CN113344683B - Destination cloud service data processing method, system and storage medium - Google Patents

Abstract

The invention relates to the field of tourism supervision service application, in particular to a destination cloud application processing method and system based on an alliance chain and a storage medium. The invention takes a monitoring end, one or more element supply ends and a plurality of element merchant ends as organizations to join the alliance chain; nodes in the element supply end issue intelligent contracts to the alliance chain; acquiring an intelligent contract by a factor merchant; when the intelligent contract is completed, forming element type statistical information; and the supervisor acquires the element type statistical information through the alliance chain. The actual basis of management and service of the monitoring end and the element supply end is that the actual achievement of the transaction is carried out in a mode of intelligent contracts in the alliance chain according to the achievement quantity of the intelligent contracts, namely the final supply information, and each end can configure cloud service application at the cloud end to call the distributed account book result data in the alliance chain without storing and processing a large amount of data, so that the stability and the safety of the transaction are improved.

Description

Destination cloud service data processing method, system and storage medium

Technical Field

The invention relates to the field of travel supervision service application, in particular to a destination cloud service data processing method, a destination cloud service data processing system and a storage medium.

Background

With the improvement of living standard of people and the convenience of transportation and information, travel becomes one of enthusiasm activities of many people, when people carry out travel activities, the previous route arrangement, ticket booking and transportation mode selection can be completely processed through a network or intensively arranged by contacting with a travel agency, and the selection requirements of people on diversification, convenience and economy can be completely met. However, for the tourist destinations, since a large amount of people are involved and distributed, and the personnel flow routes relate to a plurality of service providing points such as scenic spots, lodging, catering, shopping and the like, higher requirements are provided for various tasks such as coordination management, supporting services, traffic guarantee, safety early warning and the like of the tourist destinations, and the tasks involve a plurality of departments which are difficult to coordinate and consistent, often cause the situations of scenic spot explosion, personnel detention, traffic jam and the like, and seriously affect the tourist experience of tourists.

The patent number 201510238120.X, in the file named "tourism operation supervision and safety emergency management linkage platform system", discloses a method for establishing data acquisition and processing rules by a tourism supervision department so as to perform supervision scheduling and emergency treatment, and manages related information to governed tourism service organizations by means of interfaces, and the following problems exist in such a data processing mode:

1. the data volume of the tourism supervision department which needs to be collected, stored and processed in a centralized way is overlarge, large-scale server software and hardware are needed as supports, and the operation cost is high;

2. the hierarchy of data to be exchanged and called is too many, and the data processing efficiency is low;

3. the relevance of data acquisition and management to the tourists is low, and the guidance of a service end which is in specific contact with the tourists is poor.

Disclosure of Invention

The invention provides a destination cloud service data processing method based on a federation chain and used for distributed storage and data calling.

The method comprises the following steps:

s1, adding a supervisor end, a plurality of element supply ends and a plurality of element merchant ends into a alliance chain as organizations respectively, wherein each organization is provided with at least one node and a cloud service application;

s2, the node in the element supply end organization issues a primary intelligent contract to the alliance chain, wherein the primary intelligent contract at least comprises the identification, the supply type and the supply time of the element supply end;

s3, acquiring primary intelligent contracts by element merchant terminals, selecting or combining the acquired primary intelligent contracts to form service packages, and issuing the service packages in cloud service applications organized by the merchant terminals, wherein each service package comprises one primary intelligent contract or a plurality of primary intelligent contracts with different supply types;

s4, when the service package is completed, the cloud service application of the element supply end obtains the respective corresponding primary intelligent contract completion number to form element supply end contract completion data; meanwhile, the cloud service application of the monitoring end acquires the completion number of each supply type from the cloud service application of the element supply end corresponding to each supply type to form element supply type contract completion data;

and S5, performing data analysis and data application by combining the element supply end contract completion data and the element supply type contract completion data according to the requirement by the cloud service application of the monitoring end.

By adopting the method, the actual basis of management and service of the monitoring end and the element supply end is according to the number of the first-level intelligent contracts, namely the final number of the tourists and the supply information selected by the tourists correspondingly, the actual achievement of the transaction is carried out in a mode of the first-level intelligent contracts in the alliance chain, the ledger of each node in the alliance chain is used as a carrier of real transaction data, the data is derived from the calling of records in each node by each cloud service application, a large amount of data does not need to be stored and processed, and meanwhile, the stability and the safety of the transaction are improved.

In a possible implementation manner, the step S2 where a node in the element supplier organization issues a primary intelligent contract to the federation chain includes:

s21, the administrator establishes a transaction channel for each element supplier organization according to the definition of the alliance chain, the element supplier organization has at least one supply node added into the corresponding channel, the supply node comprises an account book, an intelligent contract and the corresponding cloud service application of the supplier,

and S22, adding all element business end organizations into each transaction channel through a first node respectively and copying the account book and the intelligent contract of the supply node.

The transaction is carried out through the transaction channels, so that the independence and the privacy of transaction data in different transaction channels can be ensured, and the content security of the primary intelligent contract provided by the element merchant-side organization is ensured.

