CN116416101A - Cloud station system and interaction method thereof - Google Patents

Abstract

The invention discloses a cloud station system and an interaction method of the cloud station system, wherein the system comprises a station SaaS platform and a vehicle security inspection module, when a ticket creation instruction is received, ticket information is generated, when a ticket purchasing instruction is received, corresponding ticket information is matched for passengers corresponding to the ticket purchasing instruction so as to generate a travel order, and when a reporting instruction is received, a corresponding departure plan is generated for a driver end corresponding to the reporting instruction; and generating a shift report instruction for a driver end by acquiring the vehicle security information acquired by the vehicle security equipment arranged at the vehicle security point. According to the invention, the corresponding departure plan is generated for the driver end, so that the driver end corresponding to the vehicle security check is used for executing the passenger transport task, and the cloud station service system can meet the rule requirement of the station service system on the passenger transport link by utilizing the cloud station service platform and the decentralized passenger transport stations, so that the passenger transport safety is ensured while the passenger transport service experience of passengers is improved.

Description

Cloud station system and interaction method thereof

Technical Field

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

Background

In the conventional road passenger transportation station operation, a large-scale station and building including a parking lot, a security check line, a riding platform, a waiting hall and an office space, a station system integrated by a traditional informatization technology, security check facilities, a selling and checking machine tool and broadcasting equipment are required to be built, and a networking ticketing type internet platform is accessed to meet a series of production operation management work required to be realized for road passenger transportation operation. However, current road passenger transportation stations only serve passengers and passenger transport enterprises of the departure line of the station, and the utilization rate of site buildings, informatization systems and hardware facilities is low, the production organization efficiency is low, and the social resource waste is large.

The passenger transport mode based on the road passenger transport station can be optimized by the aid of the scheme of decentralized setting of passenger transport stations and cloud setting of the station service platform. However, the passenger station mode after the decentralized and discretized arrangement still needs to meet the necessary passenger security links such as vehicle security check, traveling package security check and the like, and meanwhile, corresponding standard points are also required to be set for the decentralized boarding points and alighting points so as to meet the requirements of boarding and alighting of passengers. Therefore, how to realize decentralized setting of passenger stations and the passenger mode after cloud setting of the station platform meets the rule requirement of the station system on the passenger link, so as to ensure the passenger safety while improving the passenger service experience of passengers is a technical problem to be solved urgently.

The foregoing is provided merely for the purpose of facilitating understanding of the technical solutions of the present invention and is not intended to represent an admission that the foregoing is prior art.

Disclosure of Invention

The invention mainly aims to provide a cloud station system and an interaction method of the cloud station system, and aims to solve the technical problems that a passenger transport mode after decentralized setting of a passenger transport station and cloud setting of a station platform cannot meet the rule requirement of the station system on a passenger transport link, and passenger transport safety cannot be guaranteed while passenger transport service experience of passengers is improved.

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

the station SaaS platform is used for generating ticket information when a ticket creation instruction is received, matching corresponding ticket information for passengers corresponding to the ticket purchase instruction when the ticket purchase instruction is received so as to generate a travel order, and generating a corresponding departure plan for a driver end corresponding to the ticket report instruction when the ticket report instruction is received so as to enable the driver end to execute a passenger transport task according to the departure plan;

the vehicle security inspection module is used for acquiring vehicle security inspection information acquired by vehicle security inspection equipment arranged at a vehicle security inspection point, judging whether the vehicle security inspection information meets security conditions, and generating a shift reporting instruction for the driver side when receiving a shift reporting request.

Optionally, the station SaaS platform includes:

the passenger traffic data acquisition module is used for acquiring the station standard data and processing the station standard data to acquire passenger traffic data;

the business processing module is used for generating ticket information according to the passenger transport data when a ticket creation instruction is received, matching corresponding ticket information for passengers corresponding to the ticket purchase instruction when the ticket purchase instruction is received so as to generate a travel order, and generating a corresponding departure plan for a driver end corresponding to the ticket report instruction when the ticket report instruction is received so as to enable the driver end to execute a passenger transport task according to the departure plan;

the passenger transport monitoring module is used for acquiring vehicle operation information in the process of executing passenger transport tasks by a driver end and sending the vehicle operation information to the supervision system;

the service settlement module is used for acquiring service data in the process of executing the passenger transport task by the driver side and performing expense settlement according to the service data.

