JP2021068429A - Urban construction waste monitoring method, system and storage medium based upon block chain - Google Patents

Abstract

To provide an urban construction waste monitoring method, system and storage medium based upon a block chain that enables tracking, can prevent forgery, and has high security and reliability.SOLUTION: The present invention relates to an urban construction waste monitoring method that is based upon a block chain and that comprises the steps of: establishing an urban construction waste monitoring alliance chain which can mutually connect and mutually communicate trace information; acquiring trace information on each node in a flow of all processes for urban construction wastes; performing decentralized accounting of the trace information; and monitoring and tracing the urban construction wastes by an integrated tracing interface according to a decentralized accounting result.SELECTED DRAWING: Figure 1

Description

The present invention relates to the technical field of blockchain, and particularly to blockchain-based urban construction waste monitoring methods, systems and storage media.

China's urban government sector has little inadequate management of construction waste, as China's urbanization process accelerates and large-scale renewal and remodeling of cities produces large amounts of urban construction waste. In addition, multiple departments may manage separately without cooperating with each other, and as a result, the illegal dumping phenomenon in the suburbs of the city becomes serious. Illegal dumping of urban construction waste not only leads to resource waste, but also leads to serious environmental pollution. It is very difficult to establish an integrated whole process monitoring system because the monitoring of urban construction waste involves multiple departments such as construction, public safety and transportation, urban management, and environmental protection, and many of them are involved. The focus of current surveillance is that the first is the transportation process, which strictly prohibits the illegal dumping of construction waste, and the second is the final destination, which is the storage of construction waste with administrative permission. I will guide you to the place. The urban construction waste monitoring problem can be summarized as follows. (1) Lack of data collection, storage and tampering prevention measures at each node of urban construction waste information, (2) Each node of a company involved in the generation, transportation, storage, collection and utilization of urban construction waste Lack of trust mechanism, (3) Lack of tracking method for illegal dumping of urban construction waste.

Blockchain technology has characteristics such as transparency, reliability, tamper protection, traceability, and decentralization that can effectively solve trust problems between government sectors or companies, making information more open and transparent, and cities. Construction waste treatment data can be traced, making it easier to track down the root cause of problems, blockchain data information can prevent illegal dumping, remove information barriers, and make information easier for department nodes. Inquiries can be made, thereby improving the work efficiency of the government sector or companies.

However, at present, there are no reports on related articles applying blockchain technology to the field of urban construction waste monitoring.

Chinese Patent Application Publication No. 108600301

The present invention relates to the technical field of blockchain, and particularly to a cross-chain method between blockchains and a main blockchain. A cross-chain method between blockchains, in one cross-chain operation, there is one main blockchain and one target blockchain, and there is at least one sender in each of the main blockchain and the target blockchain. However, the methods are the step of searching for matching information, the step of creating a trigger transaction, the step of determining whether or not the monitoring subchain unlocks, the step of successful unlocking, and the step of unlocking failing. Including steps. The present invention further discloses the main blockchain and includes a smart contract module and a monitoring subchain module. The cross-chain method has no special requirements on the target blockchain, can realize a cross-chain operation between the main blockchain and all other blockchains, and can realize transaction T in the main blockchain and in the target blockchain. The effect of executing or not executing transaction T'at the same time is realized, and the monitoring subchain module of the main blockchain can automatically trigger the unlocking process of transaction T in the main blockchain, crossing. Achieve automation of chain operation.

In view of the above circumstances, embodiments of the present invention provide blockchain-based urban construction waste monitoring methods, systems and storage media that are traceable, tamper-proof, secure and reliable.

According to the first aspect, an embodiment of the present invention provides a blockchain-based method for monitoring urban construction waste.
Steps to establish an urban construction waste monitoring alliance chain that can interconnect and communicate tracking information,
Acquires tracking information of each node in the flow of the entire process of urban construction waste, and the nodes are construction side node, transportation side node, public safety traffic police department node, environment and city management department node, waste storage node, A step that includes one or more of the collection / utilization node and the construction administration department node, and
The step of decentralized accounting of the tracking information and
Includes steps to monitor and track urban construction waste with an integrated tracking interface, depending on the decentralized accounting results.

Furthermore, the information initialization step further includes the information initialization step.
Steps to integrally encode the types of urban construction waste,
Steps to comprehensively mark the urban construction waste using RFID / barcode,
Steps to mark RFID / barcode collectors in an integrated manner,
Steps to integrally encode and describe urban construction waste monitoring events on each node,
Includes steps to define a tracking interface for urban construction waste monitoring events within each of the nodes.