In one possible implementation manner, the step S3 of acquiring the primary intelligent contract by the element merchant organization, and forming and issuing a service package after selecting or combining the acquired primary intelligent contracts includes:

s31, element merchant organizes primary intelligent contracts obtained by trading in different channels;

and S32, configuring and combining the primary intelligent contracts obtained by the transaction to form a service package.

In one possible implementation, the forming of the element supply side contract completion data in step S4 includes:

s41, the service package is purchased at the element merchant end;

s42, sending the primary intelligent contract contained in the unsold service package back to the corresponding transaction channel for returning;

s43, subtracting the primary intelligent contract returned in the step S42 from the primary intelligent contract obtained by the transaction in the step S31 in one channel to be used as element supply end contract completion data corresponding to the channel;

and S44, writing element supply end contract completion data into each account book by the account book of the node organized by the element supply end and the account book of the node organized by the element supply end in the channel, and updating the transaction records of each account book.

In one possible implementation manner, the step S3 of acquiring the primary intelligent contract by the element merchant organization, and forming and issuing a service package after selecting or combining the acquired primary intelligent contracts includes:

s31', the element merchant organization inquires the first-level intelligent contract which can be obtained in different channels;

s32', the primary intelligent contracts available for acquisition are configured and combined to form a service package.

In one possible implementation, the forming of the element supply side contract completion data in step S4 includes:

s41', the service package is purchased at the element merchant end;

s42', trading the primary intelligent contract in the trading channel where the primary intelligent contract contained in the sold service package is located;

s43', using the primary intelligent contract quantity traded in the step S42 in one channel as the contract completion data of the element supply end corresponding to the channel;

s44', the ledger of the node organized by the element supplier in the channel and the ledger of the node organized by the element merchant write contract completion data of the element supplier into each ledger, and update the transaction records of each ledger.

In a possible implementation manner, the element merchant-side organization further has a second node, where the second node includes a second ledger and a second intelligent contract formed according to the service product or the service package product, and the second intelligent contract is issued through a cloud service application of a merchant side of each element merchant-side organization, or the second node issues the second intelligent contract in a self-established or joined federation chain.

In a possible implementation manner, the obtaining, by the cloud service application of the manager end, the completion number of each provisioning type from the cloud service application of the element provisioning end corresponding to each provisioning type to form element provisioning type contract completion data in step S4 includes:

s45, selecting one or more supply types;

s46, acquiring the cloud service application of all the element supply ends under the supply type to acquire element supply end contract completion data of the respective element supply ends;

and S47, summarizing the element supply end contract completion data under each type to form element supply type contract completion data.

In a possible implementation manner, the performing data analysis and data application according to the element type statistical information includes:

acquiring the total transaction object quantity through one or more transaction data organized by the element supply end; and/or the presence of a gas in the gas,

acquiring the load degree of each element supply end organization through the transaction data and the supply maximum value of each element supply end organization; and/or the presence of a gas in the gas,

and acquiring the distribution condition of the transaction objects through the number of the transaction objects corresponding to the element supply end organization with the same supply type.

In another aspect, the present invention further provides a destination cloud service data processing system, including:

a alliance chain module, which is used for deploying the supervising end, the element supplying end and the element merchant end as nodes and conducting transaction and record, the alliance chain module further comprises,

a certificate management unit for managing issuance of certificates and identifying organization rights,

a node management unit for adding and deleting nodes,

a channel management unit for creating and modifying channel configuration, establishing and deleting channels, and managing channel rights,

a contract management unit for managing issuance of intelligent contracts within the federation chain,

a data counting unit for counting the agreed completion data;

the element merchant cloud service module is used for receiving contract completion data of the element merchant and issuing and completing a secondary intelligent contract, and further comprises,

an on-line distribution unit for issuing the secondary intelligent contract on line,

a distribution management unit for distributing and managing the online and offline secondary intelligent contracts,

the report unit is used for generating a report;

the element supply end cloud service module is used for issuing a primary intelligent contract to the alliance chain, acquiring completion data of the primary contract and managing the supply of element services according to the completion data, and further comprises,

a publishing management unit for publishing a primary intelligent contract into the federation chain,

the service management unit is used for determining or adjusting content parameters in the primary intelligent contract;

the monitoring end cloud service module is used for acquiring primary intelligent contract completion data of the element supply end, forming a big data pool related to the conditions of tourists, traffic and accommodation according to the primary intelligent contract completion data, and providing the big data pool with the monitoring end cloud service module for monitoring the element supply end of the destination,

the big data pool unit is used for calling the element supply end and the tourist data corresponding to the finished primary intelligent contract,

the situation perception unit is used for determining the supply saturation degree in a period of time according to the completion data of the primary intelligent contract in the future period of time;

and the decision and service unit adjusts the supervision decision and service mode of the destination according to the supply saturation.

In another aspect, the present invention provides a storage medium, characterized in that: the storage medium stores a computer program comprising program instructions which, when executed by a processor, cause the processor to perform the method described above.

Drawings

Fig. 1 is a general flow chart of a first embodiment of the present invention.

