CN115861000A - Cloud vehicle getting-on station system and interaction method thereof - Google Patents

Abstract

The invention discloses a cloud boarding station system and an interaction method of the cloud boarding station system. By matching the station service SaaS platform in the cloud station service system with the intelligent vehicle security inspection point, the luggage security inspection equipment and the intelligent waiting hall, the execution of a passenger transport task is realized, the constraint of the traditional passenger transport station is removed, and the utilization rate of the passenger transport equipment, the asset return rate and the stability of the passenger transport station are improved. Meanwhile, ticket information of a traditional station and a cloud station is generated and collected for passenger transport services through the networked ticketing system, passenger transport vehicle using services are provided for passengers through the vehicle using services system, and transaction data of the passenger transport services are cleared and settled through the clearing and settlement system, so that passenger transport data processing efficiency is improved, and passenger experience is improved.

Description

Cloud vehicle getting-on station system and interaction method thereof

Technical Field

The invention relates to the technical field of passenger transport, in particular to a cloud bus-boarding station system and an interaction method of the cloud bus-boarding station system.

Background

In the existing road passenger transportation and field (station) operation, large stations and buildings including parking lots, security check lines, passenger stations, waiting halls and office fields, station service systems, security check facilities, selling and taking inspection machines and broadcasting equipment integrated by the traditional informatization technology are required to be built, and an internet platform such as networking and ticketing is accessed to meet a series of production, operation and management work required to realize the road passenger transportation operation

However, such road passenger transportation and yard (station) operation have the following problems:

(1) Most of the existing core business systems of the field (station) -station business systems adopt local construction, IT resources are usually deployed in small equipment rooms in the station, the power supply, temperature control and network conditions are poor, the data safety and system disaster protection are lacked, the professional maintenance of technical operation and maintenance personnel is lacked, the system fault is easily caused by the occurrence of load bottlenecks during rush hours of spring transportation and national celebration, the passenger transportation service is influenced and even interrupted, and the social order is influenced.

(2) The security inspection facilities, the selling and taking inspection machines, the vehicle security inspection line and the station service system of each station are mostly built and integrated by self, the data standards, the interface specifications and the service flows of each station are different, and when the national level and provincial level construction tasks such as 'electronic passenger tickets of the transportation department' and 'provincial level networking ticket selling platforms' are met, most stations need to be transformed into information systems and facility equipment, the reconstruction cost is high, the period is long, and the operation influence is large. Meanwhile, as the technology and data specifications are not unified, the implementation period of the butt joint with the department/provincial industry supervision platform is long, the data accuracy and the usability are poor, and the deep industry supervision of the administrative department is influenced.

(3) The passenger transport station needs to invest a large amount of land, capital, manpower and material resources to construct stations and buildings, is limited by the influence of the industry operation cost and the epidemic situation normalization, and has generally low industry investment return rate.

(4) The existing road passenger transportation mainly adopts a production organization mode based on off-line stations, each passenger line sends vehicles from a fixed passenger transportation station, station service systems, security lines, selling, picking and checking machines, parking lots and waiting halls built by stations and passenger enterprises only serve passengers and the passenger enterprises of the station sending lines, and the stations, the informatization systems and hardware facilities have low equipment utilization rate, low production organization efficiency, poor passenger service experience and great social resource waste.

(5) The station service system is designed and developed around an offline transaction service scene, lacks a business process and a functional module for online ticket selling, can realize internet pre-selling only by being connected with each provincial-level online ticket selling platform, can realize electronic ticket only by being connected with department-level and local provincial-level electronic ticket platforms, simultaneously lacks the system capacity of internet quick development for bringing about car booking and customized passenger transport, does not meet passenger transport customized service encouraged in the management regulation of road passenger transport and passenger station (No. 17 of 2020 by the department of transportation), and cannot cover diversified passenger travel requirements.

(6) Most of the existing passenger transport stations realize network pre-sale for the affiliated provincial networking ticket selling platform, and the payment and settlement work of the ticket money and the riding insurance premium among passengers, the platform, the passenger transport stations, passenger enterprises and insurance companies is limited by different technical construction degrees of the respective network selling platforms, so that the requirements of bank office issuing [2017] No. 217 document and the Internet insurance service supervision method of the bank insurance supervision can be met, and the situation of non-compliant payment and settlement can occur; meanwhile, the network selling platform provided with the technical scheme of the compliance payment clearing is mostly the technical scheme of different banks or non-bank payment mechanisms selected by self, so that when the passenger transport station is particularly connected with a plurality of network selling platforms, payment clearing accounts need to be opened in the plurality of banks and non-bank payment mechanisms, the account opening work is repeated, the flow is long, the account management is complicated, and the account checking work amount is huge.

The above is only for the purpose of assisting understanding of the technical solution of the present invention, and does not represent an admission that the above is the prior art.

Disclosure of Invention

The invention mainly aims to provide a cloud vehicle-mounted station system and an interaction method of the cloud vehicle-mounted station system, and aims to solve the technical problems of high system failure rate, difficult supervision, low return on investment rate, low equipment utilization rate, poor customer experience and low system efficiency in the conventional road passenger transportation scheme.

In order to achieve the above object, the present invention provides a cloud boarding station system, including:

the cloud boarding station platform is used for acquiring passenger transport data, creating ticket information according to the passenger transport data, sending the ticket information to a passenger end, updating the ticket information when first ticket purchasing information is received, generating departure information according to the ticket information, and sending the departure information to a driver end; the departure information comprises an entering position set and a leaving position set, the entering position set comprises an entering position corresponding to at least one passenger, and the leaving position set comprises a leaving position corresponding to at least one passenger;

the passenger terminal is used for acquiring a first ticket purchasing instruction, generating first ticket purchasing information according to the first ticket purchasing instruction and the ticket information, and sending the first ticket purchasing information to a cloud bus-boarding station platform; the first ticket purchasing information comprises an getting-on position and a getting-off position of a passenger;

the passenger transport vehicle corresponding to the driver end sequentially goes to at least one getting-on position and at least one getting-off position according to the departure information to execute passenger transport tasks.

Optionally, the cloud boarding station platform includes:

the cloud station service system is used for acquiring passenger transport data, creating ticket information according to the passenger transport data, sending the ticket information to an online ticketing system, generating departure information according to the ticket information, and sending the departure information to the driver end;

and the networked ticketing system is used for acquiring first ticket purchasing information of the passenger terminal and updating the ticket information according to the first ticket purchasing information.

Optionally, the cloud station system of getting on still includes at least one vehicle security check equipment, vehicle security check equipment sets up in vehicle security check point, the cloud station affair system includes:

the station service SaaS platform is used for generating ticket information when a ticket establishing instruction is received, matching corresponding ticket information for a passenger corresponding to the ticket purchasing instruction to generate a travel order when the ticket purchasing instruction is received, and generating a corresponding departure plan for a driver end corresponding to the departure instruction when the departure instruction is received so that the driver end executes a passenger transportation task according to the departure plan;

the vehicle security check module is used for acquiring vehicle security check information acquired by vehicle security check equipment arranged at a vehicle security check point, judging whether the vehicle security check information meets a safety condition or not, and generating a shift reporting instruction for the driver terminal when receiving a shift reporting request.

