TW202403644A - Plant asset management method, management system, transaction method and transaction system wherein the planted plants can be used as a digital asset for transaction - Google Patents

Abstract

The present invention relates to a plant asset management method, management system, transaction method and transaction system. The plant asset management method includes the following steps: providing at least one token on a block chain network, wherein the token corresponds to one or more units of plants divided into at least one plant planting area; obtaining a growth increment of plants in the at least one plant planting area; establishing content information of at least one another token on the block chain network and issuing the at least one another token, wherein the at least one another token corresponds to at least a portion of one or more of the units divided by the growth increment; and adding the at least one another token and its content information to the distributed account book of the node in the block chain network.

Description

Plant asset management method, management system, transaction method and transaction system

The present invention relates to plant asset management; in particular, it refers to a plant asset management method, a plant asset management system, a plant asset trading method and a plant asset trading system that use blockchain technology to manage plant assets.

The development of science and technology has brought many conveniences to human life. However, the concentration of greenhouse gases produced by exhaust gases emitted by factories and vehicles has also increased. Greenhouse gases mainly include carbon dioxide, methane, nitrous oxide, and hydrofluoride. carbides, perfluorocarbons and sulfur hexafluoride. Greenhouse gases will cause global warming and global climate change, which will have a considerable impact on ecology and the environment. Currently, all countries around the world are committed to reducing greenhouse gas emissions.

Carbon dioxide is the most abundant greenhouse gas, and carbon dioxide can be converted into oxygen through photosynthesis by plants. However, with the increase in population and the demand for residential or industrial use, many lands that originally grew plants, such as forests, grasslands, etc., have also been extensively destroyed by humans and converted into residential or industrial land. As a result, the existing plants on the earth are not enough to be consumed. A lot of carbon dioxide.

Although CO2 can be consumed by growing a large number of plants, the technology of how to manage the planted plants as assets has yet to be developed.

In view of this, the purpose of the present invention is to provide a plant asset management method and a plant asset management system that can use planted plants as digital assets.

In view of this, the purpose of the present invention is to provide a plant asset trading method and a plant asset trading system, which can use planted plants as digital assets and conduct transactions.

In order to achieve the above objectives, the invention provides a plant asset management method, which includes the following steps:

A. Provide at least one token (Token) in a blockchain network. The blockchain network includes a plurality of nodes. The distributed ledgers of these nodes record the at least one token and its content information. The at least one token The content information of the certificate includes the quantity of one or more units divided by a plurality of plants in at least one plant planting area and the information of the plants in the corresponding units;

B. Obtain a growth increment of the plants in the at least one plant planting area;

C. Establish content information of at least one other pass on the blockchain network and issue the other at least one pass, wherein the at least one other pass corresponds to one or more of the growth increments divided by at least one part. Unit; the content information of the at least one other pass includes the quantity of the corresponding unit of the at least one other pass and the information of the plants of the corresponding unit;

D. Add the at least one other token and its content information to the distributed ledger of the nodes in the blockchain network.

The invention provides a plant asset management system, which includes a management node, an update device and an issuer device, wherein the management node is one of a plurality of nodes on a blockchain network, and the management node receives the corresponding A piece of content information of at least one token, the content information includes the number of one or more units divided by a plurality of plants and the information of the corresponding units of plants; the management node generates the content information corresponding to the at least one token At least one pass, and adding the at least one pass and its content information to the distributed ledger of the nodes in the blockchain network; the update device sets the plants corresponding to the at least one pass on the management node a growth data; the issuer device generates a growth increment based on the growth data, the issuer device sets content information of at least one other token and sends an issuance request to the management node;

The management node generates the at least one other pass based on the content information corresponding to the at least one other pass, and adds the at least one other pass and its content information to the distributed ledgers of the nodes in the blockchain network;

Among them, the at least one other pass is one or more units divided corresponding to at least a part of the growth increment; the content information of the at least one other pass includes the number and corresponding unit of the corresponding unit of the at least one other pass. plant information.

The invention provides a plant asset trading method, which includes the following steps:

A. Provide at least one token (Token) in a blockchain network. The blockchain network includes a plurality of nodes. The distributed ledgers of these nodes record the at least one token and its content information. The at least one token The content information of the certificate includes the quantity of one or more units divided by a plurality of plants in at least one plant planting area and the information of the plants in the corresponding units;

B. Obtain a growth increment of the plants in the at least one plant planting area;

C. Establish content information of at least one other pass on the blockchain network and issue the other at least one pass, wherein the at least one other pass corresponds to one or more of the growth increments divided by at least one part. Unit; the content information of the at least one other pass includes the quantity of the corresponding unit of the at least one other pass and the information of the plants of the corresponding unit;

D. Add the at least one other token and its content information to the distributed ledger of the nodes in the blockchain network;

E. Set a sales information that includes the at least one other token to be sold and the price to be sold;

F. Set a transaction request and conduct a transaction.

The invention provides a plant asset trading system, which includes a management node, an update device, an issuer device and a demander device, wherein,

The management node is one of a plurality of nodes on a blockchain network. The management node receives a content information corresponding to at least one token. The content information includes one or more units divided by a plurality of plants. The quantity and corresponding unit of plant information; the management node generates the at least one token based on the content information corresponding to the at least one token, and sends the at least: transaction request to conduct a transaction.

