CN112270554A - Logistics sharing operation platform benefit distribution system and method based on block chain - Google Patents
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Abstract
The invention provides a block chain-based logistics shared operation platform benefit distribution system and a block chain-based logistics shared operation platform benefit distribution method, wherein the benefit distribution system comprises a data storage system, a benefit distribution system and a benefit distribution result uplink system, wherein: the data storage system comprises a data acquisition module, a data processing module and a block chain system. The benefit distribution system comprises a data verification module, a benefit distribution intelligent contract module and a benefit distribution module. The benefit distribution result uplink system comprises a benefit distribution result consensus module and a benefit distribution result uplink module. The invention utilizes the block chain to perform creative upgrade on the traditional logistics sharing operation platform. The invention realizes the public, transparent and tamper-free benefit distribution and solves the problem of lack of trust mechanism among logistics participants. In addition, the logistics data and the benefit distribution result of each participant are stored in the block chain, so that the problem of traceability of responsibility of each link of each logistics process is solved.
Description
Technical Field
The invention relates to the technical field of network communication and data processing, in particular to a block chain-based logistics sharing operation platform benefit distribution system and method.
Background
At present, the service homogeneity degree of main logistics service enterprises is higher, and the competition is more intense. In order to reduce cost and improve competitiveness, some logistics service enterprises try to establish a logistics union or a logistics sharing platform with warehousing enterprises, delivery outlets and the like to realize sharing and full utilization of logistics resources, so that mutual assistance and complementation are realized, and resultant force is formed to improve market competitiveness.
The existing logistics sharing operation platform is mainly based on traditional resource integration, personnel integration and service integration, a trust mechanism is lacked among logistics participants, an objective evaluation mechanism and a guarantee mechanism are lacked in benefit distribution, a leak exists in a process, responsibility of the participants is not clear, and disputes are easy to cause.
The block chain is used as a novel application mode, the bottom layer technology of the block chain comprises distributed computer technologies such as data storage, point-to-point transmission, a distributed consensus mechanism and an encryption algorithm, the secure transmission of data is realized through the encryption algorithm, the consistency and fault tolerance of the data are realized under a distributed environment through the distributed consensus algorithm, and the decentralized characteristic of the distributed book is provided in real time. Due to the characteristics of trust mechanism, traceability, privacy protection and the like brought by the block chain, the traditional industry is influenced profoundly.
In view of the defects of the existing logistics shared operation platform in the aspect of benefit distribution and the characteristics of the blockchain, the blockchain technology can be used for modifying the existing logistics shared operation platform, so that a benefit distribution scheme of the logistics shared operation platform based on the blockchain is provided.
Disclosure of Invention
In order to achieve the technical goal, the invention provides a benefit distribution system of a logistics sharing operation platform based on a block chain on one hand, which realizes the public, transparent and tamper-free benefit distribution and solves the problem of lack of trust mechanism among logistics participants. The specific technical scheme of the benefit distribution system is as follows:
a logistics sharing operation platform benefit distribution system based on a block chain comprises a data storage system, a benefit distribution system and a benefit distribution result uplink system, wherein:
the data storage system comprises a data acquisition module, a data processing module and a block chain system, wherein the data acquisition module is used for acquiring logistics data of logistics participants participating in the logistics shared operation platform, the data processing module is used for preprocessing the acquired logistics data before chain winding, and the block chain system is used for storing the preprocessed logistics data.
The benefit distribution system comprises a data verification module, a benefit distribution intelligent contract module and a benefit distribution module, wherein the data verification module is used for obtaining logistics data from the block chain system and completing verification of the data, the benefit distribution intelligent contract module is used for creating a benefit distribution intelligent contract and running the benefit distribution intelligent contract based on the verified logistics data to generate a benefit distribution result, and the benefit distribution module is used for completing benefit distribution to each logistics participant based on the benefit distribution result.
The benefit distribution result uplink system comprises a benefit distribution result consensus module and a benefit distribution result uplink module, wherein the distribution result consensus module is used for realizing consensus of each logistics participant on benefit distribution results, and the benefit distribution result uplink module is used for storing the consensus benefit distribution result data to the block chain system.
In some embodiments, the pre-uplink pre-processing includes data validation, data format processing, and data encryption.
In some embodiments, the blockchain system includes a blockchain underlying platform, a blockchain network, a blockchain underlying architecture, and a terminal device. Wherein: the block chain bottom platform is used for realizing uplink storage of the logistics data; the block chain network is used for realizing point-to-point data transmission and providing a networked communication environment; the block chain bottom layer structure is used for forming a block chain network; the terminal equipment is used for supporting a block chain bottom platform, a block chain network and a block chain bottom framework.