Optionally, the vehicle security inspection point is a gas station or a motor vehicle security monitoring station, and the vehicle security inspection device is further configured to send the collected vehicle security inspection information corresponding to the driver end to the cloud station service system.

Optionally, the cloud station system is in communication connection with a service end, a passenger end and a driver end, the service end is used for sending ticket creation instructions to the cloud station system, the passenger end is used for sending ticket purchasing instructions to the cloud station system, and the driver end is used for sending a report request to the cloud station system.

Optionally, the station SaaS platform further includes:

a departure plan generating module for judging whether the vehicle security information of the passenger vehicle corresponding to the shift report instruction meets the security condition when the departure plan generating module receives the shift report instruction, and when the safety inspection information of the vehicle meets the safety condition, generating a corresponding departure plan for a driver end corresponding to the shift report instruction.

Optionally, the cloud station service system further includes:

and the row packet security inspection module is used for acquiring row packet security inspection information acquired by row packet security inspection equipment arranged on the vehicle and judging whether the row packet security inspection information meets the security condition.

Optionally, the line package security inspection device comprises one or more of a handheld portable radio frequency detection device, a vehicle-mounted radio frequency security detection device, a metal detection device, a flammable and explosive object detection device and an epidemic prevention inspection device.

Optionally, the passenger task includes sequentially going to at least one boarding location and at least one alighting location, and the cloud station service system further includes:

and the waiting room module is used for acquiring at least one passenger transport service request generated by the waiting room arranged at the boarding position and at least one waiting room arranged at the alighting position and providing corresponding passenger transport service for passengers of the passenger transport service request.

Optionally, the passenger service request includes one or more of ticket inquiry request, ticket purchase request, office inquiry request and waiting information inquiry request.

In addition, in order to achieve the above object, the present invention also provides an interaction method of a cloud station system, the interaction method of the cloud station system comprising the following steps:

through a station SaaS platform, when a ticket creation instruction is received, ticket information is generated, when a ticket purchasing instruction is received, corresponding ticket information is matched for passengers corresponding to the ticket purchasing instruction to generate a travel order, and when a shift report instruction is received, a corresponding departure plan is generated for a driver end corresponding to the shift report instruction, so that the driver end executes a passenger transport task according to the departure plan;

and acquiring vehicle security check information acquired by vehicle security check equipment arranged at a vehicle security check point through a vehicle security check module, judging whether the vehicle security check information meets security conditions, and generating a shift report instruction for the driver side when receiving a shift report request.

The cloud station system comprises a station SaaS platform and a vehicle security inspection module, wherein ticket information is generated when a ticket creation instruction is received, corresponding ticket information is matched for passengers corresponding to the ticket purchase instruction when the ticket purchase instruction is received, a travel order is generated, and a corresponding departure plan is generated for a driver end corresponding to the ticket report instruction when the ticket report instruction is received; and generating a shift report instruction for a driver end by acquiring the vehicle security information acquired by the vehicle security equipment arranged at the vehicle security point. According to the invention, the corresponding departure plan is generated for the driver end, so that the driver end corresponding to the vehicle security check is used for executing the passenger transport task, and the cloud station service system can meet the rule requirement of the station service system on the passenger transport link by utilizing the cloud station service platform and the decentralized passenger transport stations, so that the passenger transport safety is ensured while the passenger transport service experience of passengers is improved.

Drawings

FIG. 1 is a schematic diagram of a cloud station system according to an embodiment of the present invention;

fig. 2 is a schematic diagram of an interaction principle of a station SaaS platform in an embodiment of the present invention;

FIG. 3 is a schematic flow chart of a vehicle security check in an embodiment of the invention;

fig. 4 is a flow chart of an interaction method of a cloud station system in an embodiment of the invention.

The achievement of the objects, functional features and advantages of the present invention will be further described with reference to the accompanying drawings, in conjunction with the embodiments.

Detailed Description

It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.

In the conventional road passenger transportation station operation, a large-scale station and building including a parking lot, a security check line, a riding platform, a waiting hall and an office space, a station system integrated by a traditional informatization technology, security check facilities, a selling and checking machine tool and broadcasting equipment are required to be built, and a networking ticketing type internet platform is accessed to meet a series of production operation management work required to be realized for road passenger transportation operation. However, current road passenger transportation stations only serve passengers and passenger transport enterprises of the departure line of the station, and the utilization rate of site buildings, informatization systems and hardware facilities is low, the production organization efficiency is low, and the social resource waste is large.