Optionally, the cloud bus stop system still includes at least one and sets up in the position of getting on the bus and at least one wisdom waiting hall that sets up in the position of getting off the bus, wisdom waiting hall is equipped with electronic stop board equipment, the cloud station affair system still includes:

the query module is used for acquiring a vehicle query instruction of the electronic stop board equipment, matching corresponding passenger transport information according to the vehicle query instruction and sending the passenger transport information to the electronic stop board equipment; the passenger transport information comprises one or more of line information, shift information, vehicle information or driver information;

the ticket purchasing module is used for acquiring a second ticket purchasing instruction of the electronic stop board equipment and generating second ticket purchasing information according to the second ticket purchasing instruction and the ticket information corresponding to the current intelligent waiting hall, so that the networked ticketing system updates the ticket information according to the second ticket purchasing information; and the second ticket purchasing information comprises the position information of the current intelligent waiting hall and the getting-off position information.

Optionally, the cloud boarding station system further comprises at least one luggage security check device, and the luggage security check device is arranged in the passenger vehicle or the intelligent waiting hall and is used for collecting luggage security check information of passengers.

Optionally, the passenger end is further configured to collect vehicle use request information, the cloud boarding station platform further includes a vehicle use service system, and the vehicle use service system includes:

the transport capacity monitoring module is used for distributing business authority to the passenger transport enterprises and acquiring transport capacity resources of the passenger transport enterprises when receiving the passenger transport fulfillment request;

the service configuration module is used for forming vehicle using commodity information when receiving the service configuration data and sending the vehicle using commodity information to the operation platform;

the order processing module is used for matching corresponding vehicle using services according to vehicle using commodity information selected by passengers on an operation platform, generating a vehicle using order, judging whether the vehicle using order is a risk order or not, and carrying out wind control processing on the risk order;

and the vehicle using dispatching module is used for distributing the order data information corresponding to the vehicle using order to a driver end according to the vehicle using order after the wind control processing so that the passenger vehicle corresponding to the driver end executes the vehicle using service corresponding to the vehicle using order.

Optionally, the cloud boarding station platform further includes a clearing settlement system, the clearing settlement system is in interactive communication with the payment platform, the payment platform creates a first account corresponding to the operation platform and a second account corresponding to the supplier, the payment platform includes a bank and a non-bank payment mechanism, and the clearing settlement system includes:

the clearing module is used for identifying a clearing object model when receiving a clearing request, matching a corresponding charging rule according to the clearing object model and the list object model, determining clearing data based on the charging rule, transmitting the clearing data to a settlement module for generating a settlement list, and sending a clearing request to the bank and non-bank payment mechanisms for generating a pre-payment basis;

the settlement module is used for acquiring the clearing data and generating a settlement list according to the clearing data and settlement rules corresponding to suppliers;

and the compliance payment module is used for acquiring a settlement list and sending the settlement list to the bank and non-bank payment mechanisms after a supplier confirms the settlement list, so that the bank and non-bank payment mechanisms adjust the account and money distribution of the first account and the second account according to the settlement list and the pre-payment basis and execute the payment action.

Optionally, the cloud vehicle loading station platform further includes a safety system, and the safety system is configured to perform safety protection on the interaction data between the passenger side and the cloud vehicle loading station platform and the interaction data between the driver side and the cloud vehicle loading station platform.

In addition, in order to achieve the above object, the present invention further provides an interaction method for a cloud boarding station system, which is used for the cloud boarding station system, and the interaction method for the cloud boarding station system includes the following steps:

the method comprises the steps that a cloud boarding station platform obtains passenger transport data, ticket information is created according to the passenger transport data, and the ticket information is sent to a passenger side;

the method comprises the steps that a passenger terminal collects a first ticket buying instruction of a passenger, generates first ticket buying information according to the first ticket buying instruction and ticket information, and sends the first ticket buying information to a cloud boarding station platform;

when the cloud station-in-bus platform receives first ticket purchasing information, updating the ticket information; the first ticket purchasing information comprises an getting-on position and a getting-off position of a passenger;

the cloud boarding station platform generates departure information according to the ticket information and sends the departure information to a driver end; the departure information comprises an entering position set and a leaving position set, the entering position set comprises an entering position corresponding to at least one passenger, and the leaving position set comprises a leaving position corresponding to at least one passenger;

and the driver end acquires departure information so that the passenger vehicles corresponding to the driver end sequentially go to at least one boarding position and at least one alighting position according to the departure information to execute passenger transport tasks.

Optionally, the cloud bus boarding station system further includes at least one smart bus waiting hall arranged in the bus boarding position and at least one smart bus waiting hall arranged in the bus disembarking position, the smart bus waiting hall is provided with an electronic bus stop board device, and the interaction method of the cloud bus boarding station system further includes:

the electronic station board equipment acquires a second ticket purchasing instruction of a passenger, generates second ticket purchasing information according to the second ticket purchasing instruction and ticket information corresponding to the current smart car hall, and sends the second ticket purchasing information to the cloud vehicle-mounted station platform; the second ticket purchasing information comprises position information of the current intelligent waiting hall and getting-off position information;

and when the cloud boarding station platform receives the second ticket purchasing information, updating the ticket information.

The cloud vehicle-boarding station system comprises a cloud station service system, a networking ticketing system, a vehicle service system and a clearing and settlement system, and realizes a novel passenger transport mode of passenger station decentralization and station service system cloud terminal through data interaction with a passenger terminal and a driver terminal. By matching the station service SaaS platform in the cloud station service system with the intelligent vehicle security inspection point, the luggage security inspection equipment and the intelligent waiting hall, the implementation of a passenger transport task is realized, the constraint of the traditional passenger transport station is removed, and the utilization rate of the passenger transport equipment, the asset return rate and the stability of the passenger transport station are improved. Meanwhile, ticket information of a traditional station and a station on the cloud is generated and collected for passenger traffic business through the networked ticketing system, passenger traffic car service is provided for passengers through the car service system, and the transaction data of the passenger traffic business is cleared and settled through the clearing and settlement system, so that passenger traffic data processing efficiency is improved, and passenger experience is improved.

Drawings

Fig. 1 is a schematic structural diagram of a first embodiment of a station system on the cloud in the embodiment of the present invention;

fig. 2 is a schematic structural diagram of a second embodiment of a station system on the cloud in the embodiment of the present invention;

fig. 3 is a schematic structural diagram of a third embodiment of a station system on the cloud in the embodiment of the present invention;

FIG. 4 is a schematic diagram of the operation of the vehicular service system in the embodiment of the present invention;

fig. 5 is a schematic flowchart of an interaction method of a station on cloud system according to a first embodiment of the present invention;

fig. 6 is a flowchart illustrating an interaction method for a station on the cloud system according to a second embodiment of the present invention.

The reference numbers illustrate:

the implementation, functional features and advantages of the objects of the present invention will be further explained with reference to the accompanying drawings.