In addition, the steps to introduce the information and description of each node of the whole process of the urban construction waste into the tracking system,
It further includes a step of generating a hash value of the information and description and uploading the hash value to the distributed ledger of the blockchain.

In addition, the step of acquiring tracking information of each node in the flow of the whole process of the urban construction waste is
Steps to track and collect data information for each node in the flow of the entire process of urban construction waste,
It includes a step of saving the collected data information of each node in the distributed ledger of the blockchain.

Further, the step of decentralized accounting of the tracking information is
A step of performing ID authentication for each node and generating a key pair including a private key and a public key for each node after successful authentication.
When submitting an application for external transportation of urban construction waste and an order form, the construction side node generates a digital signature according to the urban construction waste information and the private key of the construction side node, and then the construction side node applies the digital signature. Send it to the construction administration department node with the public key of, then write the corresponding time stamp to the block alliance chain, and finally broadcast the time stamp to other nodes in the alliance chain.
The construction administration department node obtains the urban construction waste external transportation application and purchase order information of the construction side node by the alliance chain, then calculates the hash value of the application and purchase order information, and then externally transports by the blockchain. Obtain the digital signature of the application, obtain the purchase order submitted by the construction side node, and then generate the digital fingerprint and transaction time stamp according to the examination information, transportation route and the next node after the examination is successful, and the digital The step of writing the fingerprint and time stamp to the block alliance chain and finally broadcasting the digital fingerprint and time stamp to the department node where the current transportation transmission path passes.
After the transportation node obtains the transportation information of urban construction waste through the alliance chain, the transportation order number, the name of the person in charge of transportation, the number plate number of the transportation vehicle, the transportation vehicle photo, the transportation driver photo, the transportation freight photo, and the transportation start. A digital signature is generated according to the transportation information including the time and the geographical location of the transportation vehicle and the private key of the transporting node, and the digital signature and the corresponding time stamp are written to the block alliance chain, and finally the digital. The step of broadcasting the signature and the corresponding timestamp to other nodes in the alliance chain,
After acquiring the information broadcast from the transportation side node by the alliance chain, the environment and city management department node monitors the transportation side operation route and environmental pollution status in real time, and digitally signs according to the monitoring result and the private key of this node. And write the digital signature to the block alliance chain with the corresponding time stamp, and finally broadcast the digital signature and the corresponding time stamp to other nodes in the block alliance chain.
After acquiring the broadcast node information by the alliance chain, the storage node has the storage node information including the arrival time of urban construction waste, automatic weighing information, classification inspection information and water content detection information, and the private key of the storage node. With the step of generating a digital signature according to the above, writing the digital signature and the corresponding time stamp to the block alliance chain, and finally broadcasting the digital signature and the corresponding time stamp to other nodes in the block alliance chain. ,
After acquiring the storage node information by the alliance chain, the collection / use node describes the urban construction waste collection / use information, and then generates a digital signature according to the private key of the collection / use node, and digitally. It includes the step of writing the signature to the block alliance chain with the corresponding time stamp and finally broadcasting the digital signature and the corresponding time stamp to all department nodes in the block alliance chain.

According to a second aspect, an embodiment of the present invention provides a blockchain-based urban construction waste monitoring system, comprising a data collection system, a blockchain background management system and a tracking inquiry system.
The data collection system collects data by scanning RFID tags and GPS positioning system for the data generated, transported, collected, and used of urban construction waste.
Blockchain background management system includes construction side management subsystem, transportation management subsystem, construction administration supervising department management subsystem, public safety traffic police department management subsystem, environment and city management department management subsystem, storage area management subsystem, And equipped with a collection / use site management subsystem, the collected data is stored in the blockchain, and the tracking information of urban construction waste is stored.
The tracking inquiry system queries the tracking information of the flow of the entire process of urban construction waste by the private key.

