CN114781850B - Block chain based decentralized safe tourism method, system and storage medium thereof - Google Patents

Abstract

The invention discloses a block chain-based decentralized safe tourism method, a system and a storage medium thereof, wherein the tourism block chain link point receives communication data information sent by a tourist end, a supplier end and a monitoring end; collecting and caching data information input by a supplier end; constructing a supplier-side comprehensive commodity true-false ratio calculation model; constructing a calculation model of the comprehensive anti-counterfeiting inferior commodity of the monitoring end; the touring client recommends the touring comprehensive business which meets the conditions according to the comprehensive ratio of the fake and inferior commodities; and the supplier end calculates the commodity adjustment amount according to the comprehensive anti-counterfeiting commodity coefficient issued by the monitoring end, and is used for removing and recalling the fake commodities. The method of the invention can well serve the current tourism industry by fusing the characteristics of the block chain, has the advantages of decentralization, removal of an intermediary platform, avoidance of the problems of maturity, deception of users by using fake commodities, inconvenience for supervision and the like, low use cost, convenience for selection of users, and safe and reliable information.

Description

Block chain based decentralized safe tourism method, system and storage medium thereof

Technical Field

The invention relates to the technical field of travel data processing, in particular to a block chain-based decentralized safe travel method, a block chain-based decentralized safe travel system and a storage medium.

Background

At present, the tourism industry has the problems that the tourism mode is very dependent on OTA (Online Travel Agency) on one hand, and tourism related products and services are reserved through the OTA; on one hand, the experience type tourism is developed, namely product innovation and customer experience in tourism are emphasized, for example, airbnb enables customers to have more localized, personalized and diversified tourism experience in a shared economy mode through a platform mechanism. However, both of the above two modes do not bypass the platform of the intermediary, i.e. the center of the travel resources and the travel information is in the travel intermediary, and cause many disadvantages. Meanwhile, experiential tourism also depends on tourism intermediaries to build a shared economic platform, various intermediaries expenses exist, and the tourism cost and the tourism experience are limited by the intermediaries platforms.

The tourism information is solidified and monopolized in the information center of each node, so that the information of a tourism market is not disclosed and transparent, and the transparentization and readability of tourism resources are poor; therefore, a more reasonable, public and transparent way to implement the safe tourism mode is urgently needed, and therefore a block chain-based decentralized safe tourism method, system and storage medium are provided.

Disclosure of Invention

This section is for the purpose of summarizing some aspects of embodiments of the invention and to briefly introduce some preferred embodiments. In this section, as well as in the abstract and title of the application, simplifications or omissions may be made to avoid obscuring the purpose of the section, the abstract and the title, and such simplifications or omissions are not intended to limit the scope of the invention.

The present invention has been made in view of the above-mentioned problems occurring in the conventional travel data processing.

Therefore, an object of the present invention is to provide a block chain-based decentralized safe tourism method, system and storage medium thereof, wherein the method combines the features of the block chain, can serve the current tourism industry, especially the industry of online selection of tourism business, has decentralized, low use cost, convenient selection of users, safe and reliable information, solves the tourism trust problem, protects privacy and solves the information leakage problem.

In order to solve the technical problems, the invention provides the following technical scheme: the method specifically comprises the following steps:

s1, a tourist block link point receives communication data information sent by a tourist end, a supplier end and a monitoring end, a distributed area server is constructed through a network topology structure, and related tourist data are cached;

s2, collecting data information input by a supplier end, wherein the data information comprises commodity information, sales information, storage information and logistics information, creating a digital identity for the commodity, binding the digital identity with a real object through the Internet of things technology, collecting corresponding data information, and uploading the data information to a main volume management server in phase mapping in a tour block chain node for caching;

the commodity information, the sales information, the warehousing information and the logistics information are correspondingly provided with corresponding data cache nodes in an information layer of the distributed regional server, and an application layer of the distributed regional server is used for tracing and counterfeiting of a user end on commodities, supervision of the commodities by a supervision end and removal and recall of the commodities by a supplier end;

s3, constructing a supplier-side comprehensive commodityThe true-false percentage calculation model respectively calculates the comprehensive fake commodity percentage K on line _QZ ；