The passenger transport mode based on the road passenger transport station can be optimized by the aid of the scheme of decentralized setting of passenger transport stations and cloud setting of the station service platform. However, the passenger station mode after the decentralized and discretized arrangement still needs to meet the necessary passenger security links such as vehicle security check, traveling package security check and the like, and meanwhile, corresponding standard points are also required to be set for the decentralized boarding points and alighting points so as to meet the requirements of boarding and alighting of passengers. Therefore, how to realize decentralized setting of passenger stations and the passenger mode after cloud setting of the station platform meets the rule requirement of the station system on the passenger link, so as to ensure the passenger safety while improving the passenger service experience of passengers is a technical problem to be solved urgently.

To solve this problem, various embodiments of the cloud station system and the interaction method of the cloud station system of the present invention are presented. According to the cloud station service system provided by the invention, the corresponding departure plan is generated for the driver end, so that the driver end corresponding to the vehicle security check is used for executing the passenger transport task, and the cloud station service system can meet the rule requirement of the station service system on the passenger transport link by utilizing the cloud station service platform and the scattered passenger transport stations, so that the passenger transport safety is ensured while the passenger transport service experience of passengers is improved.

The embodiment of the invention provides a cloud station system, and referring to fig. 1, fig. 1 is a schematic structural diagram of an embodiment of the cloud station system.

In this embodiment, the cloud station system includes a station SaaS platform, a vehicle security inspection module, a traveling package security inspection module, and a waiting hall module.

In the passenger mode of decentralized setting of passenger stations and cloud setting of the station service platform, at least one boarding point and at least one alighting point are arranged, passenger vehicles carry out security check and report on the vehicles at the vehicle security check point, after receiving a dispatching task, the passenger is waited for boarding by going to the at least one boarding point and driving to the at least one alighting point, so that the passengers are convenient to alighting, the intelligent waiting rooms arranged at the plurality of boarding points and alighting points replace the traditional large passenger stations, and the security check links which are indispensable for passenger transportation are supplemented by utilizing the vehicle security check point and the vehicle-mounted security check equipment, so that the problems that the road passenger transportation station only serves passengers and passenger transportation enterprises of the dispatching line of the passenger station in the traditional passenger mode can be solved, and the site building, the information system and the hardware facility equipment are low in utilization rate, the production organization efficiency is low, and the social resource waste is large.

However, the passenger station mode after the decentralized and discretized arrangement still needs to meet the necessary passenger security links such as vehicle security check, traveling package security check and the like, and meanwhile, corresponding standard points are also required to be set for the decentralized boarding points and alighting points so as to meet the requirements of boarding and alighting of passengers.

Further, the station SaaS platform is used for generating ticket information when receiving a ticket creation instruction, matching corresponding ticket information for passengers corresponding to the ticket purchase instruction when receiving the ticket purchase instruction so as to generate a travel order, and generating a corresponding departure plan for a driver end corresponding to the ticket report instruction when receiving the ticket report instruction so as to enable the driver end to execute a passenger transport task according to the departure plan.

The station SaaS platform comprises a passenger transport data acquisition module, a service processing module, a passenger transport monitoring module and a service settlement module.

Specifically, the passenger traffic data acquisition module is used for acquiring the station standard data and processing the station standard data to acquire passenger traffic data; the business processing module is used for generating ticket information according to the passenger transport data when a ticket creation instruction is received, matching corresponding ticket information for passengers corresponding to the ticket purchase instruction when the ticket purchase instruction is received so as to generate a travel order, and generating a corresponding departure plan for a driver end corresponding to the ticket report instruction when the ticket report instruction is received so as to enable the driver end to execute a passenger transport task according to the departure plan; the passenger transport monitoring module is used for acquiring vehicle operation information in the process of executing passenger transport tasks by a driver end and sending the vehicle operation information to the supervision system; the service settlement module is used for acquiring service data in the process of executing the passenger transport task by the driver side and performing expense settlement according to the service data.