In addition, the construction side management subsystem, when submitting an application for external transportation of urban construction waste and an order form, generates a digital signature according to the urban construction waste information and the private key of the construction side node, and subsequently, the above-mentioned The digital signature is sent to the construction administration department node together with the public key of the construction side node, then the corresponding time stamp is written to the block alliance chain, and finally the time stamp is broadcast to other nodes in the alliance chain. ,
The construction administration supervising department management subsystem obtains the urban construction waste external transportation application and purchase order information of the construction side node by the alliance chain, then calculates the hash value of the application and purchase order information, and then blocks. Obtain the digital signature of the external transportation application by the chain, obtain the purchase order submitted by the construction side node, and then generate the digital fingerprint and transaction time stamp according to the examination information, transportation route and the next node after the examination is successful. Then, write the digital fingerprint and time stamp to the block alliance chain, and finally broadcast the digital fingerprint and time stamp to the department node where the current transportation transmission path passes.
After acquiring the urban construction waste transportation information by the alliance chain, the transportation management subsystem obtains the transportation order number, the name of the person in charge of transportation, the number plate number of the transportation vehicle, the transportation vehicle photograph, the transportation driver photograph, and the transportation freight photograph. Generates a digital signature according to the transportation information including the transportation start time and the geographical location of the transportation vehicle and the private key of the transportation side node, writes the digital signature and the corresponding time stamp in the block alliance chain, and finally. , Broadcast the digital signature and the corresponding time stamp to other nodes in the alliance chain,
After acquiring the information broadcast from the transport side node by the alliance chain, the environment and city management department management subsystem monitors the transport side operation route and environmental pollution status in real time, and uses the monitoring result and the secret key of this node. A digital signature is generated accordingly, the digital signature is written to the block alliance chain with the corresponding time stamp, and finally the digital signature and the corresponding time stamp are broadcast to other nodes in the block alliance chain.
After acquiring the broadcast node information by the alliance chain, the storage area management subsystem obtains the storage area node information including the arrival time of urban construction waste, automatic measurement information, classification inspection information, and water content detection information, and the storage area. Generate a digital signature according to the private key of the node, write the digital signature and the corresponding time stamp to the block alliance chain, and finally write the digital signature and the corresponding time stamp to other nodes in the block alliance chain. Broadcast and
The collection / use site management subsystem acquires the storage area node information through the alliance chain, describes the urban construction waste collection / use information, and then digitally signs it according to the private key of the collection / use site node. Generate and write the digital signature to the block alliance chain with the corresponding time stamp, and finally broadcast the digital signature and the corresponding time stamp to all department nodes in the block alliance chain.

According to a third aspect, embodiments of the present invention further provide a blockchain-based urban construction waste monitoring system.
With at least one processor
With at least one memory for storing at least one program,
When the at least one program is executed by the at least one processor, the at least one processor realizes the blockchain-based urban construction waste monitoring method.

According to a fourth aspect, an embodiment of the present invention further provides a storage medium, a processor executable instruction is stored, and when the processor executable instruction is executed by the processor, the blockchain-based urban construction waste. Execute the monitoring method.

One or more of the above embodiments of the present invention have the following advantages. The present invention can support tracking of all process information of urban construction waste in all processes of all alliance chains, and efficiently and safely track monitoring events in important processes of generation, transportation, storage, collection and utilization. It can be collected to realize the decentralization and tampering prevention of the memory of the monitoring event tracking information on the important node, solve the trust problem between the government and the enterprise, make the information more open and transparent, and make the information inquiry. It will be easier and work efficiency will be improved.

It is a flowchart of all the processes of the Example of this invention. It is a monitoring flowchart applied to the urban construction waste tracking of the embodiment of this invention. It is a logical architecture diagram of the system of the Example of this invention. It is a node relationship diagram of the Example of this invention.

Hereinafter, the present invention will be further described with reference to the specification drawings and specific examples. Although the step numbers in the examples of the present invention are simply set for convenience of explanation, the order between the steps is not limited, and the execution order of each step in the examples can be appropriately adjusted according to the understanding of those skilled in the art.

As shown in FIGS. 1 and 2, embodiments of the present invention provide a blockchain-based method for monitoring urban construction waste, specifically including steps S001-S004.

Step S001: Establish a construction waste monitoring alliance chain capable of interconnecting and communicating tracking information.

Specifically, in this embodiment, it is necessary to perform ID authentication for each department node, and after the authentication is successful, a key pair including a private key and a public key is generated in each department node.

The information initialization step further includes an information initialization step, and the information initialization step includes steps S0011 to S0015.

S0011: Integratedly encodes the type of urban construction waste.

S0012: RFID / barcodes are used to mark the urban construction waste in an integrated manner.

S0013: Marks RFID / barcode collectors in an integrated manner.

S0014: The urban construction waste monitoring event of each node is integrally encoded and described.

S0015: Defines a tracking interface for each node urban construction waste monitoring event.

Step S002: Each node of the entire construction waste process (construction side node, transportation side node, public safety traffic police department node, environment and city management department node, storage node, collection / utilization site node, and construction administration supervision department node. Etc.) to collect and store tracking information.

Specifically, the step S002 includes steps S0021 to S0025.