The data information input by the supplier end comprises a false commodity proportion K in a preselected area _PL And the ratio of the counterfeit goods outside the preselected area K _PW (ii) a Calculating the comprehensive ratio K of fake and inferior commodities _QZ The constructed model is shown as formula (1):

K _QZ ＝K _PL (K _PW +K _PL ) (1)；

s4, building a calculation model of the comprehensive anti-counterfeiting inferior commodity of the monitoring end, and respectively calculating the comprehensive anti-counterfeiting inferior commodity coefficient T on line _PZ The constructed model is shown in formula (2):

s5, the tourist side accounts for K according to the comprehensive fake and inferior commodity ratio _QZ Setting the ratio K of the comprehensive fake and inferior commodities _QZ Pass threshold, K, against synthetic counterfeit goods _QZ Judging, and recommending the tourism integrated service of which the tourism client side meets the conditions after the judgment is finished;

s6, the supplier end sends out the comprehensive anti-counterfeiting inferior commodity coefficient T according to the monitoring end _PZ The supplier end accounts for K according to corresponding fake and inferior commodities _QZ Calculating commodity adjustment quantity delta Q for eliminating and recalling fake and inferior commodities;

the commodity adjustment quantity delta Q is calculated, and the constructed model is shown as a formula (3):

ΔQ＝T _PZ K _QZ m (3)；

where m is the total amount of merchandise in the supplier end region.

The block chain-based decentralized safe tourism method comprises the following steps: in the step S1, a regional server is constructed through a network topological structure, and the regional server comprises a primary volume management server which is formed by mapping a distributed topological structure and a tree topological structure; the tourism block chain nodes formed by the distributed topological structures are used for storing tourism operation data of tourism clients, the tree-shaped topological structures are used for storing tourism commodity data of supplier clients, the monitoring clients are connected with the supplier clients and the tourism clients through the chain topological structures to be associated, and then the tourism block chain nodes are constructed, so that the distributed area server is formed.

A blockchain-based decentralized safe tourism system, comprising:

the user mounting end is used for receiving and sending information by the guest end, the supplier end and the supervisor end;

the tourism block chain node is used for constructing a distributed area server through a network topological structure and caching related tourism data;

the configuration module is used for the operation configuration of the system, and comprises tourism block chain node configuration, node parameter configuration, storage parameter configuration, user configuration, threshold judgment configuration, digital identity authentication configuration and sharing configuration;

the memory is an electronic equipment information storage module of the guest end, the supplier end and the supervisor end, is configured in the distributed area server and is used for storing a computer program which can run on the processor;

a processor for executing the decentralized safe tourism method when running the computer program.

As the decentralized safe tourism system based on the block chain, the invention comprises the following steps: the digital identity authentication is configured for identity authentication processing of user information of a guest end, commodity information of a supplier end and supervision user information of a supervision end.

As the decentralized safe tourism system based on the block chain, the invention comprises the following steps: the system also comprises a travel database which is shared and configured by the master volume management server and is used for sharing data in the travel database and transmitting the content to the OTA, the travel agency, the Internet collaboration or other local tourist service platforms.

A computer storage medium storing a program for blockchain-based decentralized secure travel operation and calculation, the program for decentralized secure travel operation and calculation implementing the steps of the blockchain-based decentralized secure travel method when executed by at least one processor.

The invention has the beneficial effects that:

firstly, the tourist side, the supplier side and the monitoring side use distributed accounting and storage, so that no centralized hardware or management mechanism exists, the centralization is equivalent to decentralization, the intermediary platform is thrown away, the information does not need to be sorted and collected by the intermediary platform, the monopoly prevention effect is good, and once the information is verified and added to the block chain, the information can be permanently stored, so that the trust of the tourist on the tourism industry is greatly enhanced;

secondly, by constructing a supplier-side comprehensive commodity true-false ratio calculation model and constructing a monitor-side comprehensive anti-fake inferior commodity calculation model, a tourist-side user can judge through threshold setting, the tourism service experience of the user is improved, and meanwhile, the supplier-side can timely remove and recall fake inferior commodities according to comprehensive anti-fake inferior commodity index coefficients issued by a monitor-side, so that the rights and interests of consumers are guaranteed;

thirdly, the whole system is open to the outside, except that the private information of each party of the transaction is encrypted, the data of the block chain is disclosed to all people, and anyone can inquire the data of the block chain through a public interface, which is equivalent to the transparence and readability of the travel information and the travel resources.