In another embodiment, the departure plan generating module is configured to determine, when receiving a shift report instruction, whether vehicle security information of a passenger vehicle corresponding to the shift report instruction meets a security condition, and generate, when the vehicle security information meets the security condition, a corresponding departure plan for the driver terminal corresponding to the shift report instruction.

It is easy to understand that, as shown in fig. 2, in the passenger transport mode of decentralized arrangement of passenger transport stations and cloud arrangement of the station service platform, the station service SaaS platform performs data interaction with personnel, passengers and drivers of the transport stations.

Wherein:

1. transportation station personnel manage and maintain a series of basic data of transportation routes, approach stations, vehicle information, drivers and transportation enterprise files based on a cloud station SaaS platform. Generating a departure plan according to a certain time period, and setting a basic fare. And the cloud station SaaS platform performs data interaction with the networking ticketing center to publish ticket price shift information.

2. The passengers check the shift information through the APP/applet/website, select a route and a destination station, input personal real-name identity information to create ticket data, generate personal travel orders, and enter a cloud station SaaS platform database for storage through a cloud station data exchange center to persistence order data.

3. The driver inquires a departure plan through a driver end program, inquires the number of persons who purchase tickets in a shift, purchases tickets at stations in all paths, performs self-service reporting, and after successful reporting, the reporting information is stored in a cloud station SaaS platform database through a cloud station data exchange center, and pushes information to a person end and a passenger end of a transport station so as to achieve the purposes of data sharing, data persistence and real-time interaction.

It should be noted that, the station standard data acquired by the station SaaS platform includes cloud station standard data and local station standard data. The operation principle of the station SaaS platform is as follows:

1. under the scene that the whole cloud is used, a worker of the passenger transportation station accesses the cloud station SaaS platform through office equipment, logs in a platform account number of the passenger transportation station, enters a data space corresponding to the passenger transportation station, and is in butt joint through a standard data interface of the cloud service platform to manage basic data such as drivers, vehicles, transportation enterprises, settlement units and the like. Station service data manages station service on a station SaaS platform to which the current station belongs. For example, station business services such as station line class and the like are managed, and finally ticket information for passengers to purchase and purchase orders is generated. The method comprises the steps that an API (application programming interface) is used for sending ticket information to a networking ticket selling platform through a local area network, a world wide web and a VPN, passengers finish ticket reservation through the networking ticket selling platform and intelligent carriers such as various ticket selling terminals, application programs, intelligent waiting halls, intelligent electronic station boards and the like, the networking ticket selling platform returns the passenger order information to a station SaaS platform to update the ticket information, and the corresponding relation between each line shift and the passengers is completed.

And (3) carrying out the driver of the transportation enterprise of each line, logging in application software/applet (hereinafter referred to as a driver end) of the station SaaS platform or the mobile terminal equipment, and supporting autonomous inquiry of the shift plan or receiving a shift push message.

The driver inquires the intelligent vehicle safety inspection point at the driver end, and selects the most suitable safety inspection point according to the situation of the driver. After a driving vehicle arrives, a security check person with passenger vehicle security check qualification completes vehicle security check work according to the security check standard of a local management department, the result is registered and input into a cloud service security check management system/intelligent terminal security check management device, security check data are sent to a station SaaS platform through a standard interface, a driver simultaneously carries out self-help check-out equipment at a security check point to complete license check and identity screening, after the vehicle security check, the driver license check and the identity screening pass, the driver can use the self-help check-out equipment to report the business, the cloud station SaaS platform synchronously updates the corresponding relation of shifts, passengers, vehicles and drivers, a departure plan is sent to a driver end, the driver can inquire the shifts, meanwhile, the intelligent waiting hall station for pushing the passenger delivery route and the route in the departure plan and the specified arrival time and departure time are supported, and the driver can send the passengers to the station in sequence and in time.

After passengers purchase tickets through networking ticket selling platforms and various ticket selling terminals, application, applet, intelligent waiting hall, intelligent electronic stop boards, the passengers go to corresponding intelligent waiting hall stations for waiting according to the information in the order information, the intelligent waiting hall stations can select public places such as urban bus stations, traffic hinges and the like to set up the electronic stop boards, the electronic stop board is communicated with the networking ticketing platform through a 4G/5G/wired network to obtain and display the shift information of the current time of getting on and off the bus and the real-time running information of the bus through the stop site, and provide functions of ticketing, ticket taking, ticket checking and the like, so that passengers can purchase the tickets and take the bus for the purchased shifts.