Detailed Description

It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

In the existing road passenger transportation and field (station) operation, large stations and buildings including parking lots, security check lines, passenger stations, waiting halls and office fields, station service systems, security check facilities, selling and taking inspection machines and broadcasting equipment integrated by the traditional informatization technology are required to be built, and an internet platform such as networking and ticketing is accessed to meet a series of production, operation and management work required to realize the road passenger transportation operation

However, such road passenger transportation and yard (station) operation have the following problems:

(1) Most of the existing core business systems of the field (station), namely station business systems, are locally built, IT resources are usually deployed in small equipment rooms in the station, the power supply, temperature control and network conditions are poor, the data safety and system disaster recovery protection are lacked, the professional maintenance of technical operation and maintenance personnel is lacked, the system fault is easily caused by the occurrence of load bottlenecks during peak hours of spring transportation and national celebration, the passenger transportation service is influenced and even interrupted, and the social order is influenced.

(2) The security inspection facilities, the selling and taking inspection machines, the vehicle security inspection line and the station service system of each station are mostly built and integrated by self, the data standards, the interface specifications and the service flows of each station are different, and when the national level and provincial level construction tasks such as 'electronic passenger tickets of the transportation department' and 'provincial level networking ticket selling platforms' are met, most stations need to be transformed into information systems and facility equipment, the reconstruction cost is high, the period is long, and the operation influence is large. Meanwhile, as the technology and the data specification are not unified, the docking implementation period with the department/provincial industry supervision platform is long, the data accuracy and the usability are poor, and the profound supervision of the industry of a governing department is influenced.

(3) The passenger transport station needs to invest a large amount of land, capital, manpower and material resources to construct stations and buildings, is limited by the influence of the industry operation cost and the epidemic situation normalization, and has generally low industry investment return rate.

(4) The existing road passenger transportation mainly adopts a production organization mode based on off-line stations, each passenger transport line sends vehicles from a fixed passenger transport station, station systems, security check lines, selling, taking and checking machines, parking lots and waiting halls built by the stations and passenger enterprises only serve passengers and the passenger enterprises of the line sending at the stations, and the stations, the informatization systems and hardware facilities have low equipment utilization rate, low production organization efficiency, poor passenger service experience and great social resource waste.

(5) The station service system is designed and developed around an offline transaction service scene, lacks a business process and a functional module for online ticket selling, can realize internet pre-selling only by being connected with each provincial-level online ticket selling platform, can realize electronic ticket only by being connected with department-level and local provincial-level electronic ticket platforms, simultaneously lacks the system capacity of internet quick development for bringing about car booking and customized passenger transport, does not meet passenger transport customized service encouraged in the management regulation of road passenger transport and passenger station (No. 17 of 2020 by the department of transportation), and cannot cover diversified passenger travel requirements.

(6) Most of the existing passenger transport stations realize network pre-sale for the affiliated provincial networking ticket selling platform, and the payment and settlement work of the ticket money and the riding insurance premium among passengers, the platform, the passenger transport stations, passenger enterprises and insurance companies is limited by different technical construction degrees of the respective network selling platforms, so that the requirements of bank office issuing [2017] No. 217 document and the Internet insurance service supervision method of the bank insurance supervision can be met, and the situation of non-compliant payment and settlement can occur; meanwhile, the network selling platform provided with the technical scheme of the compliance payment clearing is mostly the technical scheme of different banks or non-bank payment mechanisms selected by self, so that when the passenger transport station is particularly connected with a plurality of network selling platforms, payment clearing accounts need to be opened in the plurality of banks and non-bank payment mechanisms, the account opening work is repeated, the flow is long, the account management is complicated, and the account checking work amount is huge.

To address this issue, various embodiments of the on-cloud station system of the present invention are presented. The cloud vehicle-boarding station system provided by the invention comprises a cloud station service system, a networking ticketing system, a vehicle service system and a clearing and settlement system, and realizes a novel passenger transport mode of decentralization of a passenger station and cloud-end of a station service system through data interaction with a passenger end and a driver end. By matching the station service SaaS platform in the cloud station service system with the intelligent vehicle security inspection point, the luggage security inspection equipment and the intelligent waiting hall, the execution of a passenger transport task is realized, the constraint of the traditional passenger transport station is removed, and the utilization rate of the passenger transport equipment, the asset return rate and the stability of the passenger transport station are improved. Meanwhile, ticket information of a traditional station and a station on the cloud is generated and collected for passenger traffic business through the networked ticketing system, passenger traffic car service is provided for passengers through the car service system, and the transaction data of the passenger traffic business is cleared and settled through the clearing and settlement system, so that passenger traffic data processing efficiency is improved, and passenger experience is improved.

An embodiment of the present invention provides a cloud vehicle loading station system, and referring to fig. 1, fig. 1 is a schematic structural diagram of a first embodiment of the cloud vehicle loading station system according to the present invention.

In this embodiment, the cloud boarding station system includes a cloud boarding station platform 100, at least one passenger end 200, and at least one driver end 300.

Specifically, the cloud boarding station platform 100 is configured to acquire passenger transportation data, create ticket information according to the passenger transportation data, send the ticket information to the passenger terminal 200, update the ticket information when first ticket purchasing information is received, generate departure information according to the ticket information, and send the departure information to the driver terminal 300; the departure information comprises an entering position set and a leaving position set, the entering position set comprises an entering position corresponding to at least one passenger, and the leaving position set comprises a leaving position corresponding to at least one passenger.

As can be easily understood, the cloud station platform 100 is a station server disposed at the cloud end, and the station server acquires transportation resource data, transportation route shift, historical transportation data, and other information of the passenger enterprise to create ticket information, and sends the ticket information to the passenger terminal 200.

Further, the cloud boarding station platform 100 may also log in the platform account of the belonging passenger station by accessing the station server through the staff of the passenger transport station, enter the data space of the corresponding passenger station, and create the ticket information according to the information such as the transport resource data, the transport route shift, and the historical transport data acquired by the station server.

Specifically, the passenger end 200 is an electronic device used for being connected to the cloud boarding station platform 100, a passenger obtains ticket information through the passenger end 200, inputs a first ticket purchasing instruction to the passenger end 200 according to the ticket information, generates first ticket purchasing information by using the first ticket purchasing instruction and the ticket information, and sends the first ticket purchasing information to the cloud boarding station platform 100, wherein the first ticket purchasing information includes boarding position passenger identification card information of the passenger, a passenger contact telephone number, a leaving position and a passenger contact telephone number, and the like.

As can be easily understood, after the passenger terminal 200 sends the first ticket purchasing information to the cloud platform 100, the cloud platform 100 updates the ticket purchasing information according to the received first ticket purchasing information, so that the current ticket purchasing information matches with the actual ticket situation, and thus, other passengers can inquire the ticket and purchase the ticket.

Specifically, the driver terminal 300 is an electronic device used for connecting to the cloud platform 100, and after a passenger enterprise corresponding to a driver establishes a relationship with the cloud platform 100, the driver can connect to the cloud platform 100 through the driver terminal 300 to query departure information corresponding to the driver, thereby executing a passenger transportation task.