Step S0021: At the stage of urban construction waste generation, the construction side worker attaches the RFID tag to the urban construction waste according to the urban construction waste generated at the construction site, and the construction person attaches the RFID tag to the urban construction waste by the handheld RFID reader. After a successful scan, log in to your account and collect on-going information, including information on urban construction waste type, weight, date of occurrence, person in charge, photos, surveillance videos, etc.

Step S0022: At the urban construction waste external transportation examination stage, the urban construction management department examines the amount of waste generated on the construction side.

Step S0023: In the urban construction waste transportation stage, the transporter scans the RFID tag and logs in, and then transports, transport order number, transporter's name, transport vehicle license plate number, transport vehicle photo, transport. Collect data such as driver photographs and freight photographs. The RFID fixed reader at the gate of the construction site may collect the time when the vehicle leaves the construction site as the transportation start time, and may further collect the geographical position of the transportation vehicle in combination with GIS / GPS.

Step S0024: In the urban construction waste storage stage, when the transport vehicle passes through the gate of the storage area, the fixed reader reads the RFID tag and collects the current time as the transport end time. The person in charge of the storage area inspects the urban construction waste and stores it in the storage area. After logging in with a handheld RFID reader, collect information such as storage weight, type, person in charge, time, photo, landfill, etc. of urban construction waste.

Step S0025: At the urban construction waste collection / utilization stage, the collection / utilization site collects data information on the collection / utilization status and analysis of urban construction waste.

Step S003: Each department node stores the data information collected at each stage in the database, transmits it to the blockchain background system, and performs decentralized accounting.

Step S0031: Establish a block alliance chain, which is mainly a construction side node, a transportation side node, a public security traffic police department node, an environment and city management department node, a storage node, a collection / utilization site node, and a construction administration. Includes supervising department nodes, etc.

Step S0032: ID authentication is performed for each department node, and after the authentication is successful, a key pair including a private key and a public key is generated in each department node.

Step S0033: When the construction side node submits an application for external transportation of urban construction waste and an order form (generation amount, type, treatment method, etc.), it generates a digital signature together with the urban construction waste information and the construction side private key and publishes it. Send it with the key to the construction administration department node, write it to the blockchain with the corresponding time stamp, and then broadcast it to other department nodes in the block alliance chain.

Step S0034: The construction administration supervising department node acquires the urban construction waste external transportation application and purchase order information of the construction side node by the block alliance chain, then calculates the hash value of the application and purchase order, and is acquired by the block chain. Compare the digital signatures of the applications, if the comparison is successful, extract the current information, review the external transportation order submitted by the construction side, and if the examination is successful, go to the examination information, transportation route and the next department node. In response, it generates a digital fingerprint, writes it to the blockchain along with the transaction time stamp, and broadcasts it to the department node where the current transportation transmission route passes.

Step S0035: After the transport side node acquires the urban construction waste transportation information by the block alliance chain, the transporter is the transport order number, the name of the transporter, the license plate number of the transport vehicle, the transport vehicle photo, and the transport driver. Digital according to the information such as the time when the vehicle leaves the construction site, the geographical position of the transportation vehicle collected by GIS / GPS, and the private key on the transportation side, which is collected as the transportation start time by the photograph, the transportation cargo photograph, and the RFID fixed reader. Generates a signature, writes it to the block alliance chain with a timestamp, and then broadcasts it to other nodes in the block alliance chain.

Step S0036: The environment and city management department node acquires the transportation side node information by the block alliance chain, and then monitors the status such as the transportation side operation route and the presence or absence of environmental pollution in real time, and uses the monitoring result and the private key of this node. It generates a digital signature accordingly, writes it to the blockchain with a time stamp, and then broadcasts it to other nodes in the block alliance chain.

Step S0037: After the storage node acquires the above node information by the block alliance chain, the storage staff responds to the information such as the arrival time of urban construction waste, automatic weighing, classification inspection, water content detection, and the storage secret key. The digital signature generated by the above is written to the block alliance chain together with the time stamp, and then broadcast to other nodes in the block alliance chain.

Step S0038: The collection / use node acquires the storage node information by the block alliance chain, then describes and analyzes the urban construction waste collection / use information, and generates a digital signature together with the collection / use node private key. , Write to the blockchain with a time stamp and broadcast to all department nodes in the block alliance chain.

Further, as a preferred embodiment, before step S003, in this embodiment, the information and description of each node of the entire process of the urban construction waste are introduced into the tracking system, and the hash value of the generated information and description is introduced. Is uploaded to the distributed ledger of the blockchain.