In conclusion, the method of the invention integrates the characteristics of the block chain, can be well used in the current tourism industry, particularly the industry for selecting tourism business online, has the advantages of decentralization, low use cost, convenient selection of users, safe and reliable information, solves the problem of tourism trust, protects the privacy and solves the problem of information leakage.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without inventive exercise. Wherein:

FIG. 1 is a block flow diagram of a decentralized safe tourism method according to the present invention;

FIG. 2 is a schematic view of the modular construction of the decentralized secure tour system of the present invention;

FIG. 3 is a schematic view of the decentralized safety tourism system according to the present invention;

FIG. 4 is a schematic diagram of the tracing of the merchandise by the primary volume server according to the present invention;

FIG. 5 is a schematic view of an application scenario of the centralized safe tourism system of the present invention.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention more comprehensible, embodiments accompanying figures of the present invention are described in detail below.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, but the present invention may be practiced in other ways than those specifically described and will be readily apparent to those of ordinary skill in the art without departing from the spirit of the present invention, and therefore the present invention is not limited to the specific embodiments disclosed below.

Furthermore, reference herein to "one embodiment" or "an embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment is included in at least one implementation of the invention. The appearances of the phrase "in one embodiment" in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments.

Referring to fig. 1, fig. 2, fig. 3 and fig. 4 are views illustrating an embodiment of the present invention, which provides a block chain-based decentralized secure tourism method, system and storage medium, specifically including the following steps:

s1, a tourism block chain link point receives communication data information sent by a tourist end, a supplier end and a monitoring end, a distributed area server is constructed through a network topological structure, related tourism data are cached, the area server is constructed through the network topological structure, and the area server comprises a main volume management server which is formed by a distributed topological structure and a tree topological structure and is mapped; tourism block chain nodes formed by a distributed topological structure are used for storing tourism operation data of a tourist end, a tree-shaped topological structure is used for storing tourism commodity data of a supplier end, and tourism block chain nodes are constructed after monitoring ends are connected with the supplier end and the tourist end by adopting a chain topological structure for association to form a distributed area server;

s2, collecting data information input by a supplier end, wherein the data information comprises commodity information, sales information, storage information and logistics information, creating a digital identity for the commodity, binding the data information with a real object through an Internet of things technology, collecting corresponding data information, uploading the data information to a main roll management server mapped in a tourism block chain node for caching, and correspondingly setting corresponding data caching nodes in an information layer of a distributed regional server for the commodity information, the sales information, the storage information and the logistics information, wherein an application layer of the distributed regional server is used for tracing and anti-counterfeiting of the commodity by a user end, supervising the commodity by a supervising end and removing and recalling the commodity by the supplier end; the data information input by the supplier end comprises a false commodity proportion K in the preselected area _PL And the ratio of the counterfeit goods outside the preselected area K _PW ；

S3, establishing a supplier-side comprehensive commodity true-false ratio calculation model, and respectively calculating a comprehensive fake commodity ratio K on line _QZ ；

The data information input by the supplier end comprises a ratio K of fake commodities to bad commodities in a preselected area _PL And the ratio of the counterfeit goods outside the preselected area K _PW (ii) a Calculating the comprehensive ratio K of fake and inferior commodities _QZ The constructed model is shown as formula (1):

K _QZ ＝K _PL (K _PW +K _PL ) (1)；

s4, constructing a calculation model of the supervision end comprehensive anti-counterfeiting inferior commodity, and respectively calculating the comprehensive anti-counterfeiting inferior commodity coefficient T on line _PZ The model constructed is shown in formula (2):

s5, the tourist side gives a good result according to the comprehensive fake quotientRatio of product K _QZ Setting the ratio K of the comprehensive fake and inferior commodities _QZ Pass threshold, K, against synthetic counterfeit goods _QZ Judging, and recommending the tourism integrated service of which the tourism client side meets the conditions after the judgment is finished;

s6, the supplier end sends out the comprehensive anti-counterfeiting inferior commodity coefficient T according to the monitoring end _PZ The supplier end calculates the ratio K of corresponding fake commodities _QZ Calculating a commodity adjustment quantity delta Q for eliminating and recalling fake and inferior commodities;

the commodity adjustment quantity delta Q is calculated, and the constructed model is shown as a formula (3):

ΔQ＝T _PZ K _QZ m (3)；

where m is the total amount of commodity in the supplier end region.