As can be easily understood, the cloud platform 100 may further generate departure information according to the ticket information, and send the departure information to the corresponding driver terminal 300, so that the passenger vehicle corresponding to the driver terminal 300 executes the passenger transportation task according to the departure information.

It should be noted that, when the cloud boarding station platform 100 generates departure information according to the ticket information, the departure information includes at least one boarding position and at least one alighting position where the driver end 300 corresponds to the passenger vehicle to execute the passenger transportation task. The passenger getting-on positions are passenger getting-on points arranged at different positions, the passenger getting-off positions are passenger getting-off points arranged at different positions, and the passenger getting-on points and the passenger getting-off points are dispersedly arranged outside the passenger station, so that the construction cost of the passenger station is reduced, the utilization rate of passenger equipment is improved, the passenger riding experience is improved, and the passengers do not need to travel to a fixed passenger station, namely 36834y and can experience passenger transport service with high efficiency and high convenience only by inquiring the nearest getting-on position and the getting-off position of a destination.

In this embodiment, a cloud station of getting on bus system is provided, through passenger traffic station decentralized setting, station service system cloud end ization sets up, according to passenger's ticket buying information, distributes passenger vehicle and goes to corresponding position of getting on bus and the position of getting off, realizes passenger traffic task's execution, breaks away from the constraint of traditional passenger traffic station, improves passenger transport equipment utilization ratio, passenger transportation efficiency and passenger experience.

For convenience of understanding, referring to fig. 2, fig. 2 is a schematic structural diagram of a cloud boarding station system according to a second embodiment of the present invention. Based on the first embodiment of the cloud boarding station system shown in fig. 1, the present embodiment proposes a second embodiment of the cloud boarding station system, which is specifically as follows:

in the present embodiment, as shown in fig. 2, the cloud vehicle-boarding station platform 100 includes a cloud station service system and a networked ticketing system.

Specifically, the cloud station service system is configured to acquire passenger transportation data, create ticket information according to the passenger transportation data, send the ticket information to the online ticketing system, generate departure information according to the ticket information, and send the departure information to the driver side 300.

It is easy to understand that after the collected passenger transport data is acquired by the cloud station service system, ticket information is created by using the passenger transport data, the ticket information is sent to the networked ticketing system, the networked ticketing system sends the ticket information to the corresponding passenger end 200, and then the passenger obtains the ticket information when the passenger end 200 performs ticketing inquiry.

Specifically, the networked ticketing system is configured to obtain first ticket purchasing information of the passenger terminal 200, and update the ticket information according to the first ticket purchasing information.

It is easy to understand that the networked ticketing system monitors the ticket purchasing information of the passenger terminal 200 accessing the networked ticketing system after obtaining the ticket information generated by the cloud station service system, and updates the current ticket information according to the first ticket purchasing information when obtaining the first ticket purchasing information of the passenger terminal 200.

In some embodiments, the cloud boarding station system further includes at least one vehicle security check device 400, the vehicle security check device 400 is disposed at a vehicle security check point, and the vehicle security check point is further disposed with an identification device 500. On the basis, the cloud station service system further comprises a station service SaaS platform and a vehicle security inspection module.

Specifically, the station service SaaS platform is used for generating ticket information when a ticket creating instruction is received, matching corresponding ticket information for a passenger corresponding to the ticket purchasing instruction to generate a trip order when the ticket purchasing instruction is received, and generating a corresponding departure plan for a driver end corresponding to the departure instruction when the departure instruction is received, so that the driver end executes a passenger transportation task according to the departure plan; the vehicle security check module is used for acquiring vehicle security check information acquired by vehicle security check equipment arranged at a vehicle security check point, judging whether the vehicle security check information meets a safety condition or not, and generating a shift reporting instruction for the driver terminal when receiving a shift reporting request.

The cloud station service system is used for acquiring passenger transport data, creating ticket information according to the passenger transport data and sending the ticket information to the networked ticketing system; the passenger car security inspection system is used for generating a security inspection instruction according to the ticket information and sending the security inspection instruction to the driver end 300 so as to enable a passenger car corresponding to the driver end 300 to execute a security inspection task; the system is used for acquiring vehicle security check information acquired by the vehicle security check equipment 400 and driver identity information acquired by the identity recognition equipment 500 corresponding to the departure instruction, and generating departure information when the vehicle security check information and the driver identity information meet safety conditions; the safety condition is that the vehicle safety inspection is normal and the driver identity is matched with the passenger vehicle, and the sending module is arranged in the cloud station service system and used for sending the departure information to the corresponding driver end 300, so that the passenger vehicle corresponding to the driver end 300 sequentially goes to at least one getting-on position and at least one getting-off position according to the departure information to execute a passenger transport task.

The vehicle security check point may be provided in a gas station, a motor vehicle safety monitoring station, or the like. The place has security inspection qualification, is equipped with the main \ vice security inspector who obtains passenger traffic motor vehicle security inspection qualification certificate, or possesses the main \ vice security inspector of other conditions that local administrative department required, and the place is provided with security inspection trench, security inspection equipment and instrument, if: the safety inspection device comprises tire pressure detection equipment, a wrench, a screwdriver, a hammer, a triangle wood, a torque wrench, a steel tape, a steel plate ruler, a socket wrench, a portable lighting tool, a tire barometer, a tire pattern tool ruler, a safety helmet, a tool, gloves, a reflective vest and other safety protection articles, and a main/auxiliary safety inspector uses the facility equipment to carry out safety inspection on the passenger motor vehicle by referring to the next drawing process.

Further, after the security check is finished, a main/auxiliary security checker logs in the cloud boarding station platform 100 to fill in a security check result for the corresponding vehicle, uploads vehicle information, namely the security check result, prints a security check result list to be carried by a driver on the vehicle, and the cloud boarding station platform 100 judges whether to grant the checked vehicle to be submitted for carrying according to the security check result. The security check point staff can also directly log in the cloud boarding station platform 100 to register and input the security check result. After the checked vehicle is judged to be approved for carrying, the departure information is sent to the corresponding driver terminal 300.

The safety inspection results are stored through the cloud boarding station platform 100, and drivers on duty and the affiliated passenger enterprises can log into the cloud boarding station platform 100 to inquire the historical safety inspection result records of corresponding vehicles carried in the duty.

It should be noted that, in order to implement a security check process before a passenger vehicle departing from a passenger station performs each passenger transportation task, ticket information is created in a creation module of the cloud station service system, and when the ticket information is sent to the networked ticketing system, a security check instruction needs to be generated according to the ticket information. The security inspection instruction is used for driving the passenger vehicle corresponding to the driver end 300 to go to a vehicle security inspection point to execute a security inspection task.

Furthermore, the departure information is generated only when the vehicle security check information acquired by the vehicle security check equipment 400 and the driver identity information acquired by the identity recognition equipment 500 meet the safety condition, wherein the safety condition is that the vehicle security check is normal and the driver identity is matched with the passenger vehicle, and the departure information is sent to the corresponding driver end 300 at the moment, so that the passenger vehicle corresponding to the driver end 300 sequentially goes to at least one getting-on position and at least one getting-off position according to the departure information to execute a passenger traffic task.