Step S004: The block alliance chain consensus algorithm technology allows personnel at each stage to access the block alliance chain system, referencing important data on each node of urban construction waste as tracking information, and once a problem is found. Or, if an error occurs in important information, or if the transportation route does not match, immediately follow up to the previous stage, track until the problematic part is found, and which stage is the main responsibility. And process it in a timely manner.

As shown in FIG. 3, an embodiment of the present invention further provides a monitoring system, which is a data collection layer, a processing storage layer and a tracking inquiry layer, respectively, and the data collection system generates and transports urban construction waste. For the data being collected and used, the data of urban construction waste is collected by scanning the RFID tag and GPS positioning system, and the blockchain management system is the construction side management subsystem, transportation management subsystem, construction administration supervision department. Equipped with management subsystem, public safety traffic police department management subsystem, environment and city management department management subsystem, storage area management subsystem, and collection / use site management subsystem, the blockchain background system has blockchain tamper-proof characteristics. The data transmitted from the blockchain management subsystem is stored in the blockchain, important tracking information of urban construction waste is stored, and the tracking inquiry layer is constructed by the person in charge or the project manager with the private key. Query the flow tracking information for the entire waste process.

As shown in FIG. 4, further, as a preferred embodiment, each node of the urban construction waste monitoring of the present invention includes one or more nodes of generation, transportation, collection, utilization, monitoring, for example, a master node. Authentication server, construction side node, transportation side node, public safety traffic police department node, environment and city management department node, storage area (only stores or landfills urban construction waste) node, collection / use site node, and Includes nodes in the department in charge of construction administration.

The embodiments of the present invention also provide a blockchain-based urban construction waste monitoring system, comprising a data collection system, a blockchain background management system, and a tracking inquiry system.
The data collection system collects data by scanning RFID tags and GPS positioning system for the data generated, transported, collected, and used of urban construction waste.
Blockchain background management system includes construction side management subsystem, transportation management subsystem, construction administration supervising department management subsystem, public safety traffic police department management subsystem, environment and city management department management subsystem, storage area management subsystem, And equipped with a collection / use site management subsystem, the collected data is stored in the blockchain, and the tracking information of urban construction waste is stored.
The tracking inquiry system queries the tracking information of the flow of the entire process of urban construction waste by the private key.

Further, as a preferred embodiment, the construction side management subsystem generates a digital signature according to the city construction waste information and the private key of the construction side node when submitting an application for external transportation of urban construction waste and an order form. Then, the digital signature is transmitted to the construction administration department node together with the public key of the construction side node, then the corresponding time stamp is written in the block alliance chain, and finally, the time stamp is written in the alliance chain. Broadcast to the node of
The construction administration supervising department management subsystem obtains the urban construction waste external transportation application and purchase order information of the construction side node by the alliance chain, then calculates the hash value of the application and purchase order information, and then blocks. Obtain the digital signature of the external transportation application by the chain, obtain the purchase order submitted by the construction side node, and then generate the digital fingerprint and transaction time stamp according to the examination information, transportation route and the next node after the examination is successful. Then, write the digital fingerprint and time stamp to the block alliance chain, and finally broadcast the digital fingerprint and time stamp to the department node where the current transportation transmission path passes.
After acquiring the urban construction waste transportation information by the alliance chain, the transportation management subsystem obtains the transportation order number, the name of the person in charge of transportation, the number plate number of the transportation vehicle, the transportation vehicle photograph, the transportation driver photograph, and the transportation freight photograph. Generates a digital signature according to the transportation information including the transportation start time and the geographical location of the transportation vehicle and the private key of the transportation side node, writes the digital signature and the corresponding time stamp in the block alliance chain, and finally. , Broadcast the digital signature and the corresponding time stamp to other nodes in the alliance chain,
After acquiring the information broadcast from the transport side node by the alliance chain, the environment and city management department management subsystem monitors the transport side operation route and environmental pollution status in real time, and uses the monitoring result and the secret key of this node. A digital signature is generated accordingly, the digital signature is written to the block alliance chain with the corresponding time stamp, and finally the digital signature and the corresponding time stamp are broadcast to other nodes in the block alliance chain.
After acquiring the broadcast node information by the alliance chain, the storage area management subsystem obtains the storage area node information including the arrival time of urban construction waste, automatic measurement information, classification inspection information, and water content detection information, and the storage area. Generate a digital signature according to the private key of the node, write the digital signature and the corresponding time stamp to the block alliance chain, and finally write the digital signature and the corresponding time stamp to other nodes in the block alliance chain. Broadcast and
The collection / use site management subsystem acquires the storage area node information through the alliance chain, describes the urban construction waste collection / use information, and then digitally signs it according to the private key of the collection / use site node. Generate and write the digital signature to the block alliance chain with the corresponding time stamp, and finally broadcast the digital signature and the corresponding time stamp to all department nodes in the block alliance chain.