In some embodiments, the blockchain system is deployed based on HyperLegendr Fabric alliance nodes, where the nodes include data nodes, consensus nodes and service nodes, where the data nodes are used for data access, the consensus nodes are used for implementing a consensus algorithm, and the service nodes are used for providing services for the logistics participants; the logistics participants comprise logistics service enterprises, warehousing enterprises and delivery outlets.
In some embodiments, the bottom architecture of the block chain adopts a HyperLegger Fabric architecture, and a data layer, a network layer, a consensus layer, an excitation layer, a contract layer and an application layer are sequentially arranged from the bottom to the top; the intelligent contract service layer adopts a chain code structure of HyperLegger Fabric 1.0.
In some embodiments, the logistics data includes the package pick-up data, transportation vehicle dispatch data, package in and out warehouse data, and package delivery data.
In some embodiments, the data storage process of the blockchain system is as follows: receiving logistics data and broadcasting the logistics data to the whole network; after the logistics data are confirmed through an encryption algorithm and a consensus algorithm, a block is formed; after the formed block is broadcasted to the whole network, whether the block is effective is determined through all the common identification nodes; after the acknowledgement by the consensus node, the block is added to the blockchain.
In some embodiments, the block comprises a block header and a block body, wherein the block header comprises a corresponding block version number for recording a key, a random number and a time stamp between two blocks, and the block body comprises the encapsulated and encrypted logistics data.
In some embodiments, the logistics management system further comprises other support mechanisms, and the other support mechanisms comprise management departments, banks and insurance companies.
Another aspect of the present invention provides a benefit distribution method for a block chain-based logistics shared operation platform, where the benefit distribution method is implemented by any one of the above benefits distribution methods for the block chain-based logistics shared operation platform, and the benefit distribution method includes:
collecting logistics data of logistics participants participating in the logistics sharing operation platform;
preprocessing the collected logistics data before chain winding;
storing the preprocessed logistics data to a block chain system;
acquiring logistics data from the block chain system and completing verification of the data,
running a benefit distribution intelligent contract based on the verified logistics data to generate a benefit distribution result;
all logistics participants agree on the benefit distribution result;
and storing the identified benefit distribution result data to the blockchain system.
The invention utilizes the block chain technology to perform creative upgrade on the traditional logistics sharing operation platform, stores logistics data generated by each participant into a block chain system, and realizes automatic benefit distribution by executing a benefit distribution intelligent contract.
Compared with the traditional distribution mechanism of the logistics sharing operation platform, the invention realizes the public, transparent and tamper-free benefit distribution and solves the problem of lack of trust mechanism among logistics participants. In addition, the logistics data and the benefit distribution result of each participant are stored in the block chain, so that the problem of traceability of responsibility of each link of each logistics process is solved.
Drawings
In order to more clearly illustrate the embodiments of the present invention and the technical solutions in the designed system architectures, the following briefly introduces the embodiments of the present invention and the system architectures and the drawings used in the technical solutions, which are described below, obviously, the drawings described below are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.
FIG. 1 is a system architecture diagram of an embodiment of a block chain based logistics sharing operations platform interest distribution system of the present invention;
fig. 2 is a schematic node deployment diagram of a block chain network according to an embodiment of the benefit distribution system of the logistics sharing operation platform based on the block chain of the present invention;
fig. 3 is a schematic diagram of a logic process of creating and deploying an intelligent contract according to an embodiment of the benefit distribution system of the block chain-based logistics sharing operation platform;
FIG. 4 is a schematic diagram illustrating an implementation process of an intelligent contract according to an embodiment of the benefit distribution system of the block chain-based logistics sharing operation platform;
fig. 5 is an architecture diagram of a block of an embodiment of the logistics sharing operation platform benefit allocation system based on a block chain according to the invention;
FIG. 6 is a platform architecture diagram of a logistics sharing operation platform in an implementation scenario of the present invention;
fig. 7 is a flowchart of an embodiment of a benefit allocation method for a logistics sharing operation platform based on a block chain according to the invention.
Detailed Description
It is to be understood that the following detailed description is exemplary and intended to provide an indicative description of the invention, and it is to be noted that all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs.
The system architecture and the prior art solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it should be noted that the described embodiments are only for explaining and illustrating the present invention, and not for all purposes. On the basis of the embodiments provided by the invention, all other embodiments obtained by a person with ordinary skill in the art without any creative effort are within the protection scope of the present application.