After the transport vehicle arrives at each intelligent waiting hall station, the passenger gets on the train according to license plate information presented in the train ticket or order information, and the driver or the train passenger uses the handheld portable radio frequency detection equipment/the vehicle-mounted radio frequency safety detection equipment/the metal detection equipment, the inflammable and explosive detection equipment and the epidemic prevention check equipment to check whether the passenger is a middle-high risk area or not, and the epidemic prevention departments such as health code color and the like require to finish the personal and traveling package security check of the passenger, and meanwhile, the driver or the train passenger uses the driver end application software of the mobile terminal to finish the ticket checking of the paper or the electronic train riding certificate of the passenger.

After the ticket checking is successful, the ticket checking information is synchronized to the passenger order information of the networking ticket selling platform through the cloud SaaS platform, and the running track of the vehicle can be checked in real time until the journey is completed.

2. In a scene of combining the cloud and the local system, the passenger station can keep an original off-line station system, and the method is completed based on the local system and a database: basic data, security check, scheduling, fare, ticketing, ticket checking and road list are a series of station basic functions, vehicle security check, passenger and traveling package security check equipment and waiting hall are reserved as appropriate, namely, operation capability of the station basic is reserved, meanwhile, data and business process butt joint is completed with a station SaaS cloud platform through a standard API interface by cloud station adaptation service, and value added service provided by the SaaS cloud platform is used: financial accounting settlement, driver's end, networking ticketing, electronic ticket, electronic invoice, face identification floodgate machine, handheld ticket checking equipment, self-service report class equipment, self-service check out equipment, handheld intelligent equipment such as inspection of going out. Therefore, the combination of the local system and the cloud platform is realized, and the service capability of the complete station cloud platform is used.

In the passenger data acquisition module, the basic data of the passenger data warehouse platform can be acquired, the basic data are guaranteed to be standard data, for example, the basic information (enterprise name, legal person, unified social credit code and the like) of an enterprise is standardized, a driver can identify uniqueness through an identification card number, a vehicle can identify uniqueness through a frame number, the respective management of the basic data in the conventional station passenger is broken, and a running management department and a third party standard data platform are not connected, so that production data errors and confusion are avoided.

Further, the vehicle security inspection module is used for acquiring vehicle security inspection information acquired by vehicle security inspection equipment arranged at a vehicle security inspection point, judging whether the vehicle security inspection information meets security conditions, and generating a shift reporting instruction for the driver side when receiving a shift reporting request.

The vehicle security inspection point is a gas station or a motor vehicle security monitoring station, and the vehicle security inspection equipment is further used for sending the collected vehicle security inspection information corresponding to the driver end to the cloud station service system.

The cloud station system is in communication connection with a service end, a passenger end and a driver end, wherein the service end is used for sending ticket creation instructions to the cloud station system, the passenger end is used for sending ticket purchasing instructions to the cloud station system, and the driver end is used for sending a report request to the cloud station system.

The vehicle security check point is usually set up in the social general places such as gas station, motor vehicle security monitoring station, etc., the place possess the security check qualification, the security check personnel who is furnished with and obtains motor vehicle security check qualification certificate, or the security check personnel who possesses other conditions that the local line department requires, the place is provided with security check trench, security check equipment and instrument, for example: tire pressure check out test set, spanner, bottle opener, hammer, triangle wood, torque spanner, steel tape, steel plate chi, box spanner, portable lighting tool, tire barometer, tire decorative pattern instrument chi, safety protection articles such as safety helmet, frock, gloves, reflection of light undershirt, security personnel carry out the safety check to motor vehicle according to the safety check flow, the detection content that belong to the requirement of ground line department. An example of a security detection procedure is shown in fig. 3.

After the security example inspection is finished, a security inspection personnel logs in a security inspection information management system to report a security inspection result for a corresponding vehicle, the information management system of a security inspection point and a station SaaS cloud platform are in data communication through a 4G/5G/wired network, vehicle information and the security inspection result are uploaded, the security example inspection result is printed and carried by a driver on-board, and the station SaaS cloud platform judges whether to grant the report and the carrier of the inspected vehicle according to the security inspection result. Security check point staff can also directly log in the station SaaS cloud platform to register and input security check results.