In another embodiment, the cloud boarding station system further comprises at least one baggage security check device 700, wherein the baggage security check device 700 is disposed at a passenger vehicle or passenger boarding point.

Specifically, in order to implement a security check process for passengers transporting a passenger vehicle out of a passenger station, the baggage security check device 700 detects baggage security check information of passengers taking the passenger vehicle by being disposed at the passenger vehicle or a passenger boarding point, and sends the baggage security check information to the security check module.

Further, the luggage security inspection apparatus 700 includes an X-ray detector, a metal detector, an inflammable and explosive substance detector, and the like.

In another embodiment, the cloud boarding station system further comprises at least one intelligent waiting hall arranged at the boarding position and at least one intelligent waiting hall arranged at the disembarking position, the intelligent waiting hall is provided with the electronic stop board device 600, and the cloud station service system comprises an inquiry module and a ticket purchasing module.

Specifically, in order for a passenger to receive a better passenger service at an entering position or a leaving position, a smart waiting hall may be provided at the entering position and the leaving position, and the passenger may purchase a ticket at the passenger terminal 200 and then go to the corresponding smart waiting hall to wait.

It should be noted that the intelligent waiting hall can be selectively set in public places such as city bus stops and traffic hubs, and the electronic stop board device 600 communicates with the networked ticket selling platform through a 4G/5G limited network to perform data interaction with the cloud boarding platform 100.

Meanwhile, the cloud station service system further comprises an inquiry module and a ticket purchasing module, wherein the inquiry module is used for acquiring a vehicle inquiry command of the electronic station board device 600, matching passenger transport information of a corresponding passenger vehicle according to the vehicle inquiry command, and sending the passenger transport information to the electronic station board device 600; the passenger transport information comprises one or more of line information, shift information, vehicle information or driver information; the ticket purchasing module is used for acquiring a second ticket purchasing instruction of the electronic stop board device 600, and generating second ticket purchasing information according to the second ticket purchasing instruction and the ticket information corresponding to the current intelligent waiting hall, so that the networked ticketing system updates the ticket information according to the second ticket purchasing information; and the second ticket buying information comprises the position information of the current intelligent waiting hall and the getting-off position information.

Specifically, a passenger can interact with the information of the networked ticketing system through the electronic stop board, inquire the line information of the local station in real time, initiate ticket buying, complete passenger identification card identification through an identification card reader configured for the passenger, realize real-name ticket buying, and print a riding certificate with electronic invoice information, department electronic ticket information or local electronic ticket information through a printer. After the passenger buys the current-class driver of the carrier vehicle, the information of the current-class driver and the carrier vehicle corresponding to the current-class driver can be inquired, and the running position of the vehicle and the arrival information can be displayed for broadcasting. The equipment is set up to form a bus taking point which can provide line inquiry, real-name system check, ticket purchase, ticket printing and waiting information inquiry.

In this embodiment, a cloud boarding station system is provided, in which vehicle security check and baggage security check are separated from a passenger station and dispersedly disposed at different positions, so that passenger vehicles at different positions can conveniently perform vehicle security check and passenger baggage security check at corresponding positions, and a flexible vehicle security check point and baggage security check scheme is provided for passenger enterprises; meanwhile, the intelligent waiting hall corresponding to the getting-on position and the getting-off position is configured, so that passengers can wait for the passenger vehicles, inquire information of the passenger vehicles, purchase tickets and take the passenger vehicles at different positions conveniently, and passenger service experience of the passengers is improved.

For convenience of understanding, referring to fig. 3, fig. 3 is a schematic structural diagram of a third embodiment of the cloud boarding station system according to the present invention. Based on the second embodiment of the cloud boarding station system shown in fig. 2, the present embodiment proposes a third embodiment of the cloud boarding station system, which is specifically as follows:

in this embodiment, the passenger end 200 is further configured to collect the vehicle using request information, and the cloud boarding station platform 100 further includes a vehicle using service system, where the vehicle using service system includes a transportation capability monitoring module, a service configuration module, an order processing module, and a vehicle using dispatching module.

Specifically, the transportation capacity supervision module is used for distributing service permission to the passenger transport enterprises and acquiring transportation capacity resources of the passenger transport enterprises when receiving a passenger transport opening request; the service configuration module is used for forming vehicle using commodity information when receiving the service configuration data and sending the vehicle using commodity information to the operation platform; the order processing module is used for matching corresponding vehicle using services according to vehicle using commodity information selected by passengers on an operation platform, generating a vehicle using order, judging whether the vehicle using order is a risk order or not, and carrying out wind control processing on the risk order; and the vehicle using dispatching module is used for distributing the order data information corresponding to the vehicle using order to a driver end according to the vehicle using order after the wind control processing so that the passenger vehicle corresponding to the driver end executes the vehicle using service corresponding to the vehicle using order.

Furthermore, the vehicle service system also comprises a map service module, wherein the map service module comprises a map service configuration unit, a map data processing unit and a map service calling unit.

Specifically, the map service configuration unit acquires map information provided by a map service provider; the map data processing unit is used for carrying out regularization processing and label processing on the map information to obtain map data of the vehicle; and the map service calling unit is used for sending the vehicle-using map data to a calling end when receiving a calling instruction, and the calling end is a processing end corresponding to the calling instruction.

In this embodiment, as shown in fig. 4, the overall service principle flow of the vehicle service system is as follows:

(1) And the transportation enterprises, the passenger transportation stations or the human resource companies upload the transportation capacity data information on the transportation capacity supervision module, the transportation capacity supervision module audits the data information, after the audit is passed, the relevant business and the relevant driver end account number of the driver can be opened, and the transportation capacity data information with the schedulable travel information can be obtained.

(2) Meanwhile, the transportation capacity monitoring data information is stored, the data center station acquires the transportation capacity monitoring data information to generate source pasting data, a corresponding data report is generated after the source pasting data is labeled, and the transportation capacity supervision module generates a visual data chart according to the data report and displays the visual data chart.

(3) And the transportation enterprises, the passenger transportation stations or the human resource companies configure the service rule data information according to the opened service data information in the transportation capacity supervision module to form marketable online passenger transportation commodity data information.

(4) And the business configuration module associates the corresponding brand and channel data information according to the marketable online passenger transport commodity data information, and directionally puts in the commodity.

(5) The method comprises the steps that a passenger inquires and selects information of commodities delivered in a channel to which the passenger belongs at a user terminal, and submits the information of relevant travel and passenger information to an order processing module after filling in the information of relevant travel and passenger information, and order data information is generated.

(6) And the order processing module is used for filtering the generated order data information according to a configured wind control rule and processing the order data information triggering the wind control according to a wind control processing rule.

(7) And the order data information filtered and processed by the order processing module calls the vehicle dispatching module to carry out operation and dispatching.

(8) And the vehicle dispatching module acquires corresponding operation dispatching rules and dispatching rules to dispatch the orders according to the order dispatching types (plan dispatching, real-time or reservation dispatching).

(9) And after the order dispatching succeeds, updating corresponding driver and vehicle dispatching information into order data information, and returning the order data information to a driver terminal and a passenger user terminal.