Summary of the application
Fig. 6 shows a logistics sharing operation platform in an implementation scenario of the present invention, where the logistics participants of the logistics sharing operation platform at least include a logistics service enterprise, a warehousing enterprise, and a dispatch network. Wherein: the logistics service enterprise is an operation main body for providing logistics service and is responsible for receiving the logistics service and completing package collecting pieces. And the warehousing enterprises provide transfer storage in the package circulation process. The dispatch network will dispatch the package to the end consumer.
In some embodiments, the logistics participants of the logistics sharing operation platform further comprise other support mechanisms, and the other support mechanisms comprise management departments, banks and insurance companies. The management department sets rules and regulations about logistics, banks can realize the function of online payment, and insurance companies cooperate with the platform to reduce the odds and guarantee the safety of funds.
Therefore, packages are transferred across mechanisms among logistics service enterprises, warehousing enterprises and delivery outlets from the package collecting to the delivery. All logistics participants undertake the work tasks of different links, so the finally obtained benefits need to be reasonably distributed among the logistics participants.
At present, the general method is to calculate the contribution degree corresponding to each logistics participant by counting the workload information and the paid resource information of each logistics participant, and then obtain a final profit sharing scheme based on the contribution degree of the logistics participants and a profit sharing rule predetermined by each logistics participant.
The workload situation and the paid resource information of each participant are generally obtained by collecting logistics data of the logistics link involved by the participant. Such as: package pickup data of logistics service enterprises, such as package pickup amount, order amount and the like; transportation resource investment information of logistics service enterprises, such as transportation vehicle scheduling information and the like; parcel in-out warehouse data of the warehousing enterprise, such as the storage quantity, the storage time and the like of parcels; and the parcel delivery data of the delivery network points, such as the dispatch condition of delivery personnel and delivery vehicles.
The main problems of the existing logistics sharing operation platform are as follows: based on traditional resource integration, personnel integration and business integration, trust mechanisms are lacked among all the participators, interest distribution is lacked in objective guarantee mechanisms, vulnerabilities are prone to exist in the process, responsibility of the participators is not clear, and disputes are prone to being caused.
The block chain is used as a novel application mode, the bottom layer technology of the block chain comprises distributed computer technologies such as data storage, point-to-point transmission, a distributed consensus mechanism and an encryption algorithm, the secure transmission of data is realized through the encryption algorithm, the consistency and fault tolerance of the data are realized under a distributed environment through the distributed consensus algorithm, and the decentralized characteristic of the distributed book is provided in real time. Due to the characteristics of trust mechanism, traceability, privacy protection and the like brought by the method, the method brings profound influence on the traditional industry.
In view of the technical problems of the benefit distribution strategy of the existing logistics sharing operation platform and the unique advantages of the block chain in the aspects of trust mechanism, traceability, privacy protection and the like, the invention provides a logistics sharing operation platform benefit distribution system and method based on the block chain.
Example (b): logistics sharing operation platform benefit distribution system based on block chain
Referring to fig. 1, the benefit distribution system of the logistics shared operation platform based on block chains according to the present invention includes a data storage system, a benefit distribution system, and a benefit distribution result uplink system, wherein:
the data storage system comprises a data acquisition module, a data processing module and a block chain system, wherein the data acquisition module is used for acquiring logistics data of all logistics participants participating in the logistics sharing operation platform. The data processing module is used for preprocessing the collected logistics data before chaining, and the block chain system is used for realizing permanent and tamper-free storage of the preprocessed logistics data.
The benefit distribution system comprises a data verification module, a benefit distribution intelligent contract module and a benefit distribution module, wherein the data verification module is used for acquiring logistics data from the block chain system and completing verification of the data, the benefit distribution intelligent contract module is used for creating a benefit distribution intelligent contract and operating the benefit distribution intelligent contract based on the verified logistics data to generate a benefit distribution result, and the benefit distribution module is used for completing benefit distribution to each logistics participant based on the benefit distribution result.
The benefit distribution result uplink system comprises a benefit distribution result consensus module and a benefit distribution result uplink module, wherein the distribution result consensus module is used for realizing consensus of each logistics participant on the benefit distribution result, and the benefit distribution result uplink module is used for storing the consensus benefit distribution result data to the block chain system.