FIG. 2 is a flow chart illustrating a process for issuing a first intelligent contract according to a second embodiment of the present invention.

Fig. 3 is a schematic diagram of a logic structure of a transaction channel according to a second embodiment of the present invention.

Fig. 4 is a flowchart illustrating a service package forming process according to a third embodiment of the present invention.

Fig. 5 is a flowchart of forming element supply organization section contract completion data according to a third embodiment of the present invention.

Fig. 6 is a flowchart illustrating a service package forming process according to a fourth embodiment of the present invention.

Fig. 7 is a flowchart of forming element supply organization section contract completion data according to a third embodiment of the present invention.

Fig. 8 is a flowchart illustrating a fifth embodiment of acquiring element supply-type contract data.

Fig. 9 is a schematic structural diagram of a system module according to a sixth embodiment.

Detailed Description

Before the technical implementation content is specifically explained, all the participants of destination service related to the aspect of travel are introduced, namely, a tour-related administrative department which is responsible for governing tourism-related organizations such as scenic spots, travel agencies and the like in an administrative area and is hereinafter referred to as a supervision organization; the following organizations of element supply terminals mainly comprise scenic spots, travel agencies, hotels and traffic hubs, and other service units can be coordinately managed by the administrative departments according to needs, according to different operation modes, although the scenic spots, the travel agencies, the hotels, the traffic, the restaurants, the shopping centers, the entertainment places and other institutions or places managed by the administrative departments in one administrative area, wherein the institutions or the places belong to service element supply units; then, the travel agencies, OTA and other pinned holding units are arranged downwards, and due to the promotion of the current information conditions, most of the transactions such as the ticket business, the hotel and the like can be completed on line, so the current main tickets are processed by the travel agencies and OTA; the end-most is the purchaser of the service, i.e. the terminal tourist, who includes individual tourists and group tourists, and obtains one or more destination services through the travel agency or OTA, i.e. obtains the service or service package through various channels, for example, the travel agency purchases all service items including the scenic spot tickets, hotels, air tickets, restaurants and the like, or purchases the scenic spot tickets and hotels only through other channels, and other transportation and restaurants are responsible for the solution by themselves. The above is the overall operation architecture of the entire destination travel service, based on which several problems need to be dealt with: 1. the tourism supervision department can obtain accurate local tourism state big data, make service decision, allocate service resources, improve service ability, solve emergency according to the tourism state big data, scenic spot, hotel, traffic can promote the service, adjust the marketing according to the service data. The existing system generally submits data through an element supply end and an element service end, and the data are collected and stored by a supervision department, so that the consistency of the data is poor, and the coincidence degree of the data is uncontrollable, thereby reducing the accuracy of the data and being inconvenient for the management and prejudgment of the supervision department. Therefore, in the following embodiments, actual transaction data is performed and stored in a alliance chain for being called by a supervision department, so that the purposes of improving the accuracy, safety, consistency and the like of the data are achieved.

As shown in fig. 1, a federation chain-based destination cloud service data processing method in a first embodiment includes the steps of:

s1, adding a supervisor end, a plurality of element supply ends and a plurality of element merchant ends into a alliance chain as organizations respectively, wherein each organization is provided with at least one node and a cloud service application;

the establishment of the alliance chain can be performed by a supervision end organization, or can be established by a trusted third party selected by a travel supervision end organization and a main element supply end organization, and when the alliance chain is established, different data calling authorities are set for organizations of different levels, nodes are distributed, and the establishment of the alliance chain is completed.

Establishing an alliance chain network foundation, which may be operated according to a block chain environment where the tourism monitoring end is located, in this embodiment, in order to reduce the calculation, storage, and maintenance pressure of the tourism monitoring end, in this embodiment, a third party is used to establish an alliance chain networking mode, and the tourism monitoring end, the element supply end, and the element merchant end are added to the alliance chain as an organization by the third party, taking a hyper ledger Fabric (hyper book) as an example, specifically, the following steps may be performed:

firstly, a third party creates network configuration, acquires a certificate, starts sequencing service and builds a alliance chain network;

then, defining a block chain manager, and defining a alliance chain by using the identity of the manager;

according to the requirement of the embodiment, the travel supervision end, each element supply end and each element merchant end are respectively used as organizations to join the defined alliance chain.

S2, the nodes in the element supply end organization issue a primary intelligent contract to the alliance chain, wherein the primary intelligent contract comprises the identification, the supply type, the supply time and the price of the element supply end; the element supply end is mainly a scenic spot, a hotel, a traffic unit and other units, the organization at the level has the authority of issuing an intelligent contract, and information such as tickets, house resources and the like is issued in a block chain in the form of the intelligent contract. For example, the intelligent contract of the scenic spot comprises that the supply identifier is the name of the scenic spot, the supply type is the tourist spot, the supply time is XX year, XX month and XX day, and the price is a certain value; the intelligent contract of the hotel comprises a supply identifier of the hotel name, a supply type of the accommodation, supply time of XX year, XX month and XX day, and price of the house type plus corresponding price value; the transportation intelligent contract comprises supply identification which is a transportation junction name (comprising an airport, a railway station and a bus stop), a supply type which is transportation, supply time which is XX year, XX month, XX day and XX minute, and price which is seat type plus corresponding price value. Each element supplier organization specifies a certain number of primary intelligent contracts according to service capacity and publishes the contracts in a block chain.