(10) The driver can obtain a navigation route from the map service system according to the order displayed by the driver end and the scheduling data information, and the passenger can be picked up, sent and served. The passenger can obtain and check information such as the real-time position of the driver from the map service system through the user terminal;

aiming at real-time or reservation scheduling type orders, the map service system provides service capabilities such as real-time pricing and nearby order distribution.

It is easy to understand that in some cases, the passenger end 200 needs to customize the passenger transportation route, at this time, the passenger may send the vehicle using request information to the vehicle using service system of the cloud boarding station platform 100 through the passenger end 200, and the order generating module of the vehicle using service system is configured to obtain the vehicle using request information sent by at least one passenger end 200, and generate the passenger transportation order according to the vehicle using request information.

Specifically, the passenger transportation enterprise can manage business data such as vehicles, drivers, opening cities, line shifts, electronic fences, pricing systems and the like on the cloud boarding station platform 100, and can form marketable online passenger transportation product information when receiving vehicle request information of the passenger end 200.

Through the passenger end 200, the passenger selects the required travel product, fills and records the passenger, origin and destination, date, time and value-added service information required by the corresponding travel product, and completes order submission and online payment.

The driver can obtain the information of the line, the shift, the order and the passenger of the service carried by the driver through the driver end 300, and can get out of the vehicle to pick up the passenger according to the information of the line, the shift, the order and the passenger displayed by the driver end 300 after the safety inspection of the vehicle.

Further, after the passenger transport order is generated, the order distribution module is configured to distribute the passenger transport order to the corresponding driver end 300, and send a security check instruction to the driver end 300, so that the passenger transport vehicle corresponding to the driver end 300 executes a security check task, and when the vehicle security check information, the luggage security check information, and the driver identity information meet preset conditions, generate departure information.

In addition, in this embodiment, the cloud boarding station platform 100 further includes a clearing and settlement system, the clearing and settlement system is in interactive communication with a payment platform, the payment platform creates a first account corresponding to the operation platform and a second account corresponding to the supplier, the payment platform includes bank and non-bank payment mechanisms, and the clearing and settlement system includes a clearing module, a settlement module and a compliance payment module.

Specifically, the clearing module is used for identifying a clearing object model when receiving a clearing request, matching a corresponding charging rule according to the clearing object model and the list object model, determining clearing data to be transmitted to a settlement module for generating a settlement list based on the charging rule, and sending the clearing request to the bank and non-bank payment mechanisms for generating a pre-payment basis; the settlement module is used for acquiring the clearing data and generating a settlement list according to the clearing data and settlement rules corresponding to suppliers; and the compliance payment module is used for acquiring a settlement list and sending the settlement list to the bank and non-bank payment mechanisms after a supplier confirms the settlement list, so that the bank and non-bank payment mechanisms adjust the account allocation of the first account and the second account according to the settlement list and the pre-payment basis and execute the payment action.

As will be readily understood, when the payment platform is a bank payment platform, the first account includes an operation platform account and a first administrative account, the second account includes a supplier account and a second administrative account, and the second account is a secondary account of the operation platform account; wherein: the first supervision account receives transfer money of the user about the order, and the account allocation of the first account and the second account is adjusted to execute the transfer action from the first supervision account to the second supervision account; the compliance payment system is also used for sending the statement of account to a bank supervision mechanism and sending the statement of account to a payment platform after the bank supervision mechanism confirms the statement of account.

As will be readily appreciated, when the payment platform is a non-bank payment platform, the first account includes an operation platform account, the second account includes a supplier account and a second administrative account, and the second account is a secondary account of the operation platform account; wherein: and the second supervision account receives the transfer money of the user about the order, and the account allocation of the first account and the second account is adjusted to change the money corresponding to the transfer money in the second supervision account from a frozen state to a unfrozen state.

Specifically, the clearing settlement system flow operation can be divided into a user side, a platform side and a supplier side.

A user side: the user purchases the commodities provided by the supplier on a transaction platform established by an internet operator, the funds paid by the user enter a fund supervision account of a non-silver payment mechanism, and the user receives the commodity purchase success information and can use the purchase success information.

A platform side: the platform cleans the platform transaction data according to a certain time range, uses the cleaned data to identify the supplier object, carries out clearing according to the clearing rule of the supplier, provides the clearing result to the settlement system for settlement bill generation after the clearing is finished, and informs the bank/non-silver payment mechanism to carry out fund transfer/unfreezing after the supplier confirms the settlement bill.

The supplier side: in the system, after the settlement list provided by the platform is confirmed, the money transfer/unfreezing operation can be carried out on the money transfer/unfreezing operation at the bank/non-bank payment mechanism after the platform finishes the money transfer/unfreezing operation.

The service flow of the clearing settlement system can be realized according to the operation of the user side, the platform side and the supplier side.

It should be noted that, for the compliance payment module, under the new era background of "internet +" and "double creation" advocated by the country, more and more enterprises based on internet services will emerge, and the non-compliance payment clearing condition will occur in the internet operation process of the enterprises, which violates the requirements of the bank office issuing the file No. 2017 217 and the internet insurance business supervision of the bank insurance prison. The compliance payment system of the clearing settlement platform is in butt joint with a bank and a non-bank payment mechanism to jointly build a compliance payment clearing network, and the fund security of merchants and customers is maintained.

Bank compliance payment clearing network: the cloud vehicle-mounted station platform and the bank sign a cooperative agreement to open a platform account, a platform fund supervision account, a commission account, a bedding account and the like, a supplier opens a secondary account and a supplier fund supervision account under the platform account and binds a settlement card, the user quickly pays the ticket money in a compliant payment clearing network built by the cloud vehicle-mounted station platform and the bank, the platform reports order payment information to a bank supervision mechanism in real time, the fund also enters the fund supervision account, a clearing and settlement system clears the ticket money according to a settlement period of the supplier, a supplier settlement sheet is generated after the clearing is successful, the supplier clearing and settlement information is reported to the bank supervision mechanism in real time through an API (application program interface) interface after the supplier confirms, and the supervision account is divided into the supplier supervision account from the platform supervision account to complete the ticket money settlement after the supervision account is checked by the supervision mechanism.

Non-silver payment institution compliance payment clearing network: the cloud vehicle-mounted station platform and the non-silver payment mechanism sign a cooperative agreement to open a platform account, a commission account, a funding account and the like, a supplier opens a secondary account and a supplier fund supervision account under the platform account and binds a settlement card, the user uses WeChat and Paibao to pay the ticket money in a compliance payment clearing network built by the cloud vehicle-mounted station platform and the non-silver payment mechanism, the fund paid by the user enters the supplier fund supervision account through the compliance payment clearing network and is in a frozen state, a clearing and settlement system can clear and classify the ticket money according to the settlement period of the supplier, a supplier settlement list is generated after the clearing and the classification are successful, and after the supplier confirms, the platform sends a fund unfreezing instruction to the non-silver payment mechanism through an API (application programming interface) interface to unfreeze the supplier fund to finish the ticket money settlement.

As is easy to understand, the counting module is used for extracting the transaction payment information in the passenger transport order and the ticket information and counting the transaction payment information to obtain payment counting information; and the settlement module is used for carrying out expense settlement on the payment clearing information so as to distribute transaction expense.