Therefore, the benefit distribution system of the logistics sharing operation platform provided by the invention creatively upgrades the traditional logistics sharing operation platform by using the block chain. The method realizes automatic allocation of benefits by storing logistics data generated by each participant into a blockchain system and executing a benefit allocation intelligent contract.
Compared with the traditional allocation mechanism, the invention realizes the public, transparent and tamper-free benefit allocation and solves the problem of lack of trust mechanism among logistics participants. In addition, the logistics data and the benefit distribution result of each participant are stored in the block chain, so that the problem of traceability of responsibility of each link of each logistics process is solved.
The data storage system in the benefit distribution system of the logistics sharing operation platform based on the block chain is used for acquiring and preprocessing logistics data and storing uplink. Wherein:
the logistics data collected by the data collection module comprise parcel pickup data, transport vehicle scheduling data, parcel in-out warehouse data, parcel delivery data and the like.
The data processing module carries out pre-uplink preprocessing on the collected logistics data and comprises the steps of data verification, data format processing, data encryption and the like. In some embodiments, the data storage system further includes a logistics data platform for storing the collected logistics data, the logistics data collected by the data collection module is stored on the logistics data platform, and the data processing module obtains the logistics data from the logistics data platform and completes pre-uplink preprocessing on the logistics data.
Therefore, the logistics data of each logistics participant is encrypted and then linked up to the block chain system, and the concern that each logistics participant divulges data is solved.
In some embodiments, the blockchain system includes a blockchain underlying platform, a blockchain network, a blockchain underlying architecture, and a terminal device. Wherein:
the block chain bottom platform is used for realizing uplink storage of logistics data.
The blockchain network is used for realizing point-to-point data transmission and providing a networked communication environment.
The blockchain underlying architecture is used to form a blockchain network.
The terminal equipment is used for supporting the block chain bottom platform, the block chain network and the block chain bottom framework.
The block chain underlying platform of the block chain system can adopt an open source block chain platform based on Hyperridge, for example, the open source block chain platform of Hyperridge is a super financial book technical platform of Linux foundation, and is a block chain platform based on digital encryption, consensus algorithm and distributed storage, so that a block chain network of a union chain with powerful supervision can be established, and related operations of data chaining and evidence storage are realized.
The block chain network can be deployed on the basis of hyper-tree Fabric alliance link points, is used for distributed data storage, achieves point-to-point transmission, an encryption technology and a common recognition mechanism of a packaging bottom layer and the like, achieves related operations of data uplink and evidence storage, provides logistics data and benefit distribution result data, achieves the purposes of being incapable of being tampered and permanently stored after uplink, and achieves the purpose of traceability when disputes occur among logistics participants. As shown in fig. 2, the alliance link node includes a data node, a consensus node and a service node, where the data node is used for data access, the consensus node is used for implementing a consensus algorithm, the service node is used for providing services for various logistics participants, and the logistics participants at least include a logistics service enterprise, a warehousing enterprise and a delivery network.
The block chain bottom layer architecture adopts, for example, a HyperLegendr Fabric architecture, and a data layer, a network layer, a consensus layer, an excitation layer, a contract layer and an application layer are sequentially arranged from the bottom layer to the top layer.
The intelligent contract service layer is used for creating intelligent contracts, storing the intelligent contracts and operating the intelligent contracts so as to store the pre-uplink preprocessing uplink stored in the logistics data platform into the block chain system.
The intelligent contract service layer opens a contract source code, abi byte codes and an intelligent contract address for creating an intelligent contract, storing the intelligent contract and operating the intelligent contract. Preferably, the intelligent contract service layer adopts a chain code structure of HyperLegger Fabric 1.0 to provide services such as packaging, installation, instantiation, upgrading and the like of the chain code.
The logistics data uploaded to the block chain system by each logistics participant are subject to the constraint of an intelligent contract, and only the data meeting the requirement of the intelligent contract condition can be successfully uploaded. As shown in fig. 3 and 4, each logistics participant formulates agreement clause content according to actual requirements, and creates an intelligent contract according to the agreement clause content to form a preset trigger condition for data processing. And the created intelligent contract is compiled, packaged and deployed to each node in the block chain network.
And when the logistics data are uploaded, judging whether the logistics data meet the uploading condition or not by executing an intelligent contract. If the logistics data (such as package collecting data, warehouse entering and exiting data, delivery data and the like) uploaded by the current logistics participants meet the uploading condition of the intelligent contract, the logistics data can be uploaded. And if the logistics data uploaded by the current logistics participants do not accord with the uploading condition of the intelligent contract, the uploading request is rejected.