Based on the above, for example, the obtained ratio of counterfeit commodities in the preselected area and the ratio of counterfeit commodities outside the preselected area are 10% and 5%, the comprehensive ratio of counterfeit commodities in the preselected area can be calculated to be 1.5% by substituting the ratio into formula (1), and the comprehensive anti-counterfeit commodity coefficient T can be calculated by substituting the ratio into formula (2) _PZ Is 6.566, and the value of the comprehensive anti-counterfeiting inferior commodity coefficient is 6.566; meanwhile, the supervising end issues a comprehensive anti-counterfeiting commodity coefficient to the supplier end, the supplier end calculates commodity adjustment quantity according to the comprehensive anti-counterfeiting commodity coefficient value 6.566 of the supervising end, corresponding fake commodity proportion of 1.5 percent and a formula (3), and if the total quantity of commodities in the area of the supplier end is 50000, the commodity adjustment quantity is 4924, and the supplier end puts 295 commodities off the shelf and is used for removing and recalling fake commodities; if the ratio of the fake and inferior commodities in the preselected area and the ratio of the fake and inferior commodities outside the preselected area are 1% and 0.5%, the ratio of the comprehensive fake and inferior commodities is 0.015%, and the coefficient value of the comprehensive anti-counterfeiting and inferior commodity is 66.656.

It can be known that in the embodiment, by constructing a calculation model of the monitor-end comprehensive anti-counterfeiting inferior commodity and a comprehensive anti-counterfeiting inferior commodity coefficient issued by the monitor end, the amount of the adjustment amount of the commodity is affected by the comprehensive inferior commodity ratio in the preselected area and outside the preselected area of the travel place, and the comprehensive inferior commodity coefficient is linearly related to the commodity placed on the shelf at the supplier end, so that the number of the inferior commodities inside and outside the preselected area and the travel service area, particularly the number of the inferior commodities in the preselected area, can be effectively reduced, and the inferior commodities can be removed and recalled in time, thereby ensuring the rights and interests of consumers.

In addition, in the step S5, the comprehensive fake commodity ratio is preset by the tourist and is smaller than the comprehensive fake commodity ratio, and the tourist end is recommended to meet the condition of the comprehensive tourism business.

Meanwhile, the embodiment further provides a decentralized safe tourism system based on the block chain through the decentralized safe tourism method based on the block chain, which includes:

the user mounting end is used for receiving and sending information by the guest end, the supplier end and the supervisor end;

the tourism block chain node is used for constructing a distributed area server through a network topological structure and caching related tourism data;

the configuration module is used for the system operation configuration, including tourism block chain node configuration, node parameter configuration, storage parameter configuration, user configuration, threshold judgment configuration, digital identity authentication configuration and sharing configuration;

the memory is an electronic equipment information storage module of the guest end, the supplier end and the supervisor end, is configured in the distributed area server and is used for storing a computer program capable of running on the processor;

a processor for executing the decentralized safe tourism method when running the computer program. The digital identity authentication is configured for identity authentication processing of user information of a guest end, commodity information of a supplier end and supervision user information of a supervision end.

The decentralized safe tourism system based on the block chain further comprises a tourism database which is shared and configured through the master volume management server, is used for sharing data in the tourism database and transmits the content to the whole-network OTA, a tourism agency, internet collaboration or other local tourist service platforms.

It should be noted that: in the decentralized safe tourism system based on the block chain, when the decentralized use is performed, only the division of the function modules is exemplified, and in practical applications, the function distribution can be completed by different function modules according to needs, that is, the internal structures of the guest end, the supplier end and the supervisor end are divided into different function modules, so as to complete all or part of the functions described above. In addition, specific implementation processes are detailed in the method embodiment, and are not described again here.