The effect of the present invention is that by dividing plants into plural units and issuing corresponding certificates on the blockchain network, the certificates connect the ownership of plants in the real environment, and the planted plants can be turned into digital assets. , and can further conduct transactions corresponding to plant tokens.

In order to illustrate the present invention more clearly, the preferred embodiments are described in detail below along with the drawings. Please refer to Figure 1, which is a plant asset management system 1 applied to the plant asset management method of the first preferred embodiment of the present invention. The plant asset management system 1 operates with a blockchain network 100. The blockchain The network 100 includes a plurality of nodes 101. The plant asset management system 1 includes a management platform 10, a management node 20, and an issuer device 30.

The management platform 10 and the management node 20 can be, for example, a computer, a workstation, a server, or a cloud host. The issuer device 30 may be, for example, a mobile device, a computer, a workstation, a server, or a cloud host.

The management platform 10 is connected to the blockchain network 100 and is used to provide the issuer of the token (Token) with content information to set the token. The management platform 10 may be a node in the blockchain network 100, but is not limited to this, and may not be a node in the blockchain network 100. The management platform 10 provides the token owner with the ability to interact with the smart contract corresponding to the token for management.

The management node 20 is a node 101 in the blockchain network 100. The management node 20 deploys a smart contract corresponding to the token to each node 101 in the blockchain network 100. The smart contract includes the corresponding Management restrictions of the token. The management restrictions of smart contracts may include: 1. Query the content information of the pass; 2. The owner of the pass can add and update the content information of the pass; 3. An authorized third party can access part of the content information of the pass (For example, a change of information) Add, query and update; 4. The owner can transfer and destroy the token he owns; 5. The authorized third party can transfer the token to the new owner and set the transfer quantity. In practice, smart contracts can also be designed to provide other appropriate management functions.

The issuer device 30 is operated by the token issuer and can be connected to the management platform 10 to set the content information of the token on the management platform 10 for issuance. In this embodiment, the issuer device 30 is independent of the blockchain network 100 and can be connected to the blockchain network 100 through the management platform 10. However, this is not a limitation. The issuer device 30 can also be connected to the blockchain network 100. is a node 101 in the blockchain network 100.

The plant asset management system 1 further includes an owner device 40. The owner device 40 is operated by the token owner and can be connected to the management platform 10 to interact with the smart contract corresponding to the token to manage the owned Pass. The owner device 40 may be, for example, a mobile device, a computer, a workstation, a server, or a cloud host. In this embodiment, the owner device 40 is independent of the blockchain network 100 and can be connected to the blockchain network 100 through the management platform 10. However, this is not a limitation. The owner device 40 can also be connected to the blockchain network 100. is a node 101 in the blockchain network 100.

The plant asset management method of this embodiment includes the following steps as shown in Figure 2:

Step S11: Divide a plurality of plants in at least one plant planting area into a plurality of units. In this embodiment, the plants are trees as an example, but they are not limited thereto. They can also be plants capable of photosynthesis, such as bamboo and grass. The plants in the planting area can also be a mixture of different plants.

The plant planting area is located in an area, and the trees planted in the plant planting area can be a single tree species or a mixture of different tree species. In one embodiment, the plants in a plurality of plant planting areas can be divided into a plurality of units. The plant planting areas can be located in the same region, different regions, or even different countries.

In addition, when dividing, the volume, number of trees, and the area of the planting area can be used to divide the units into units. In this embodiment, the volume (or volume) of trees is divided into multiple units. For example, the total volume of multiple trees in at least one plant planting area is measured, and then the total volume is divided into multiple units. Preferably, , divide the total volume of multiple trees of the same tree species into multiple units, for example, each unit is 1 cubic meter, but is not limited to this, and each unit can also be more than 2 cubic meters. Each unit may be called a unit of volume or a unit of volume

In one embodiment, when divided by the number of trees, there is one tree per unit, but it is not limited to this, and there can also be more than 2 trees per unit.

In one embodiment, when divided by the area of the planting area, each unit is the number of trees in a specific planting area, and the specific planting area can be, for example, 1 square meter, or more than 2 square meters.

