in an abnormal state, video data in a preset range of the target locker are obtained, and alarm information is generated based on the video data.

When the locker is used, the available specific grids need to be determined, so that the working state of the target locker needs to be judged, the risk that a worker puts a vehicle key and a certificate into a fault grid to cause loss and the like is avoided, and meanwhile, the fault grid is warned to improve the safety in the vehicle management process.

In one possible implementation manner, the step of obtaining the working state of the target locker includes:

acquiring the connection state of the target storage cabinet, and judging that the target storage cabinet is in an abnormal state if the connection state of the target storage cabinet is in an off-line state;

if the connection state of the target storage cabinet is an on-line state, acquiring the opening and closing state of a cabinet door of the target storage cabinet;

inquiring whether an opening instruction for opening the cabinet door exists in a local instruction list when the cabinet door of the target cabinet is opened, and judging that the working state of the target cabinet is a normal state if the opening instruction for opening the cabinet door exists in the local instruction list; if the local instruction list does not have an opening instruction for opening the cabinet door, judging that the working state of the target storage cabinet is an abnormal state;

When an opening instruction for opening the cabinet door exists in the local instruction table, the opening time of the cabinet door of the target storage cabinet is recorded, and if the opening time is greater than or equal to a threshold value, the working state of the target storage cabinet is judged to be an abnormal state.

The method comprises the steps of carrying out early warning on abnormal opening of a storage cabinet, monitoring a storage cabinet grid bound by a vehicle key of a target, and triggering early warning when the storage cabinet is opened under the condition that a background instruction is not received, namely, when the background does not send a cabinet opening instruction, receiving a cabinet opening event push by an IMP; when the locker door is overtime and is not closed, the locker door is not closed within 5 minutes after being opened, and the IMP receives a door opening instruction and is not closed within 5 minutes (threshold); and the storage cabinet is in an off-line early warning mode in a monitoring period, and the storage cabinet is in an off-line state.

In one possible embodiment, the method further comprises:

acquiring installation information based on the installation of the GPS device on the target vehicle, wherein the installation information comprises the identity information of an installer and the installation information of the GPS device;

matching the identity information of the installer with the identity information of the target staff, and generating an alarm if the identity information of the installer is inconsistent with the identity information of the target staff; if the identity information of the installer is consistent with the identity information of the target staff, matching the installation standard of the GPS device with the installation information of the GPS device, if the installation standard of the GPS device is inconsistent with the installation information of the GPS device, generating an alarm, and if the installation standard of the GPS device is consistent with the installation information of the GPS device, recording the time of the target vehicle to complete the installation of the GPS device;

Acquiring storage information of a vehicle key and a certificate for storing the target vehicle, wherein the storage information comprises identity information of a storage person performing storage action;

matching the identity information of the storage personnel with the identity information of the target staff, and generating an alarm if the identity information of the storage personnel is inconsistent with the identity information of the target staff;

and if the storage information is not acquired and the time difference between the current time and the time of the target vehicle for completing the installation of the GPS device exceeds a preset time threshold, generating an alarm.

By matching the identity information of the installer with the identity information of the target staff and matching the identity information of the storage staff with the identity information of the target staff, the reliability of the installation process is ensured, and operations such as incorrect installation, incorrect storage and the like of the staff are avoided.

In one possible embodiment, as shown in fig. 2, the present application provides a vehicle management device, the management device including:

the data acquisition module 201 is configured to acquire basic information of a user, and match the basic information with a preset database to obtain order information bound with loan application information;

A selecting module 202, configured to determine a loan status based on the loan application information, and if the loan status is a completion status, determine a target vehicle according to the order information;

the judging module 203 is configured to obtain position information of the target vehicle according to frame information of the target vehicle, and judge whether the target vehicle is correctly put in storage based on the position information and position information of a preset parking point;

the supervision module 204 is configured to obtain, if the target vehicle is correctly put in storage, storage information of the target vehicle, where the storage information includes verification information generated when the target vehicle is put in storage and monitoring information of the target vehicle after the target vehicle is put in storage;

the supervision module 204 is further configured to obtain transportation information of the target vehicle if the target vehicle is not correctly put in storage.

In one possible implementation, as shown in fig. 3, an embodiment of the present application provides an electronic device 300, including: comprising a memory 310, a processor 320 and a computer program 311 stored on the memory 310 and executable on the processor 320, the processor 320 implementing, when executing the computer program 311: acquiring basic information of a user, and matching the basic information with a preset database to obtain order information bound with loan application information; determining a loan status based on the loan application information, and if the loan status is a completion status, determining a target vehicle according to the order information; acquiring the position information of the target vehicle according to the frame information of the target vehicle, and judging whether the target vehicle is correctly put in storage or not based on the position information and the position information of a preset parking point; if the target vehicle is correctly put in storage, the storage information of the target vehicle is acquired, wherein the storage information comprises verification information generated when the target vehicle is put in storage and monitoring information of the target vehicle after the target vehicle is put in storage; and if the target vehicle is not correctly put in storage, acquiring the transportation information of the target vehicle.