In addition, the security check results can be stored in the station SaaS cloud platform, the on-duty drivers and the transportation enterprises can log in the station SaaS cloud platform to inquire the history security check result records of the corresponding shift carrier vehicles, meanwhile, the drivers can log in the driver side to check the vehicle security check records, and the security check list carried by the drivers on the vehicle can be checked by the management department.

The result records of the past safety case inspection of the vehicles are synchronized to the upper-level traffic management department (supporting different provinces or ministry platforms) at fixed time so as to ensure that the road transport vehicles accord with the traffic management standard and the monitoring range.

Further, the line package security inspection module is used for acquiring line package security inspection information acquired by line package security inspection equipment arranged on the vehicle and judging whether the line package security inspection information meets the security condition.

It is readily understood that the line-pack security inspection device includes one or more of a handheld portable radio frequency detection device, a vehicle-mounted radio frequency security detection device, a metal detection device, a flammable and explosive item detection device, and an epidemic prevention inspection device.

The line package security inspection can be performed through security inspection intelligent equipment facilities which are independently developed and cooperated by a third party, such as a handheld portable radio frequency detection device/vehicle-mounted radio frequency security detection device, a metal detection device, a flammable and explosive object detection device and an epidemic prevention inspection device. The safety detection is carried out on the passengers and the traveling bags, so that the traveling safety is ensured.

And the passenger personal and traveling package safety detection results are uploaded to the cloud SaaS platform by the handheld terminal equipment through 4G/5G data communication, and meanwhile, epidemic prevention results, real name information of passengers and vehicle travel information are synchronously given to the local traveling management department platform.

Further, the passenger transport task comprises a step of sequentially going to at least one boarding position and at least one alighting position, and a waiting hall module for acquiring at least one passenger transport service request generated by a waiting hall arranged at the boarding position and at least one alighting position and providing corresponding passenger transport service for passengers of the passenger transport service request.

It is readily understood that the passenger service request includes one or more of a ticket query request, a ticket purchase request, a line of business query request, a waiting information query request.

The intelligent waiting hall is a modern intelligent informationized waiting hall integrated equipment facility specially developed for a station on the cloud. The integrated business equipment such as passenger ticket buying, ticket taking, shift inquiry and the like can be carried. According to the demands of markets, passengers and industry supervision departments, public places such as urban bus stops, transportation hubs and the like are usually selected to be established, so that the public travel business is conveniently met. Wherein:

the intelligent waiting hall is provided with an electronic stop board, an original urban bus station or a traffic junction place is selected, electronic stop board equipment is additionally arranged on the original place, an identity card reader, an infrared face binocular high-definition camera, a touch display screen, printing equipment, a voice broadcasting system, a monitoring camera, a code scanning payment equipment, an electronic/lED advertising screen and other intelligent facilities are arranged in the intelligent waiting hall, an Android, windows touch screen operating system interface is configured, the intelligent waiting hall is communicated with a station SaaS cloud platform and a networking ticketing platform through a 4G/5G/wired network, passengers can interact with the information of the networking ticketing platform through the electronic stop board, real-time inquiry of the information of the bus line and ticket purchasing of the station is realized, identity card identification is completed through the identity card reader configured by the intelligent waiting hall, and a vehicle certificate with electronic invoice information, army electronic ticket information or local electronic ticket information is printed through the printing equipment. After the carrier vehicle driver of the line shift purchased by the passenger reports the shift, the information of the corresponding shift driver and carrier vehicle can be inquired, and the running position of the vehicle and the arrival information report can be displayed. The equipment is arranged in a place to form a riding point capable of providing work line inquiry, real-name verification, ticket purchase, ticket printing and waiting information inquiry.

The intelligent waiting hall is provided with integrated equipment facilities, when the intelligent waiting hall integrated equipment facilities are built, besides the functions of electronic stop board equipment, an LED/LCD multimedia information release system, a video monitoring subsystem, an LED electronic stop board release system, an outdoor advertisement system, an outdoor ceiling and a rest seat are integrally configured, and waiting and riding points for providing comprehensive services such as passenger rest, integrated masks, beverage living goods sales, advertisement release and the like are increased.