S3, acquiring primary intelligent contracts by the element merchant, selecting or combining the acquired primary intelligent contracts to form service packages, and issuing the service packages in the cloud service application of the merchant, wherein each service package comprises one primary intelligent contract or a plurality of primary intelligent contracts with different supply types;

the key technical problem of this embodiment is that the element merchants do not actually complete the contract after acquiring the primary intelligent contract from the block chain, but perform a transaction or pre-transaction operation on an intelligent contract, where the actual transaction can indicate that the transaction is completed and the book record is updated.

And for the intelligent contract which is still in an unrealistic transaction state, the intelligent contract is required to be incapable of being acquired by other element merchants for the second time, so a secondary condition can be set under the completion condition of the primary intelligent contract, the primary condition is that the primary intelligent contract is selected by the element merchants, the primary condition is a selected fixed mode at the moment, and the secondary condition is that the intelligent contract is actually purchased by the terminal user, namely the transaction of the primary intelligent contract contained in the service package is completed. After secondary transaction conditions are set, the situation that multiple element merchants call the same intelligent contract repeatedly to cause one ticket to be sold more can be avoided, and the accuracy of data is guaranteed.

The element merchants can issue the service packages in a self-owned mode after the service packages are formed by combining the intelligent contracts, and the service packages are issued in the forms of offline service branches, online/offline distribution mechanisms, online issuing platforms and the like for tourists to select, and after the tourists actually complete the purchase, a plurality of intelligent contracts corresponding to the service packages are transacted and completed. The transaction completion at this moment is that the intelligent contract is actually completed, and after the transaction record of the intelligent contract is completed, the intelligent contract can be deleted or frozen, and then the ledger record is updated.

S4, when the service package is completed, the cloud service application of the element supply end obtains the respective corresponding primary intelligent contract completion number to form element supply end contract completion data; meanwhile, the cloud service application of the monitoring end acquires the completion number of each supply type from the cloud service application of the element supply end corresponding to each supply type to form element supply type contract completion data;

and S5, performing data analysis and data application by combining the element supply end contract completion data and the element supply type contract completion data according to the requirements by the cloud service application of the travel monitoring end.

The method of the embodiment realizes a method for circulating intelligent contracts of ticketing and service items through a block chain, by which an element merchant organization can openly and transparently obtain the intelligent contracts issued by various element supply end organizations, then flexibly assemble various resources by utilizing a localization service provider to deeply know the advantages of local scenic spots and matched service resources to form a service package for issuing, and record in the block chain after the actual transaction of the intelligent contracts is achieved, meanwhile, repeated transaction and false transaction are avoided, transaction data is real and reliable, a real basis is provided for the service decision of a tourism supervision end organization, the allocation of service resources, the improvement of service capability and the solution of emergency work, accurate decision and deployment are facilitated, and the decision advance and deployment period can be flexibly adjusted by adjusting the interval between the date of the intelligent contract and the current date, flexible choices are provided for government regulation, element supplier organization, element server organization and tourists.

The following provides a specific way to establish a federation chain by third parties and deploy the publishing and completion of nodes and intelligent contracts.

The block chain node is deployed by taking a supervisor end, two element supply end organizations of a scenic spot end and a hotel end, and two element merchant end organizations of a travel agency and an OTA as main component architectures, all the organizations are added into a alliance chain, and each organization has a node and a cloud service application;

nodes in a scenic spot side and a hotel side organized as an element supply side issue a scenic spot primary intelligent contract and a hotel primary intelligent contract to a federation chain respectively, and the number of copies of the issued scenic spot primary intelligent contract and hotel primary intelligent contract is determined according to the supply amount. The scenic spot primary intelligent contract comprises a scenic spot name as an identifier of an element supply end, a scenic spot as a supply type and a supply time corresponding to a specific date; the hotel level intelligent contract includes a hotel name as an identification of the element supplier, an accommodation as a supply type, and a supply time corresponding to a specific date.

The travel agency and the OTA acquire the scenic spot primary intelligent contract and the hotel intelligent contract, combine the scenic spot primary intelligent contract and the hotel intelligent contract to form a service package comprising scenic spot + hotel services and issue the service package, and the OTA can also independently select one of the scenic spot primary intelligent contract and the hotel primary intelligent contract to form a corresponding service package for independent service and issue the service package;

when the service package is finished at the terminal, the cloud service applications of the travel agency terminal and the OTA terminal feed back the supply information containing the same supply terminal identification in the service package to the element supply terminal, namely informing the scenic spot or hotel that the issued primary intelligent contract is sold at the terminal, and the cloud service applications of the scenic spot terminal and the hotel terminal count the contract number of the finished primary intelligent contract to form element type statistical information;

the supervisor end obtains the element type statistical information through the cloud service application of the supervisor end, performs data analysis and data application according to the element type statistical information, and can trace back the real situation of the transaction occurrence through the alliance chain.