Specifically, the clearing module can meet the clearing requirements of various services, identify a clearing object model after an upstream system such as an order system, a transaction system, a payment system and the like initiates a clearing request, inquire a charging rule of the corresponding object model, and calculate the fare for settlement according to the charging rule, such as settlement of the fare based on an order clearing provider, calculation of the marketing cost of a payment card based on a transaction, calculation of the transaction cost based on a payment and the like.

Further, the operation mode of the sorting module is as follows: the object model is identified through the objects which should be paid and the relationship between the objects, the accounting rule of the accounting payment type is found through the object model, the accounting payment amount is calculated through the accounting rule, and accurate clearing data is output to the accounting system through an API (application program interface).

Specifically, the settlement module can distribute and settle the transaction fee according to the specific clearing data and the preset distribution rule.

In addition, in the present embodiment, the cloud boarding station platform 100 further includes a security system.

Specifically, the safety system is used for performing safety protection on the interaction data between the passenger end 200 and the cloud bus station platform 100 and the interaction data between the driver end 300 and the cloud bus station platform 100.

In the embodiment, a cloud boarding station system is provided, and a car using service system is arranged on a cloud boarding station platform 100 to provide passenger transport route customization service for passengers, so that different passenger transport service requirements of the passengers are met; meanwhile, a clearing settlement system is arranged on the cloud boarding station platform 100 to clear the transaction payment information and distribute the transaction fee among the passenger enterprises, so that high-resolution service data clearing and fee settlement are realized.

For convenience of understanding, referring to fig. 5, fig. 5 is a schematic flow chart of a first embodiment of an interaction method of the cloud boarding station system according to the present invention. Based on the embodiment of the cloud boarding station system shown above, the embodiment of the interaction method of the cloud boarding station system is provided in this embodiment, which specifically includes the following steps:

as shown in fig. 5, the interaction method of the cloud vehicle loading station system provided by the embodiment of the present invention includes the following steps:

s100, the cloud boarding station platform acquires passenger transport data, creates ticket information according to the passenger transport data, and sends the ticket information to a passenger side;

s200, a passenger terminal collects a first ticket buying instruction of a passenger, generates first ticket buying information according to the first ticket buying instruction and the ticket information, and sends the first ticket buying information to a cloud bus station platform;

s300, when the cloud station-in-bus platform receives first ticket purchasing information, updating the ticket information; the first ticket buying information comprises the boarding position and the alighting position of a passenger;

s400, the cloud boarding station platform generates departure information according to the ticket information and sends the departure information to a driver end; the departure information comprises an entering position set and a leaving position set, the entering position set comprises an entering position corresponding to at least one passenger, and the leaving position set comprises a leaving position corresponding to at least one passenger;

s500, a driver end obtains departure information, so that a passenger vehicle corresponding to the driver end sequentially goes to at least one getting-on position and at least one getting-off position according to the departure information to execute a passenger transport task.

As shown in fig. 6, a second embodiment of the interaction method of the cloud station-on-vehicle system is provided, which is based on the first embodiment shown in fig. 5. In this embodiment, the cloud bus boarding station system further includes at least one intelligent waiting hall arranged in the bus boarding position and at least one intelligent waiting hall arranged in the bus disembarking position, the intelligent waiting hall is provided with an electronic stop board device, and the interaction method of the cloud bus boarding station system further includes:

s600, the electronic station board device collects a second ticket purchasing instruction of a passenger, generates second ticket purchasing information according to the second ticket purchasing instruction and ticket information corresponding to the current smart car hall, and sends the second ticket purchasing information to a cloud vehicle-mounted station platform;

and S700, when the cloud boarding station platform receives the second ticket purchasing information, updating the ticket information.

According to the interaction method of the cloud boarding station system provided by the embodiment of the invention, through decentralized setting of the passenger station and cloud-end setting of the station service system, the passenger vehicle is distributed to the corresponding boarding position and the alighting position according to the ticket purchasing information of the passenger, so that the execution of a passenger transport task is realized, the constraint of the traditional passenger station is removed, and the utilization rate of passenger transport equipment, the passenger transport efficiency and the passenger experience are improved.

Other embodiments or specific implementation manners of the interaction method for the cloud vehicle station system according to the present invention may refer to the embodiments of the cloud vehicle station systems, and are not described herein again.

In addition, an embodiment of the present invention further provides a storage medium, where a cloud vehicle-to-vehicle station interaction program is stored on the storage medium, and when executed by a processor, the cloud vehicle-to-vehicle station interaction program implements the steps of the interaction method of the cloud vehicle-to-vehicle station system described above. Therefore, a detailed description thereof will be omitted. In addition, the beneficial effects of the same method are not described in detail. For technical details not disclosed in the embodiments of the computer-readable storage medium referred to in the present application, reference is made to the description of the embodiments of the method of the present application. It is determined that, by way of example, the program instructions may be deployed to be executed on one computing device or on multiple computing devices at one site or distributed across multiple sites and interconnected by a communication network.

It will be understood by those skilled in the art that all or part of the processes of the methods of the embodiments described above can be implemented by a computer program, which can be stored in a computer-readable storage medium, and when executed, can include the processes of the embodiments of the methods described above. The storage medium may be a magnetic disk, an optical disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), or the like.

It should be noted that the above-described embodiments of the apparatus are merely illustrative, where the units described as separate parts may or may not be physically separate, and parts displayed as units may or may not be physical units, may be located in one place, or may be distributed on multiple network units. Some or all of the modules may be selected according to actual needs to achieve the purpose of the solution of this embodiment. In addition, in the drawings of the embodiment of the apparatus provided by the present invention, the connection relationship between the modules indicates that there is a communication connection between them, and may be specifically implemented as one or more communication buses or signal lines. One of ordinary skill in the art can understand and implement it without inventive effort.

Through the above description of the embodiments, those skilled in the art will clearly understand that the present invention may be implemented by software plus necessary general hardware, and may also be implemented by special purpose hardware including special purpose integrated circuits, special purpose CPUs, special purpose memories, special purpose components and the like. Generally, functions performed by computer programs can be easily implemented by corresponding hardware, and specific hardware structures for implementing the same functions may be various, such as analog circuits, digital circuits, or dedicated circuits. However, the software program implementation is a better implementation mode for the present invention in more cases. Based on such understanding, the technical solutions of the present invention may be embodied in the form of a software product, where the computer software product is stored in a readable storage medium, such as a floppy disk, a usb disk, a removable hard disk, a Read-only memory (ROM), a random-access memory (RAM), a magnetic disk or an optical disk of a computer, and includes instructions for enabling a computer device (which may be a personal computer, a server, or a network device) to execute the methods according to the embodiments of the present invention.