After passengers purchase tickets through a networking ticket selling platform and various ticket selling terminals, application, applet, intelligent waiting hall, intelligent electronic stop board, the passengers get on the bus after finishing ticket taking or electronic certificate, ticket checking, personal and traveling package safety inspection in the intelligent waiting hall, and the traveling plan of the passengers is completed.

In this embodiment, a cloud station system and an interaction method of the cloud station system are provided, where the system includes a station SaaS platform and a vehicle security inspection module, when a ticket creation instruction is received, ticket information is generated, when a ticket purchase instruction is received, corresponding ticket information is matched for a passenger corresponding to the ticket purchase instruction to generate a travel order, and when a report instruction is received, a corresponding departure plan is generated for a driver terminal corresponding to the report instruction; and generating a shift report instruction for a driver end by acquiring the vehicle security information acquired by the vehicle security equipment arranged at the vehicle security point. According to the invention, the corresponding departure plan is generated for the driver end, so that the driver end corresponding to the vehicle security check is used for executing the passenger transport task, and the cloud station service system can meet the rule requirement of the station service system on the passenger transport link by utilizing the cloud station service platform and the decentralized passenger transport stations, so that the passenger transport safety is ensured while the passenger transport service experience of passengers is improved.

For ease of understanding, referring to fig. 4, fig. 4 is a flowchart illustrating an embodiment of an interaction method of the cloud station system according to the present invention. Based on the embodiment of the cloud service system shown in fig. 1, the embodiment of the interaction method of the cloud service system is provided, which specifically includes the following steps:

as shown in fig. 4, the interaction method of the cloud station system provided by the embodiment of the invention includes the following steps:

s100, generating ticket information when a ticket creation instruction is received through a station SaaS platform, matching corresponding ticket information for passengers corresponding to a ticket purchase instruction when the ticket purchase instruction is received to generate a travel order, and generating a corresponding departure plan for a driver end corresponding to the ticket report instruction when the ticket report instruction is received to enable the driver end to execute a passenger transport task according to the departure plan;

s200, acquiring vehicle security check information acquired by vehicle security check equipment arranged at a vehicle security check point through a vehicle security check module, judging whether the vehicle security check information meets security conditions, and generating a shift report instruction for the driver side when receiving a shift report request.

Other embodiments or specific implementation manners of the interaction method of the cloud station system of the present invention may refer to the embodiments of each cloud station system described above, and will not be described herein again.

In addition, the embodiment of the invention also provides a storage medium, wherein the storage medium is stored with a cloud station interaction program, and the cloud station interaction program realizes the steps of the interaction method of the cloud station system when being executed by a processor. Therefore, a detailed description will not be given here. In addition, the description of the beneficial effects of the same method is omitted. For technical details not disclosed in the embodiments of the computer-readable storage medium according to the present application, please refer to the description of the method embodiments of the present application. As an 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.

Those skilled in the art will appreciate that implementing all or part of the above-described methods may be accomplished by way of computer programs, which may be stored on a computer-readable storage medium, and which, when executed, may comprise the steps 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 (Random AccessMemory, RAM), or the like.

It should be further noted that the above-described apparatus embodiments are merely illustrative, and that the units described as separate units may or may not be physically separate, and that units shown as units may or may not be physical units, may be located in one place, or may be distributed over a plurality of 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 device provided by the invention, the connection relation between the modules represents that the modules have communication connection, and can be specifically implemented as one or more communication buses or signal lines. Without undue burden to those of ordinary skill in the art, i.e., understandable and implementable.

From the above description of the embodiments, it will be apparent to those skilled in the art that the present invention may be implemented by means of software plus necessary general purpose hardware, or of course by means of special purpose hardware including application specific integrated circuits, special purpose CPUs, special purpose memories, special purpose components, etc. Generally, functions performed by computer programs can be easily implemented by corresponding hardware, and specific hardware structures for implementing the same functions can be varied, such as analog circuits, digital circuits, or dedicated circuits. However, a software program implementation is a preferred embodiment for many more of the cases of the present invention. Based on such understanding, the technical solution of the present invention may be embodied essentially or in a part contributing to the prior art in the form of a software product 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, randomAccessMemory), a magnetic disk or an optical disk of a computer, etc., including several instructions for causing a computer device (which may be a personal computer, a server, or a network device, etc.) to execute the method according to the embodiments of the present invention.