The first embodiment described above provides a manner for trading and recording intelligent contracts based on federation chain and cloud service application, where the scenic spots and hotel sides listed are service providers with different supply types, the issuing of primary intelligent contracts can be directly issued in the federation chain in public, but in reality, there are often a plurality of scenic spots and a plurality of hotel sides under one supervisory end, and there is often a need to avoid making the issued primary intelligent contracts visible to each other between suppliers of the same kind, in order to solve this problem, as shown in fig. 3 and fig. 4, the following second embodiment is further proposed based on the above first embodiment, the manner and the path for issuing and completing the intelligent contracts in the first embodiment are controlled, and the data processing of the federation chain and cloud service application is generally performed by still the following method:

specifically, as shown in fig. 2, in the second embodiment, in step S2, a node in the element supplier organization issues a primary intelligent contract into the federation chain, including:

and S21, the administrator establishes a transaction channel for each element supply end organization according to the definition of the alliance chain, the element supply end organization has at least one supply node added into the corresponding channel, and the supply node comprises an account book, an intelligent contract and a corresponding cloud service application of the supply end.

Since the organization of the element supply end of the unified supply type is often more than one, for example, as shown in fig. 3, one supervisor end includes two scenic spots and three hotel ends to issue primary intelligent contracts, and still one travel agency end and one OTA end are used to conduct transactions of the primary intelligent contracts, at this time, a scenic spot 1 transaction channel is established for scenic spot 1, a hotel 2 transaction channel is established for scenic spot 2, a hotel 1 transaction channel is established for hotel 1, a hotel 2 transaction channel is established for hotel 2, a hotel 3 transaction channel is established for hotel 3, and five transaction channels are established in total. The scenic spot 1, the scenic spot 2, the hotel 1, the hotel 2, and the hotel 3 respectively join their corresponding transaction channels through a supply node, where the supply node is named after a function and is actually a peer node of the joined nodes organized with the following element merchants.

And S22, adding all element merchant organizations into each transaction channel through a first node respectively, copying the account book of the supply node and the primary intelligent contract, and completing the release of the primary intelligent contract.

In the embodiment, each element supply end organization and all element merchant end organizations form a transaction channel, the intelligent contract issued by the element supply end organizations is transacted in the transaction channel, the transaction channel is not data-synchronized externally, only all nodes in the channel are subjected to account book synchronization, the authority control of adding the nodes and the authority control of account book synchronization can be realized through setting the transaction channel, the primary intelligent contracts issued between the same type of element supply organizations are not visible, the confidentiality during transaction of the primary intelligent contracts is maintained, and meanwhile, convenience is provided for adding element merchant end organization nodes in the future. In addition, taking the scenic spot 1 as an example, the scenic spot 1 forms a transaction channel with all travel agencies and OTA organizations as an element supply end, a primary intelligent contract issued by the scenic spot 1 can be acquired and transacted only at other element merchant end organizations in the transaction channel, and organizations outside the transaction channel, such as hotels and stations, do not participate in the acquisition and transaction events of the intelligent contract in the transaction channel, and do not copy account book data on element supplies of other supply types, thereby simplifying node structures in the whole alliance chain, reducing account book data required to be synchronized by each node, and protecting privacy of the data.

The application can be a node account book of a conditional retrieval element supply end organization, wherein the condition can be a selected time point or a selected time period, the tourism supervision end organization can invoke the node account book of the element supply end organization through authority, and the application data of the passage can be retrieved through the cloud service application in the mode of mutual communication of the cloud service application, so that the actual transaction data of the tourism supply end, such as the total amount of tourists in eleven golden weeks in a certain scenic area, the total amount of passengers at a certain railway station in spring transportation, the passenger accommodation condition of a certain hotel in a certain day and the like, can be realized. When the data format content of the travel supervision cloud service application and the transaction channel is not matched, calling can be realized by configuring the form of the data interface API, API development between different data types can be realized according to actual data conditions and the existing development environment, and details are not repeated here.

In the second embodiment described above, after the issuance of the primary smart contract through the step S2, the element trader side organization may have two implementations of the processing step S3 for the primary smart contract, which are specifically described below by way of the third embodiment and the fourth embodiment, respectively.

As shown in fig. 4, in the third embodiment, the step S3 where the element merchant organization acquires the primary intelligent contract, and selects or combines the acquired primary intelligent contract to form and issue the service package, includes:

s31, element merchant organizes primary intelligent contracts obtained by trading in different channels;

and S32, configuring and combining the primary intelligent contracts obtained by the transaction to form a service package.

In step S31, the element merchant organizes the primary intelligent contract purchased as it is to form its own primary intelligent contract inventory, and configures and combines the primary intelligent contract inventory obtained by the transaction in step S32 to form a service package.