The embodiments of the present invention further provide a blockchain-based urban construction waste monitoring system.
With at least one processor
With at least one memory for storing at least one program,
When the at least one program is executed by the at least one processor, the at least one processor realizes the blockchain-based urban construction waste monitoring method.

Any of the contents of the examples of the above method can be applied to the examples of this system, and the functions specifically realized by the examples of this system are the same as those of the examples of the above method, and the benefits to be achieved. The effect is the same as the beneficial effect achieved by the embodiment of the above method.

An embodiment of the present invention further provides a storage medium, stores processor-executable instructions, and executes the blockchain-based urban construction waste monitoring method when the processor-executable instructions are executed by the processor.

In some selectable embodiments, the functions / operations associated with the block diagram do not have to occur in the order shown in the operation diagram. For example, depending on the function / operation, the two blocks shown consecutively may actually be executed at about the same time, or the blocks may be executed in opposite order. Also, the examples shown and described in the flowchart of the present invention are provided exemplary and are intended to provide a more complete understanding of the art. The disclosed methods are not limited to the operations and logical flows presented herein. Selectable embodiments are conceivable, the order of the various operations is changed, and the sub-operations described as part of the major operations are performed independently.

Further, although the present invention has been described in the context of functional modules, one or more of the functions and / or features may be integrated in one physical device and / or software module unless otherwise described. It should be understood that one or more functions and / or features may be implemented in a single physical device or software module. A detailed description of the implementation of each module is unnecessary for understanding the present invention. More precisely, if the attributes, functions and internal relationships of the various functional modules of the device disclosed herein are taken into account, the implementation of the modules will be understood within the engineer's known art. Therefore, those skilled in the art can realize the present invention described in the claims by using only well-known techniques without repeating tests. Furthermore, the specific concepts disclosed are exemplary and do not limit the scope of the invention, the scope of the invention being defined according to the scope of the appended claims and the full scope of their equivalent schemes.

When the function is realized in the form of a software function unit and sold or used as an independent product, it may be stored in a computer-readable storage medium. Based on this understanding, the technical proposal of the present invention may be embodied in the form of a software product, which is essentially or a part of the technical proposal that contributes to the prior art. It includes a plurality of instructions that are stored in a storage medium and cause a computer device (personal computer, server, network device, etc.) to perform all or part of the steps of the method of each embodiment of the present invention. The storage medium is a U disk, a mobile hard drive, a read-only memory (ROM, Read-Only Memory), a random access memory (RAM, Random Access Memory), a magnetic disk, a compact disk, or various other media capable of storing a program code. including.

The logic and / or steps shown in the flowchart or described herein in other forms can be considered, for example, as a sequence list of executable instructions for implementing a logical function, specifically on any computer readable medium. It may be realized and used in an instruction execution system, device or device (eg, a computer-based system, a system with a processor, or an instruction execution system, a system capable of reading and executing instructions from the device or device). , Or in combination with these instruction execution systems, devices or devices. As used herein, a "computer-readable medium" stores, stores, communicates, and propagates a program for use in or in combination with an instruction execution system, device, or device. Alternatively, it may be any device for transmission.

More specific examples (non-exhaustive lists) of computer-readable media are electrical continuations (electronic devices) with one or more wires, portable computer disk boxes (magnetic devices), random access memory (RAM), Includes read-only memory (ROM), erasable programmable read-only memory (EPROM or flash memory), fiber devices, and portable compact disk read-only memory (CDROM). The computer-readable medium may also be paper or other suitable medium on which the program can be printed, eg, optical scanning the paper or other medium, followed by editing, interpretation, or if necessary. The program is obtained electronically by processing with another appropriate method, and then stored in the computer memory.

Each part of the present invention may be realized by hardware, software, firmware or a combination thereof. In the above embodiment, the plurality of steps or methods may be implemented by software or firmware stored in memory and executed by an appropriate instruction execution system. For example, when implemented by hardware, a discrete logic circuit having a logic gate circuit that realizes a logic function for a data signal, an appropriate combination logic gate, which is a known technique in this field, as in another embodiment. It can be realized by any one or a combination of a special-purpose integrated circuit having a circuit, a programmable gate array (PGA), a field programmable gate array (FPGA), and the like.