Claims (10)

1. A cloud service system, the cloud service system comprising:

the station SaaS platform is used for generating ticket information when a ticket creation instruction is received, matching corresponding ticket information for passengers corresponding to the ticket purchase instruction when the ticket purchase instruction is received so as to generate a travel order, and generating a corresponding departure plan for a driver end corresponding to the ticket report instruction when the ticket report instruction is received so as to enable the driver end to execute a passenger transport task according to the departure plan;

the vehicle security inspection module is used for acquiring vehicle security inspection information acquired by vehicle security inspection equipment arranged at a vehicle security inspection point, judging whether the vehicle security inspection information meets security conditions, and generating a shift reporting instruction for the driver side when receiving a shift reporting request.

2. The cloud station system of claim 1, wherein said station SaaS platform comprises:

the passenger traffic data acquisition module is used for acquiring the station standard data and processing the station standard data to acquire passenger traffic data;

the business processing module is used for generating ticket information according to the passenger transport data when a ticket creation instruction is received, matching corresponding ticket information for passengers corresponding to the ticket purchase instruction when the ticket purchase instruction is received so as to generate a travel order, and generating a corresponding departure plan for a driver end corresponding to the ticket report instruction when the ticket report instruction is received so as to enable the driver end to execute a passenger transport task according to the departure plan;

the passenger transport monitoring module is used for acquiring vehicle operation information in the process of executing passenger transport tasks by a driver end and sending the vehicle operation information to the supervision system;

the service settlement module is used for acquiring service data in the process of executing the passenger transport task by the driver side and performing expense settlement according to the service data.

3. The cloud service system of claim 1, wherein the vehicle security inspection point is a gas station or a motor vehicle security monitoring station, and the vehicle security inspection device is further configured to send the collected vehicle security inspection information corresponding to the driver end to the cloud service system.

4. The cloud service system of claim 3, wherein the cloud service system is in communication connection with a service side, a passenger side and a driver side, the service side is configured to send ticket creation instructions to the cloud service system, the passenger side is configured to send ticket purchase instructions to the cloud service system, and the driver side is configured to send a report request to the cloud service system.

5. The cloud service system of claim 4, wherein said service SaaS platform further comprises:

the departure plan generation module is used for judging whether the vehicle security check information of the passenger vehicle corresponding to the shift report instruction meets the security condition or not when the shift report instruction is received, and generating a corresponding departure plan for the driver corresponding to the shift report instruction when the vehicle security check information meets the security condition.

6. The cloud service system of claim 1, wherein said cloud service system further comprises:

and the row packet security inspection module is used for acquiring row packet security inspection information acquired by row packet security inspection equipment arranged on the vehicle and judging whether the row packet security inspection information meets the security condition.

7. The cloud station system of claim 6, wherein said row-pack security inspection device comprises one or more of a handheld portable radio frequency detection device, a vehicle-mounted radio frequency security detection device, a metal detection device, a flammable and explosive item detection device, and an epidemic prevention inspection device.

8. The cloud deck system of claim 1, wherein said passenger tasks include sequentially going to at least one boarding location and at least one alighting location, said cloud deck system further comprising:

and the waiting room module is used for acquiring at least one passenger transport service request generated by the waiting room arranged at the boarding position and at least one waiting room arranged at the alighting position and providing corresponding passenger transport service for passengers of the passenger transport service request.

9. The cloud station system of claim 8, wherein said passenger service request comprises one or more of a ticket inquiry request, a ticket purchase request, a line inquiry request, a waiting information inquiry request.

10. The interaction method of the cloud station system is characterized by comprising the following steps of:

through a station SaaS platform, when a ticket creation instruction is received, ticket information is generated, when a ticket purchasing instruction is received, corresponding ticket information is matched for passengers corresponding to the ticket purchasing instruction to generate a travel order, and when a shift report instruction is received, a corresponding departure plan is generated for a driver end corresponding to the shift report instruction, so that the driver end executes a passenger transport task according to the departure plan;

and acquiring vehicle security check information acquired by vehicle security check equipment arranged at a vehicle security check point through a vehicle security check module, judging whether the vehicle security check information meets security conditions, and generating a shift report instruction for the driver side when receiving a shift report request.

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