Since the service package is not necessarily sold in its entirety, in order to acquire accurate actual completion data, accordingly, as shown in fig. 5, forming element supplier contract completion data in step S4 includes:

s41, the service package is purchased at the element merchant end;

s42, sending the primary intelligent contract contained in the unsold service package back to the corresponding transaction channel for returning;

s43, subtracting the primary intelligent contract returned in the step S42 from the primary intelligent contract obtained by the transaction in the step S31 in one channel to be used as element supply end contract completion data corresponding to the channel;

and S44, writing element supply end contract completion data into each account book by the account book of the node organized by the element supply end and the account book of the node organized by the element supply end in the channel, and updating the transaction records of each account book.

In the third embodiment, the processing of the actual completion data under the condition that the actually purchased primary intelligent contract is not completely sold by the element merchant side organization is mainly solved, the actual completion data can be obtained by subtracting the return data from the purchase data, and the authenticity and the accuracy of the data are ensured.

However, although the processing method of the third embodiment can ensure the authenticity and accuracy of the data, obtaining the data requires one operation step, which reduces the data calculation efficiency, and a problem that a certain element merchant organization purchases a large number of primary intelligent contracts at one time, so that other element merchant organizations cannot obtain enough primary intelligent contracts occurs. The following fourth embodiment is mainly for solving the problem.

In a fourth embodiment, as shown in fig. 6, the step S3 where the element merchant organization acquires the primary intelligent contract, and selects or combines the acquired primary intelligent contract to form a service package and issue the service package includes:

s31', the element merchant organization inquires the first-level intelligent contract which can be obtained in different channels;

when the step is carried out, the element merchant organization does not directly trade and obtain the primary intelligent contract, but inquires whether the needed primary intelligent contract has the surplus or not,

s32', the primary intelligent contracts available for acquisition are configured and combined to form a service package.

Accordingly, as shown in fig. 7, the forming of the element supply side contract completion data in step S4 includes:

s41', the service package is purchased at the element merchant end;

s42', trading the primary intelligent contract in the trading channel where the primary intelligent contract contained in the sold service package is located;

s43', using the primary intelligent contract quantity traded in the step S42 in one channel as the contract completion data of the element supply end corresponding to the channel;

s44', the ledger of the node organized by the element supplier in the channel and the ledger of the node organized by the element merchant write contract completion data of the element supplier into each ledger, and update the transaction records of each ledger.

In the fourth embodiment, the element merchant organization does not realize direct transaction to obtain the primary intelligent contract, but obtains the corresponding primary intelligent contract in the channel of the primary intelligent contract covered by the service package after the service package is purchased, and uses the number of the primary intelligent contract of the final transaction as the element supply end contract completion data corresponding to the channel, so that the contract completion data is real and accurate, complex operation is not needed, and the overall operation efficiency is improved.

For the contract packages in the above embodiments, each element merchant organization may also compile the contract packages into a form of a secondary intelligent contract for processing, and the specific processing mode is as follows: the element merchant-side organization is also provided with a second node, the second node comprises a second ledger and a second intelligent contract formed according to the service product or the service package product, and the second node issues the second intelligent contract in a self-established or joined alliance chain. That is, the travel agency and OTA may build a federation chain for a population of end-users, each end-user participating in a transaction of a secondary intelligent contract in the manner of a federation chain node, thereby bringing all transactions into the domain of the federation chain.

In the element supply end contract completion data of the third and fourth embodiments, the total completion rate can be obtained by combining the ledger record in the cloud service application call channel of each element supply end with the number of issued total primary intelligent contracts. For the element supply type contract completion data acquisition of the monitoring end, the ledger record may be acquired from the federation chain for statistics, or the data calculated by the cloud service application of each element supply end may be directly invoked, and in order to simplify the logical configuration structure of the channels and nodes in the federation chain, the data is preferentially acquired from the interaction of the cloud service application, based on the above embodiment, a fifth embodiment is further provided, where in the element supply type contract completion data acquisition step of the fifth embodiment, as shown in fig. 8, the following steps may be specifically included:

s45, selecting one or more supply types;

s46, acquiring the cloud service application of all the element supply ends under the supply type to acquire element supply end contract completion data of the respective element supply ends;

s47, summarizing the element supply end contract completion data under each type to form element supply type contract completion data;

specifically, when needed, the supervisor end obtains data for data analysis and processing by using a cloud service application of the supervisor end as an entrance and a federation chain ledger as a data source, wherein the data analysis and the data application are performed according to element type statistical information, and generally include the following three conditions:

firstly, acquiring the total transaction object quantity through one or more transaction data organized by element supply terminals; in an expected time or a time period, the number of visitors in a plurality of scenic spots in the area managed by the tourist attraction is the same, the number of visitors entering a local hotel is the same, the number of visitors arriving at the local from the transportation hub is the same, the tourism situation of the destination is sensed, and the overall tourism and the operation condition of related industries are mastered.

Secondly, acquiring the load degree of each element supply end organization through the transaction data and the supply maximum value of each element supply end organization; the load saturation of each scenic spot, each hotel and each transportation junction can be known through data statistics, and when the load saturation reaches an early warning value, related resources can be allocated to carry out matched services.