In some embodiments, the storage of logistics data for the blockchain system is as follows:
receiving logistics data and broadcasting the logistics data to the whole network;
after the logistics data are confirmed through an encryption algorithm and a consensus algorithm, a block is formed;
after the formed block is broadcasted to the whole network, whether the block is effective is determined through a consensus node;
after the acknowledgement by the consensus node, the block is added to the blockchain.
As shown in fig. 5, in some embodiments, the block includes a block head and a block body. The block header includes a corresponding block version number for recording information such as a key, a random number, and a time stamp between two blocks. The block body comprises package encryption of logistics data, an information body in the data corresponds to an independent secret key, the information before encryption is mastered by the enterprise to be substantial, and the encrypted information is only used for contribution tracing and problem tracing during benefit distribution.
The invention discloses a benefit distribution system in a logistics sharing operation platform benefit distribution system based on a block chain, which is used for realizing automatic distribution of benefits, wherein:
the data verification module is used for acquiring logistics data from the block chain system and completing verification of the data.
The benefit distribution intelligent contract module is used for creating a benefit distribution intelligent contract and operating the benefit distribution intelligent contract based on the verified logistics data to generate a benefit distribution result.
And the benefit distribution module is used for completing benefit distribution to each logistics participant based on the benefit distribution result.
The interest distribution intelligent contract is created based on the interest distribution rule predetermined by each logistics participant, and is pre-deployed on each node of the blockchain network. And a benefit distribution preset trigger condition is arranged in the benefit distribution intelligent contract. For example, the triggering condition is the first day of each month, when the triggering condition is met, the profit sharing intelligent contract is automatically executed, the contribution degree corresponding to each logistics participant is calculated by counting the workload information and the paid resource information of each logistics participant in the last month based on the logistics data, and then the final profit sharing result is obtained based on the contribution degree of each logistics participant and the profit sharing rule predetermined by each logistics participant.
And finally, the benefit distribution module completes the benefit distribution of each logistics participant.
The benefit distribution result uplink system of the logistics sharing operation platform based on the block chain is used for realizing uplink storage of the benefit distribution result, so that traceability of the benefit distribution result is realized.
The distribution result consensus module is used for realizing consensus of all the logistics participants on the benefit distribution result, namely all the logistics participants confirm that the distribution benefit is received and agree with the distribution result.
The benefit distribution result uplink module is used for storing the commonly identified benefit distribution result data to the block chain system.
Example (b): benefit distribution method of logistics sharing operation platform based on block chain
Fig. 7 shows an execution flow of the benefit allocation method for the block chain-based logistics sharing operation platform in this embodiment.
As shown in fig. 7, the specific steps of the benefit allocation method for the logistics shared operation platform based on the block chain in this embodiment are as follows:
step S1, collecting logistics data of logistics participants participating in the logistics sharing operation platform;
step S2, preprocessing the collected logistics data before chain winding;
step S3, storing the preprocessed logistics data to a block chain system;
step S4, acquiring logistics data from the blockchain system and completing verification of the data,
step S5, operating the benefit distribution intelligent contract based on the verified logistics data to generate a benefit distribution result;
step S6, all logistics participants identify the benefit distribution result;
step S7, store the result data of the consensus interest allocation to the blockchain system.
Since the benefit allocation method of the logistics sharing operation platform based on the blockchain in this embodiment is consistent with the technical principle of the benefit allocation system of the logistics sharing operation platform based on the blockchain in the foregoing embodiment, when the benefit allocation method of the logistics sharing operation platform based on the blockchain is introduced, repeated parts are simplified or omitted, and the simplified or omitted parts may refer to the related description of the benefit allocation system of the logistics sharing operation platform based on the blockchain in the foregoing embodiment.
The invention utilizes the block chain technology to perform creative upgrade on the traditional logistics sharing operation platform, stores logistics data generated by each participant into a block chain system, and realizes automatic benefit distribution by executing a benefit distribution intelligent contract.
Compared with the traditional distribution mechanism of the logistics sharing operation platform, the invention realizes the public, transparent and tamper-free benefit distribution and solves the problem of lack of trust mechanism among logistics participants. In addition, the logistics data and the benefit distribution result of each participant are stored in the block chain, so that the problem of traceability of responsibility of each link of each logistics process is solved.
The above embodiments disclosed are illustrative, and modifications and extensions of the above embodiments to other logistics sharing platform applications will be apparent to those skilled in the art in order to enable those skilled in the art to make or use the invention, and the general principles defined in the present invention may be applied in other embodiments without departing from the spirit or scope of the invention. Therefore, the present invention is not intended to be limited to the embodiments shown above but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.