A computer storage medium, the computer storage medium storing a program for performing and calculating in a decentralized secure travel method, the program for performing and calculating in the decentralized secure travel method when executed by at least one processor implementing the steps of the decentralized secure travel method.

Based on the above description and with reference to the accompanying drawings, the tourists, the suppliers, and the monitoring end form a block chain network for the tourism service, which specifically includes:

the user side of the guest end is connected with a corresponding distributed area server in the block chain network through the product end of the local mobile terminal;

the system comprises a supplier end, a plurality of tourism area management servers, a plurality of information layers and a monitoring end, wherein the supplier end is a scenic spot, a hotel, a shop, traffic and the like, digital identities can be created for a plurality of commodities through a distributed area server, corresponding data information is bound with a real object through the Internet of things technology and is acquired, and is uploaded to a master roll management server mapped in a tourism area block chain node for caching, so that the whole-process monitoring is completed, and the information layers comprise a production node, a processing node, a storage node, a logistics node, a sales node and a monitoring node and are used for acquiring commodity information so as to facilitate the tracing and anti-counterfeiting judgment work of the commodities, the monitoring of the monitoring end and the recall of the supplier end by a user end of a tourism end;

the monitoring end can be set based on a government tourism monitoring part, a calculation model of the monitoring end for comprehensive anti-counterfeiting inferior commodities is built, and counterfeit behaviors of commodities at a supplier end are controlled and monitored.

Further, when the upstream tourism industry platform is developed, the downstream blocks are generated by each user (a tourist, a supplier or a supervisory organization), block chains are formed among the blocks among the tourist end, the supplier end and the supervisory end, the transaction information is generated and then pushed to all nodes in the network, each node retains own information, and when the nodes transact with other nodes, the information is pushed to all nodes in the network again.

The transaction information may be a money amount, an evaluation, a travel experience, and the like, and when the travel resource is repeatedly processed in the continuous transaction of the blockchain, a unique and real account book in the network may be generated. The price required by scenic spots, shops, hotels, diet and traffic, the quality of travel service and all information can be acquired through the network. And then more tourists arrange their own journey through the user end of tourist end, reach better tourism experience, constitute virtuous circle. In summary, the present invention can achieve the following three effects, specifically as follows:

first, because the guest end, the supplier end, and the supervisor end use distributed accounting and storage, there is no centralized hardware or management mechanism, which is equivalent to decentralization, the intermediary platform is thrown away, the information does not need to be collated and collected by the intermediary platform, and has a good monopoly effect, and once the information is verified and added to the blockchain, the information is permanently stored, unless more than 51% of the nodes in the system can be controlled at the same time, which is something that cannot happen. Therefore, the block chaining of the tourism industry can change the trust of people into the trust of machines, and any human intervention does not work, thereby greatly enhancing the trust of tourists on the tourism industry;

secondly, by constructing a supplier-side comprehensive commodity true-false ratio calculation model and constructing a monitor-side comprehensive anti-fake inferior commodity calculation model, a tourist-side user can judge through threshold setting, the tourism service experience of the user is improved, and meanwhile, the supplier-side can timely remove and recall fake inferior commodities according to comprehensive anti-fake inferior commodity index coefficients issued by a monitor-side, so that the rights and interests of consumers are guaranteed;

thirdly, the whole system is open to the outside, except that the private information of each party of the transaction is encrypted, the data of the block chain is disclosed to all people, and anyone can inquire the data of the block chain through a public interface, which is equivalent to the transparentization and readability of the travel information and the travel resources.

In conclusion, the method of the invention integrates the characteristics of the block chain, can be well used in the current tourism industry, particularly the industry for selecting tourism business online, has the advantages of decentralization, low use cost, convenient selection of users, safe and reliable information, solves the problem of tourism trust, protects the privacy and solves the problem of information leakage.

It should be noted that the above-mentioned embodiments are only for illustrating the technical solutions of the present invention and not for limiting, and although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications or equivalent substitutions may be made on the technical solutions of the present invention without departing from the spirit and scope of the technical solutions of the present invention, which should be covered by the claims of the present invention.