Thirdly, acquiring the distribution situation of the trading objects according to the number of the trading objects corresponding to the element supply end organization with the same supply type. Because the pedestrian volume of each scenic spot, hotel and station is mastered, according to the positions of the scenic spots, hotels and stations, the situation that tourists entering the local area gather mainly in the local areas can be known, and when the gathering density reaches an early warning value, related security and traffic resources can be allocated to assist, so that the normal operation of the scenic spots is maintained.

As shown in fig. 9, a sixth embodiment of the present invention provides a destination cloud service data processing system including:

a alliance chain module 1, which is used for deploying the supervising end, the element supplying end and the element merchant end as nodes and conducting transaction and record, the alliance chain module further comprises,

a certificate management unit 11 for managing issuance of certificates and identifying organization rights,

a node management unit 12 for adding and deleting nodes,

a channel management unit 13 for creating and modifying channel configuration, establishing and deleting channels, and managing channel rights,

a contract management unit 14 for managing the issuance of intelligent contracts within a federation chain,

a data statistics unit 15 for performing statistics on contract completion data;

the element merchant cloud service module 2 is used for receiving contract completion data of the element merchant and issuing and completing a secondary intelligent contract, and further comprises,

an online distribution unit 21 for issuing the secondary intelligent contract online,

a distribution management unit 22 for distributing and managing the online and offline secondary intelligent contracts,

a report unit 23, configured to generate a report;

the element supplying end cloud service module 3 is used for issuing a primary intelligent contract to the alliance chain, acquiring the completion data of the primary contract and managing the supply of the element service according to the completion data, the element supplying end cloud service module further comprises,

a publishing management unit 31 for publishing the primary intelligent contract into the federation chain,

a service management unit 32, configured to determine or adjust a content parameter in the primary intelligent contract;

the monitoring end cloud service module 4 is used for acquiring primary intelligent contract completion data of the element supply end, forming a big data pool related to the conditions of tourists, traffic and accommodation according to the primary intelligent contract completion data, and providing the big data pool with the monitoring end cloud service module for monitoring the element supply end of the destination,

a big data unit 41, which is used for calling the element supplier and the guest data corresponding to the completed primary intelligent contract,

a situation awareness unit 42 for determining supply saturation for a future period of time from completion data of the primary intelligent contract;

and a decision and service unit 43 for adjusting the supervision decision and service mode of the destination according to the supply saturation.

When the format and the type of the account book data of the alliance chain module are not uniform with the calling data format and the type of each cloud service module, the interface module 5 can be set at the time of the alliance chain module 1 and each cloud service module to perform data conversion and intercommunication.

A transaction settlement and digital payment module 6 can be further arranged between the element merchant-side cloud service module 2 and the element supplier-side cloud service module 3 so as to perform online settlement payment when the intelligent contract is completed.

And a alliance link browser module 7 can be independently arranged for the alliance link module to perform operations of alliance link operation, transaction query, block query, data analysis and the like.

In another aspect, a seventh embodiment of the present invention provides a computer-readable storage medium storing a computer program, the computer program comprising program instructions that, when executed by a processor, cause the processor to perform the methods of the first to fifth embodiments.

The above description is only a preferred embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (10)

1. The destination cloud service data processing method is characterized by comprising the following steps:

s1, adding a supervisor end, a plurality of element supply ends and a plurality of element merchant ends into a alliance chain as organizations respectively, wherein each organization is provided with at least one node and a cloud service application;

s2, the node in the element supply end organization issues a primary intelligent contract to the alliance chain, wherein the primary intelligent contract at least comprises the identification, the supply type and the supply time of the element supply end;

s3, acquiring primary intelligent contracts by element merchant terminals, selecting or combining the acquired primary intelligent contracts to form service packages, and issuing the service packages in cloud service applications organized by the merchant terminals, wherein each service package comprises one primary intelligent contract or a plurality of primary intelligent contracts with different supply types;

after acquiring the primary intelligent contract, the element merchant performs one-level bargain or pre-bargain operation on the primary intelligent contract, the actual bargain represents that the transaction is completed, and the book record is updated; when the pre-transaction operation is still in an unrealistic transaction state for the intelligent contract, setting a secondary condition on the completion condition of the primary intelligent contract, wherein the primary condition is that the primary intelligent contract is selected by an element businessman, and the primary condition is that the intelligent contract is actually purchased by a terminal user;

s4, when the service package is completed, the cloud service application of the element supply end obtains the respective corresponding primary intelligent contract completion number to form element supply end contract completion data; meanwhile, the cloud service application of the monitoring end acquires the completion number of each supply type from the cloud service application of the element supply end corresponding to each supply type to form element supply type contract completion data;

and S5, performing data analysis and data application by combining the element supply end contract completion data and the element supply type contract completion data according to the requirement by the cloud service application of the monitoring end.

2. The destination cloud service data processing method of claim 1, wherein the node in the element provider organization issues a primary intelligent contract into the federation chain in step S2, comprising:

s21, the administrator establishes a transaction channel for each element supply end organization according to the union chain definition, the element supply end organization has at least one supply node added into the corresponding channel, the supply node comprises an account book, a primary intelligent contract and the corresponding cloud service application of the supply end;

s22, element supply end organization issues primary intelligent contract in each transaction channel, and all element merchant end organizations respectively join each transaction channel through a first node and copy the account book of the supply node and the primary intelligent contract.