Claims (10)
1. A block chain based logistics sharing operation platform benefit distribution system is characterized in that the benefit distribution system comprises a data storage system, a benefit distribution system and a benefit distribution result uplink system, wherein:
the data storage system comprises a data acquisition module, a data processing module and a block chain system, wherein the data acquisition module is used for acquiring logistics data of logistics participants participating in the logistics shared operation platform, the data processing module is used for preprocessing the acquired logistics data before chain winding, and the block chain system is used for storing the preprocessed logistics data;
the benefit distribution system comprises a data verification module, a benefit distribution intelligent contract module and a benefit distribution module, wherein the data verification module is used for acquiring logistics data from the blockchain system and completing verification of the data, the benefit distribution intelligent contract module is used for creating a benefit distribution intelligent contract and running the benefit distribution intelligent contract based on the verified logistics data to generate a benefit distribution result, and the benefit distribution module is used for completing benefit distribution to each logistics participant based on the benefit distribution result;
the benefit distribution result uplink system comprises a benefit distribution result consensus module and a benefit distribution result uplink module, wherein the distribution result consensus module is used for realizing consensus of each logistics participant on benefit distribution results, and the benefit distribution result uplink module is used for storing the consensus benefit distribution result data to the block chain system.
2. The benefits distribution system of claim 1, wherein said pre-uplink preprocessing comprises data validation, data format processing, and data encryption.
3. The benefits allocation system of claim 1, wherein said blockchain system comprises a blockchain underlying platform, a blockchain network, a blockchain underlying architecture, a terminal device. Wherein:
the block chain bottom platform is used for realizing uplink storage of the logistics data;
the block chain network is used for realizing point-to-point data transmission and providing a networked communication environment;
the block chain bottom layer structure is used for forming a block chain network;
the terminal equipment is used for supporting a block chain bottom platform, a block chain network and a block chain bottom framework.
4. The benefits distribution system of claim 3, wherein:
the block chain system is deployed on the basis of HyperLegendr Fabric alliance chain nodes, wherein the nodes comprise data nodes, consensus nodes and service nodes, the data nodes are used for data access, the consensus nodes are used for realizing a consensus algorithm, and the service nodes are used for providing services for the logistics participants;
the logistics participants comprise logistics service enterprises, warehousing enterprises and delivery outlets.
5. The benefits distribution system of claim 4, wherein:
the block chain bottom layer architecture adopts a HyperLegger Fabric architecture, and a data layer, a network layer, a consensus layer, an excitation layer, a contract layer and an application layer are sequentially arranged from the bottom layer to the top layer;
the intelligent contract service layer adopts a chain code structure of HyperLegger Fabric 1.0.
6. The benefits distribution system of claim 1, wherein: the logistics data comprise parcel pickup data, transport vehicle scheduling data, parcel in-out warehouse data and parcel delivery data.
7. The benefits distribution system of claim 1, wherein: the data storage process of the block chain system is as follows:
receiving logistics data and broadcasting the logistics data to the whole network;
after the logistics data are confirmed through an encryption algorithm and a consensus algorithm, a block is formed;
after the formed block is broadcasted to the whole network, whether the block is effective is determined through all the common identification nodes;
after the acknowledgement by the consensus node, the block is added to the blockchain.
8. The benefits distribution system of claim 7, wherein the block comprises a block header and a block body, wherein the block header comprises a corresponding block version number for recording a key, a random number and a time stamp between two blocks, and the block body comprises the encapsulated and encrypted logistics data.
9. The benefits distribution system of claim 1, wherein: the logistics participant of the logistics sharing operation platform further comprises other supporting mechanisms, and the other supporting mechanisms comprise management departments, banks and insurance companies.
10. A benefit distribution method for a block chain based logistics shared operation platform, which is implemented by the benefit distribution of the block chain based logistics shared operation platform of any one of claims 1 to 9, wherein the benefit distribution method comprises:
collecting logistics data of logistics participants participating in the logistics sharing operation platform;
preprocessing the collected logistics data before chain winding;
storing the preprocessed logistics data to a block chain system;
acquiring logistics data from the block chain system and completing verification of the data,
running a benefit distribution intelligent contract based on the verified logistics data to generate a benefit distribution result;
all logistics participants agree on the benefit distribution result;
and storing the identified benefit distribution result data to the blockchain system.
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