In the description of the present specification, the description referring to the terms "one example", "some examples", "examples", "specific examples", "some examples", etc., refers to the examples or examples. It means that the specific features, structures, materials or features described in combination with are included in at least one embodiment or example of the present invention. In the present specification, the exemplary expressions of the above terms do not necessarily refer to the same embodiment or example. Also, the specific features, structures, materials or features described may be adequately combined in any one or more embodiments or examples.

Although examples of the present invention have been shown and described, those skilled in the art can make various changes, changes, substitutions and modifications to these examples without departing from the principles and gist of the present invention. , It can be understood that the scope of the present invention is defined by the scope of claims and their equivalents.

Although the preferred embodiment of the present invention has been described in detail above, the present invention is not limited to the above-described embodiment, and those skilled in the art can perform various equivalent modifications and substitutions without departing from the spirit of the present invention. , All of these equivalent modifications and substitutions fall within the scope of the claims of the present application.

Claims (9)

A blockchain-based urban construction waste monitoring method
Steps to establish an urban construction waste monitoring alliance chain that can interconnect and communicate tracking information,
Acquires tracking information of each node in the flow of the entire process of urban construction waste, and the nodes are construction side node, transportation side node, public safety traffic police department node, environment and city management department node, waste storage node, A step that includes one or more of the collection / utilization node and the construction administration department node, and
The step of decentralized accounting of the tracking information and
A blockchain-based urban construction waste monitoring method, characterized in that it includes steps to monitor and track urban construction waste through an integrated tracking interface, depending on decentralized accounting results. The information initialization step further includes an information initialization step.
Steps to integrally encode the types of urban construction waste,
Steps to comprehensively mark the urban construction waste using RFID / barcode,
Steps to mark RFID / barcode collectors in an integrated manner,
Steps to integrally encode and describe urban construction waste monitoring events on each node,
The blockchain-based urban construction waste monitoring method according to claim 1, further comprising a step of defining a tracking interface for an urban construction waste monitoring event in each node. The steps to introduce the information and description of each node of the whole process of urban construction waste into the tracking system,
The blockchain-based urban construction waste according to claim 1, further comprising generating a hash value of the information and description and uploading the hash value to the distributed ledger of the blockchain. Monitoring method. The step of acquiring the tracking information of each node in the flow of the whole process of the urban construction waste is
Steps to track and collect data information for each node in the flow of the entire process of urban construction waste,
The blockchain-based urban construction waste monitoring method according to claim 1, wherein the collected data information of each node is stored in a distributed ledger of the blockchain. The step of decentralized accounting of the tracking information is
A step of performing ID authentication for each node and generating a key pair including a private key and a public key for each node after successful authentication.
When submitting an application for external transportation of urban construction waste and an order form, the construction side node generates a digital signature according to the urban construction waste information and the private key of the construction side node, and then the construction side node applies the digital signature. Send it to the construction administration department node with the public key of, then write the corresponding time stamp to the block alliance chain, and finally broadcast the time stamp to other nodes in the alliance chain.
The construction administration department node obtains the urban construction waste external transportation application and purchase order information of the construction side node by the alliance chain, then calculates the hash value of the application and purchase order information, and then externally transports by the blockchain. Obtain the digital signature of the application, obtain the purchase order submitted by the construction side node, and then generate the digital fingerprint and transaction time stamp according to the examination information, transportation route and the next node after the examination is successful, and the digital The step of writing the fingerprint and time stamp to the block alliance chain and finally broadcasting the digital fingerprint and time stamp to the department node where the current transportation transmission path passes.
After the transportation node obtains the transportation information of urban construction waste through the alliance chain, the transportation order number, the name of the person in charge of transportation, the number plate number of the transportation vehicle, the transportation vehicle photo, the transportation driver photo, the transportation freight photo, and the transportation start. A digital signature is generated according to the transportation information including the time and the geographical location of the transportation vehicle and the private key of the transporting node, and the digital signature and the corresponding time stamp are written to the block alliance chain, and finally the digital. The step of broadcasting the signature and the corresponding timestamp to other nodes in the alliance chain,
After acquiring the information broadcast from the transportation side node by the alliance chain, the environment and city management department node monitors the transportation side operation route and environmental pollution status in real time, and digitally signs according to the monitoring result and the private key of this node. And write the digital signature to the block alliance chain with the corresponding time stamp, and finally broadcast the digital signature and the corresponding time stamp to other nodes in the block alliance chain.