Claims (10)

1. A cloud vehicle loading station system, comprising:

the cloud boarding station platform is used for acquiring passenger transport data, creating ticket information according to the passenger transport data, sending the ticket information to a passenger end, updating the ticket information when first ticket purchasing information is received, generating departure information according to the ticket information, and sending the departure information to a driver end; the departure information comprises an entering position set and a leaving position set, the entering position set comprises an entering position corresponding to at least one passenger, and the leaving position set comprises a leaving position corresponding to at least one passenger;

the passenger terminal is used for acquiring a first ticket purchasing instruction, generating first ticket purchasing information according to the first ticket purchasing instruction and the ticket information, and sending the first ticket purchasing information to a cloud bus-boarding station platform; the first ticket purchasing information comprises an getting-on position and a getting-off position of a passenger;

the passenger vehicle corresponding to the driver end sequentially goes to at least one getting-on position and at least one getting-off position according to the departure information, and a passenger transport task is executed.

2. The cloud docking station system of claim 1, wherein the cloud docking station platform comprises:

the cloud station service system is used for acquiring passenger transport data, creating ticket information according to the passenger transport data, sending the ticket information to an online ticketing system, generating departure information according to the ticket information, and sending the departure information to the driver end;

and the networked ticketing system is used for acquiring first ticket purchasing information of the passenger terminal and updating the ticket information according to the first ticket purchasing information.

3. The cloud vehicle pick-up station system of claim 1, wherein the cloud vehicle pick-up station system further comprises at least one vehicle security check device, the vehicle security check device being provided at a vehicle security check point, the cloud station service system comprising:

the station service SaaS platform is used for generating ticket information when receiving a ticket establishment instruction, matching corresponding ticket information for a passenger corresponding to the ticket purchase instruction to generate a travel order when receiving the ticket purchase instruction, and generating a corresponding departure plan for a driver end corresponding to the shift reporting instruction to enable the driver end to execute a passenger transport task according to the departure plan when receiving the shift reporting instruction;

the vehicle security check module is used for acquiring vehicle security check information acquired by vehicle security check equipment arranged at a vehicle security check point, judging whether the vehicle security check information meets a safety condition or not, and generating a shift reporting instruction for the driver terminal when receiving a shift reporting request.

4. The cloud bus boarding station system of claim 3, further comprising at least one intelligent waiting hall provided at a boarding location and at least one off location, the intelligent waiting hall being provided with electronic bus stop board equipment, the cloud bus station system further comprising:

the query module is used for acquiring a vehicle query instruction of the electronic stop board equipment, matching corresponding passenger transport information according to the vehicle query instruction and sending the passenger transport information to the electronic stop board equipment; the passenger transport information comprises one or more of line information, shift information, vehicle information or driver information;

the ticket purchasing module is used for acquiring a second ticket purchasing instruction of the electronic stop board equipment and generating second ticket purchasing information according to the second ticket purchasing instruction and the ticket information corresponding to the current intelligent waiting hall, so that the networked ticketing system updates the ticket information according to the second ticket purchasing information; and the second ticket purchasing information comprises the position information of the current intelligent waiting hall and the getting-off position information.

5. The cloud bus-boarding station system of claim 4, further comprising at least one luggage security inspection device, wherein the luggage security inspection device is arranged in a passenger vehicle or an intelligent waiting hall and is used for collecting luggage security inspection information of passengers.

6. The cloud vehicle getting-on station system of claim 5, wherein the passenger end is further configured to collect vehicle using request information, the cloud vehicle getting-on station platform further comprises a vehicle using service system, and the vehicle using service system comprises:

the transport capacity monitoring module is used for distributing business authority to the passenger transport enterprises and acquiring transport capacity resources of the passenger transport enterprises when receiving the passenger transport fulfillment request;

the service configuration module is used for forming vehicle using commodity information when receiving the service configuration data and sending the vehicle using commodity information to the operation platform;

the order processing module is used for matching corresponding vehicle using services according to vehicle using commodity information selected by passengers on an operation platform, generating a vehicle using order, judging whether the vehicle using order is a risk order or not, and carrying out wind control processing on the risk order;

and the vehicle using dispatching module is used for distributing the order data information corresponding to the vehicle using order to a driver end according to the vehicle using order after the wind control processing so that the passenger vehicle corresponding to the driver end executes the vehicle using service corresponding to the vehicle using order.

7. The cloud boarding station system of any one of claims 1-6, wherein the cloud boarding station platform further comprises an inventory settlement system in interactive communication with a payment platform, the payment platform being created with a first account corresponding to an operating platform and a second account corresponding to a vendor, the payment platform including bank and non-bank payment institutions, the inventory settlement system comprising:

the clearing module is used for identifying a clearing object model when receiving a clearing request, matching a corresponding charging rule according to the clearing object model and the list object model, determining clearing data based on the charging rule, transmitting the clearing data to a settlement module for generating a settlement list, and sending a clearing request to the bank and non-bank payment mechanisms for generating a pre-payment basis;

the settlement module is used for acquiring the clearing data and generating a settlement list according to the clearing data and settlement rules corresponding to suppliers;

and the compliance payment module is used for acquiring a settlement list and sending the settlement list to the bank and non-bank payment mechanisms after a supplier confirms the settlement list, so that the bank and non-bank payment mechanisms adjust the account and money distribution of the first account and the second account according to the settlement list and the pre-payment basis and execute the payment action.

8. The cloud docking station system of any of claims 1-6, wherein the cloud docking station platform further comprises a security system for securing interaction data between the passenger side and the cloud docking station platform and interaction data between the driver side and the cloud docking station platform.

9. An interaction method of a cloud vehicle station system, which is used for the cloud vehicle station system according to any one of claims 1-8, and comprises the following steps:

the method comprises the steps that a cloud boarding station platform obtains passenger transport data, ticket information is created according to the passenger transport data, and the ticket information is sent to a passenger side;

the method comprises the steps that a passenger terminal collects a first ticket buying instruction of a passenger, generates first ticket buying information according to the first ticket buying instruction and ticket information, and sends the first ticket buying information to a cloud bus station platform;

when the cloud station-in-bus platform receives first ticket purchasing information, updating the ticket information; the first ticket purchasing information comprises an getting-on position and a getting-off position of a passenger;

the cloud boarding station platform generates departure information according to the ticket information and sends the departure information to the driver end; the departure information comprises an entering position set and a leaving position set, the entering position set comprises an entering position corresponding to at least one passenger, and the leaving position set comprises a leaving position corresponding to at least one passenger;

and the driver side acquires departure information so that the passenger vehicles corresponding to the driver side sequentially go to at least one getting-on position and at least one getting-off position according to the departure information to execute passenger transportation tasks.

10. The method for interacting with the cloud bus boarding station system according to claim 9, wherein the cloud bus boarding station system further comprises at least one intelligent waiting hall disposed at a boarding location and at least one intelligent waiting hall disposed at a disembarking location, the intelligent waiting hall is provided with an electronic stop board device, and the method for interacting with the cloud bus boarding station system further comprises:

the electronic station board device collects a second ticket buying instruction of a passenger, generates second ticket buying information according to the second ticket buying instruction and ticket information corresponding to the current smart car hall, and sends the second ticket buying information to the cloud bus station platform; the second ticket purchasing information comprises position information of the current intelligent waiting hall and getting-off position information;

and when the cloud boarding station platform receives the second ticket purchasing information, updating the ticket information.

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