In one possible implementation, as shown in fig. 4, the present embodiment provides a computer-readable storage medium 400, on which is stored a computer program 411, which computer program 411, when executed by a processor, implements: acquiring basic information of a user, and matching the basic information with a preset database to obtain order information bound with loan application information; determining a loan status based on the loan application information, and if the loan status is a completion status, determining a target vehicle according to the order information; acquiring the position information of the target vehicle according to the frame information of the target vehicle, and judging whether the target vehicle is correctly put in storage or not based on the position information and the position information of a preset parking point; if the target vehicle is correctly put in storage, the storage information of the target vehicle is acquired, wherein the storage information comprises verification information generated when the target vehicle is put in storage and monitoring information of the target vehicle after the target vehicle is put in storage; and if the target vehicle is not correctly put in storage, acquiring the transportation information of the target vehicle.

The computer readable signal medium may include a propagated data signal with computer readable program code embodied therein, either in baseband or as part of a carrier wave. Such a propagated data signal may take any of a variety of forms, including, but not limited to, electro-magnetic, optical, or any suitable combination of the foregoing. A computer readable signal medium may also be any computer readable medium that is not a computer readable storage medium and that can communicate, propagate, or transport a program for use by or in connection with an instruction execution system, apparatus, or device.

Program code embodied on a computer readable medium may be transmitted using any appropriate medium, including but not limited to: wireless, wire, fiber optic cable, RF, etc., or any suitable combination of the foregoing.

Computer program code for carrying out operations of the present invention may be written in any combination of one or more programming languages, including an object oriented programming language such as Java, smalltalk, C ++ and conventional procedural programming languages, such as the "C" programming language or similar programming languages. The program code may execute entirely on the user's computer, partly on the user's computer, as a stand-alone software package, partly on the user's computer and partly on a remote computer or entirely on the remote computer or server. In the case of a remote computer, the remote computer may be connected to the user's computer through any kind of network, including a Local Area Network (LAN) or a Wide Area Network (WAN), or may be connected to an external computer (for example, through the Internet using an Internet service provider).

It will be appreciated by those of ordinary skill in the art that the modules or steps of the invention described above may be implemented in a general purpose computing device, they may be centralized on a single computing device, or distributed over a network of computing devices, or they may alternatively be implemented in program code executable by a computer device, such that they are stored in a memory device and executed by the computing device, or they may be separately fabricated as individual integrated circuit modules, or multiple modules or steps within them may be fabricated as a single integrated circuit module. Thus, the present invention is not limited to any specific combination of hardware and software.

Note that the above is only a preferred embodiment of the present invention and the technical principle applied. It will be understood by those skilled in the art that the present invention is not limited to the particular embodiments described herein, but is capable of numerous obvious changes, rearrangements and substitutions without departing from the scope of the invention. Therefore, while the invention has been described in connection with the above embodiments, the invention is not limited to the embodiments, but may be embodied in many other equivalent forms without departing from the spirit or scope of the invention, which is set forth in the following claims.

The foregoing disclosure is illustrative of the present invention and is not to be construed as limiting the scope of the invention, which is defined by the appended claims.

Claims

1. A vehicle management method, characterized by comprising:

acquiring basic information of a user, and matching the basic information with a preset database to obtain order information bound with loan application information;

2. The vehicle management method according to claim 1, characterized by further comprising, before the step of acquiring the user basic information and matching the basic information with a preset database:

specifically, the step of interfacing with a vehicle sales system includes: defining an interface protocol of the CMP system and the vehicle sales system, and completing encryption interaction of the CMP system and the vehicle sales system through a signature algorithm, wherein the butt joint of the CMP system and the vehicle sales system is established on a public network;

specifically, the step of interfacing with the loan issuing system includes: the CMP system is in butt joint with the loan issuing system by adopting a network private line, and a message of the loan issuing system is acquired by adopting JSON, and loan application information corresponding to each target order information is acquired based on the message;

3. The vehicle management method according to claim 2, wherein the step of determining a loan status based on the loan application information, and determining a target vehicle based on the order information if the loan status is a completed status, comprises:

4. The vehicle management method according to claim 1, wherein the step of acquiring the position information of the target vehicle and judging whether the target vehicle is finished warehousing based on the position information and the position information of a preset parking point, further comprises:

5. The vehicle management method according to claim 1, wherein the step of acquiring the position information of the target vehicle from the frame information of the target vehicle and judging whether the target vehicle is correctly put in storage based on the position information and the position information of a preset parking point comprises:

6. The method for vehicle management according to claim 5, wherein if the target vehicle is correctly put in storage, the step of acquiring the put-in information of the target vehicle, the put-in information including verification information generated when the target vehicle is put in storage and monitoring information of the target vehicle after put in storage, includes:

7. The vehicle management method according to claim 6, characterized in that the method further comprises:

8. A vehicle management apparatus, characterized in that the management apparatus includes:

9. An electronic device, comprising: a processor, a memory and a bus, the memory storing machine-readable instructions executable by the processor, the processor and the memory in communication via the bus when the electronic device is running, the machine-readable instructions when executed by the processor performing the steps of the vehicle management method of any one of claims 1 to 7.

10. A computer-readable storage medium, characterized in that the computer-readable storage medium has stored thereon a computer program which, when executed by a processor, performs the steps of the vehicle management method according to any one of claims 1 to 7.