Claims (6)

1. A decentralized safe tourism method based on a block chain is characterized by comprising the following steps:

s1, a tourist block chain link point receives communication data information sent by a tourist end, a supplier end and a monitoring end, a distributed area server is constructed through a network topological structure, and related tourist data are cached;

s2, collecting data information input by a supplier end, wherein the data information comprises commodity information, sales information, storage information and logistics information, creating a digital identity for the commodity, binding the digital identity with a real object through the Internet of things technology, collecting corresponding data information, and uploading the data information to a main volume management server in phase mapping in a tour block chain node for caching;

the commodity information, the sales information, the warehousing information and the logistics information are correspondingly provided with corresponding data cache nodes in an information layer of the distributed regional server, and an application layer of the distributed regional server is used for tracing and counterfeiting prevention of commodities by a user end, supervision of the commodities by a supervision end and removal and recall of the commodities by a supplier end;

s3, establishing a supplier-side comprehensive commodity true-false ratio calculation model, and respectively calculating a comprehensive fake commodity ratio K on line _QZ ；

The supplierThe data information input by the terminal comprises a ratio K of fake commodities in the preselected area _PL Ratio K to the false or inferior goods outside the preselected area _PW (ii) a Calculating the comprehensive ratio K of fake and inferior commodities _QZ The constructed model is shown as formula (1):

K _QZ ＝K _PL (K _PW +K _PL ) (1)；

s4, constructing a calculation model of the supervision end comprehensive anti-counterfeiting inferior commodity, and respectively calculating the comprehensive anti-counterfeiting inferior commodity coefficient T on line _PZ The constructed model is shown in formula (2):

s5, the tourist side accounts for K according to the comprehensive fake and inferior commodities _QZ Setting the ratio K of the comprehensive fake and inferior commodities _QZ The ratio K of the pass threshold value to the comprehensive fake and inferior commodities _QZ Judging, and recommending the tourism integrated service of which the tourism client side meets the conditions after the judgment is finished;

s6, the supplier end sends out the comprehensive anti-counterfeiting inferior commodity coefficient T according to the monitoring end _PZ The supplier end accounts for K according to corresponding fake and inferior commodities _QZ Calculating commodity adjustment quantity delta Q for eliminating and recalling fake and inferior commodities;

the commodity adjustment quantity delta Q is calculated, and a constructed model is shown as a formula (3):

ΔQ＝T _PZ K _QZ m (3):

where m is the total amount of merchandise in the supplier end region.

2. The block chain-based decentralized safe tourism method according to claim 1, wherein in step S1, the regional server is constructed by a network topology structure, comprising a primary volume management server mapped by a distributed topology structure and a tree topology structure;

the tourism block chain nodes formed by the distributed topological structures are used for storing tourism operation data of tourism clients, the tree-shaped topological structures are used for storing tourism commodity data of supplier clients, the monitoring clients are connected with the supplier clients and the tourism clients through the chain topological structures to be associated, and then the tourism block chain nodes are constructed, so that the distributed area server is formed.

3. A block chain based decentralized safe tourism system, comprising:

the user mounting end is used for receiving and sending information by the guest end, the supplier end and the supervisor end;

the tourism block chain node is used for constructing a distributed area server through a network topological structure and caching related tourism data;

the configuration module is used for the system operation configuration, including tourism block chain node configuration, node parameter configuration, storage parameter configuration, user configuration, threshold judgment configuration, digital identity authentication configuration and sharing configuration;

the memory is an electronic equipment information storage module of the guest end, the supplier end and the supervisor end, is configured in the distributed area server and is used for storing a computer program which can run on the processor;

a processor for executing a block chain based decentralized safe tourism method according to any one of claims 1 or 2, when running a computer program.

4. The blockchain-based decentralized secure travel system according to claim 3, wherein said digital authentication is configured for the authentication process of the guest-side user information, the supplier-side merchandise information, and the supervising-user information of the supervising end.

5. The blockchain-based decentralized secure travel system according to claim 3, further comprising a travel database configured to be shared by the master volume management server for sharing data in the travel database for transferring content to the OTA, travel agency, internet collaboration or other local tourist service platform.

6. A computer storage medium storing a program for performing and calculating in a blockchain based decentralized secure tourism method, the program for performing and calculating in a decentralized secure tourism method, when executed by at least one processor, performing the steps of the blockchain based decentralized secure tourism method according to claim 1 or 2.

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