3. The destination cloud service data processing method of claim 2, wherein the step S3, in which the element merchant organization acquires primary intelligent contracts, and forms and issues service packages after selecting or combining the acquired primary intelligent contracts, includes:

s31, element merchant organizes primary intelligent contracts obtained by trading in different channels;

and S32, configuring and combining the primary intelligent contracts obtained by the transaction to form a service package.

4. The destination cloud service data processing method according to claim 3, wherein the forming of the element supply side contract completion data in step S4 includes:

s41, the service package is purchased at the element merchant end;

s42, sending the primary intelligent contract contained in the unsold service package back to the corresponding transaction channel for returning;

s43, subtracting the primary intelligent contract returned in the step S42 from the primary intelligent contract obtained by the transaction in the step S31 in one channel to be used as element supply end contract completion data corresponding to the channel;

and S44, writing element supply end contract completion data into each account book by the account book of the node organized by the element supply end and the account book of the node organized by the element supply end in the channel, and updating the transaction records of each account book.

5. The destination cloud service data processing method of claim 2, wherein the step S3, in which the element merchant organization acquires primary intelligent contracts, and forms and issues service packages after selecting or combining the acquired primary intelligent contracts, includes:

s31', the element merchant organization inquires the first-level intelligent contract which can be obtained in different channels;

s32', the primary intelligent contracts available for acquisition are configured and combined to form a service package.

6. The destination cloud service data processing method according to claim 5, wherein the forming of the element supply side contract completion data in step S4 includes:

s41', the service package is purchased at the element merchant end;

s42', trading the primary intelligent contract in the trading channel where the primary intelligent contract contained in the sold service package is located;

s43', using the primary intelligent contract quantity traded in the step S42 in one channel as the contract completion data of the element supply end corresponding to the channel;

s44', the ledger of the node organized by the element supplier in the channel and the ledger of the node organized by the element merchant write contract completion data of the element supplier into each ledger, and update the transaction records of each ledger.

7. The destination cloud service data processing method of claim 4 or 6,

in step S4, the obtaining, by the cloud service application of the manager, the completed number of each provisioning type from the cloud service application of the element provisioning end corresponding to each provisioning type, to form element provisioning type contract completion data, including:

s45, selecting one or more supply types;

s46, acquiring the cloud service application of all the element supply ends under the supply type to acquire element supply end contract completion data of the respective element supply ends;

and S47, summarizing the element supply end contract completion data under each type to form element supply type contract completion data.

8. The destination cloud service data processing method of claim 1, wherein the performing data analysis and data application according to the element type statistical information in step S5 includes:

acquiring the total transaction object quantity through one or more transaction data organized by the element supply end; and/or the presence of a gas in the gas,

acquiring the load degree of each element supply end organization through the transaction data and the supply maximum value of each element supply end organization; and/or the presence of a gas in the gas,

and acquiring the distribution condition of the transaction objects through the number of the transaction objects corresponding to the element supply end organization with the same supply type.

9. A destination cloud service data processing system, comprising:

a alliance chain module, which is used for deploying the supervising end, the element supplying end and the element merchant end as nodes and conducting transaction and record, the alliance chain module further comprises,

a certificate management unit for managing issuance of certificates and identifying organization rights,

a node management unit for adding and deleting nodes,

a channel management unit for creating and modifying channel configuration, establishing and deleting channels, and managing channel rights,

a contract management unit for managing issuance of intelligent contracts within the federation chain,

a data counting unit for counting the agreed completion data;

the element merchant cloud service module is used for receiving contract completion data of the element merchant and issuing and completing a secondary intelligent contract, and further comprises,

an on-line distribution unit for issuing the secondary intelligent contract on line,

a distribution management unit for distributing and managing the online and offline secondary intelligent contracts,

the report unit is used for generating a report;

the element supply end cloud service module is used for issuing a primary intelligent contract to the alliance chain, acquiring completion data of the primary contract and managing the supply of element services according to the completion data, and further comprises,

a publishing management unit for publishing a primary intelligent contract into the federation chain,

the service management unit is used for determining or adjusting content parameters in the primary intelligent contract;

the monitoring end cloud service module is used for acquiring primary intelligent contract completion data of the element supply end, forming a big data pool related to the conditions of tourists, traffic and accommodation according to the primary intelligent contract completion data, and providing the big data pool with the monitoring end cloud service module for monitoring the element supply end of the destination,

the big data pool unit is used for calling the element supply end and the tourist data corresponding to the finished primary intelligent contract,

the situation perception unit is used for determining the supply saturation degree in a period of time according to the completion data of the primary intelligent contract in the future period of time;

and the decision and service unit adjusts the supervision decision and service mode of the destination according to the supply saturation.

10. A storage medium, characterized by: the storage medium stores a computer program comprising program instructions which, when executed by a processor, cause the processor to perform the method according to any one of claims 1-8.

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