After acquiring the broadcast node information by the alliance chain, the storage node has the storage node information including the arrival time of urban construction waste, automatic weighing information, classification inspection information and water content detection information, and the private key of the storage node. With the step of generating a digital signature according to the above, writing the digital signature and the corresponding time stamp to the block alliance chain, and finally broadcasting the digital signature and the corresponding time stamp to other nodes in the block alliance chain. ,
After acquiring the storage node information by the alliance chain, the collection / use node describes the urban construction waste collection / use information, and then generates a digital signature according to the private key of the collection / use node, and digitally. Claim 1 comprising writing the signature to the block alliance chain with the corresponding time stamp and finally broadcasting the digital signature and the corresponding time stamp to all department nodes in the block alliance chain. Urban construction waste monitoring method based on the blockchain described in. A blockchain-based urban construction waste monitoring system with a data collection system, blockchain background management system and tracking inquiry system.
The data collection system collects data by scanning RFID tags and GPS positioning system for the data generated, transported, collected, and used of urban construction waste.
Blockchain background management system includes construction side management subsystem, transportation management subsystem, construction administration supervising department management subsystem, public safety traffic police department management subsystem, environment and city management department management subsystem, storage area management subsystem, And equipped with a collection / use site management subsystem, the collected data is stored in the blockchain, and the tracking information of urban construction waste is stored.
The tracking inquiry system is a blockchain-based urban construction waste monitoring system characterized in that the tracking information of the flow of the entire process of urban construction waste is queried by a private key. When submitting an application for external transportation of urban construction waste and an order form, the construction side management subsystem generates a digital signature according to the urban construction waste information and the private key of the construction side node, and then the digital signature. Is sent to the construction administration department node together with the public key of the construction side node, then the corresponding time stamp is written to the block alliance chain, and finally the time stamp is broadcast to other nodes in the alliance chain.
The construction administration supervising department management subsystem obtains the urban construction waste external transportation application and purchase order information of the construction side node by the alliance chain, then calculates the hash value of the application and purchase order information, and then blocks. Obtain the digital signature of the external transportation application by the chain, obtain the purchase order submitted by the construction side node, and then generate the digital fingerprint and transaction time stamp according to the examination information, transportation route and the next node after the examination is successful. Then, write the digital fingerprint and time stamp to the block alliance chain, and finally broadcast the digital fingerprint and time stamp to the department node where the current transportation transmission path passes.
After acquiring the urban construction waste transportation information by the alliance chain, the transportation management subsystem obtains the transportation order number, the name of the person in charge of transportation, the number plate number of the transportation vehicle, the transportation vehicle photograph, the transportation driver photograph, and the transportation freight photograph. Generates a digital signature according to the transportation information including the transportation start time and the geographical location of the transportation vehicle and the private key of the transportation side node, writes the digital signature and the corresponding time stamp in the block alliance chain, and finally. , Broadcast the digital signature and the corresponding time stamp to other nodes in the alliance chain,
After acquiring the information broadcast from the transport side node by the alliance chain, the environment and city management department management subsystem monitors the transport side operation route and environmental pollution status in real time, and uses the monitoring result and the secret key of this node. A digital signature is generated accordingly, the digital signature is written to the block alliance chain with the corresponding time stamp, and finally the digital signature and the corresponding time stamp are broadcast to other nodes in the block alliance chain.
After acquiring the broadcast node information by the alliance chain, the storage area management subsystem obtains the storage area node information including the arrival time of urban construction waste, automatic measurement information, classification inspection information, and water content detection information, and the storage area. Generate a digital signature according to the private key of the node, write the digital signature and the corresponding time stamp to the block alliance chain, and finally write the digital signature and the corresponding time stamp to other nodes in the block alliance chain. Broadcast and
The collection / use site management subsystem acquires the storage site node information through the alliance chain, describes the urban construction waste collection / use information, and then digitally signs it according to the private key of the collection / use site node. Claim 6 comprises generating, writing the digital signature to the block alliance chain with the corresponding time stamp, and finally broadcasting the digital signature and the corresponding time stamp to all department nodes in the block alliance chain. Urban construction waste monitoring system based on the described blockchain. A blockchain-based urban construction waste monitoring system
With at least one processor
With at least one memory for storing at least one program,
When the at least one program is executed by the at least one processor, the at least one processor realizes the blockchain-based urban construction waste monitoring method according to any one of claims 1 to 5. A blockchain-based urban construction waste monitoring system featuring. It is a storage medium, and when the processor executable instruction is executed by the processor, the blockchain-based urban construction waste monitoring method according to any one of claims 1 to 5 is executed. Storage medium.

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