Step S12: Deploy a smart contract on the blockchain network 100, and create content information of at least one token through the smart contract and issue the token, wherein the token corresponds to one or more of the tokens classified in step S11. Multiple units. The content information includes the owner information of the token, the number of units corresponding to the token (that is, the number of units held), and the information of the plants of the corresponding units. The content information may further include the total issued quantity of the units. Plant information can be, for example, tree species, the market price of the trees in the unit corresponding to the token, and can also include tree age, planting area, planting quantity, carbon fixed amount, management team, management fees, etc. The content information may further include change information. The change information includes annual planting environment records, quantitative growth data (ie, plant growth data), increases and decreases in carbon fixation, current market prices, etc. When a pass is issued, the issuer can set the owner of the pass to himself or others.

For example, the token corresponds to one unit, but it is not limited to 2 or more units, for example, one token corresponds to 10 units.

In this embodiment, the issuer and owner of the pass register respectively at the management node 20 to obtain an account and generate a private key and a public key corresponding to the account. The issuer's private key is held by the issuer, and the issuer's The public key is sent to all nodes, the owner's private key is held by the owner, and the owner's public key is sent to all nodes 101. For example, you can register with the management node 20 through the management platform 10, or directly connect to the management node for registration.

The issuer uses the issuer device 30 to log in to the management platform 10 with its account to set the content information of the token, and the issuer device 30 signs an issuance request with a private key and then sends the issuance request to the management platform 10 .

The management platform 10 receives the issuance request and the content information, and transmits the issuance request and the content information from the issuer device 30 to the management node 20 . The management node 20 verifies the issuance request with the corresponding public key, and after verification is correct, deploys the smart contract of the corresponding token and issues the corresponding token based on the content information.

Step S13: Add the at least one token and its content information to the distributed ledger 101a of the nodes 101 in the blockchain network 100.

In this embodiment, the management node 20 adds or updates smart contracts, tokens and their content information to the distributed ledger 101a of each node 101 in the blockchain network 100.

Through the above steps, the issuance of plant tokens is completed, and physical plants are converted into digital assets.

The foregoing description takes the issuance of one token as an example. In other embodiments, multiple tokens can also be issued through the smart contract.

Afterwards, a query step and/or an update step can optionally be performed.

The query step includes the following steps: a query device sets a pass query condition, and the query device sends a query request to the management node 20 based on the pass query condition; the management node 20 uses the smart contract to perform the query based on the pass query condition. Query, and send the query results to the query device.

In this embodiment, the query device can be any node 101 on the blockchain network 100 or other devices, such as the owner device 40 or the issuer device 30 .

The query device takes the owner device 40 as an example. The token owner logs in to the management platform 10 with its account from the owner device 40 to set the query conditions for the pass. The query conditions for the pass can be any one or more of the content information. information. The owner device 40 (query device) signs the query request with a private key and sends it to the management platform 10. The query request includes the token query conditions. The management platform 10 receives the query request and transmits the query request to the management node 20 . The management node verifies the query request with the corresponding public key, and after verification is correct, performs the query according to the token query conditions through the smart contract, and transmits the query results to the owner device 40 through the management platform 10 . For example, the token query condition is to query the owner information in the content information of the token, and the query result is the token and its content information that match the owner information.

If the queried pass is held by the pass owner, the owner device 40 can interact with the smart contract corresponding to the owned pass to manage the owned pass, such as updating the content information of the pass. .

The query device takes the issuer device 30 as an example. The query steps are also the same. The difference is that the private key used for signature and the public key used for verification are different. Similarly, if the queried token is held by the issuer, the issuer device 30 can also interact with the smart contract corresponding to the token to manage the owned token.

If the query device is any node 101 on the blockchain network 100, the query device communicates directly with the management node 20 without sending the query request and query results through the management platform 10.

The update step includes the following steps: an update device sets the new content information of the at least one pass, and sends an update request to the management node 20. The management node 20 updates the new content information of the at least one pass through the smart contract. The content information is updated to the distributed ledger 101a of the nodes 101.

In this embodiment, the update device can be any node 101 on the blockchain network 100 or other devices, such as the owner device 40 or the issuer device 30 .

The update device takes the issuer device 30 as an example. The token issuer logs in to the management platform 10 with its account from the issuer device 30 to set new content information of the token to be updated, so as to change any of the content information or Multiple information. The issuer device 30 (update device) signs the update request with the private key and sends it to the management platform 10. The update request includes the new content information of the token to be updated. The management platform 10 receives the update request and transmits the update request to the management node 20 . The management node 20 verifies the update request with the corresponding public key, and after verification, updates the new content information of the token to the distributed ledger of the nodes 101 on the blockchain network 100 through a smart contract. 101a. Then the management node 20 transmits the updated result to the issuer device 30 through the management platform 10 .

The update device takes the owner device 40 as an example. The update steps are also the same. The difference is that the private key used for signing and the public key used for verification are different.

If the update device is any node 101 on the blockchain network 100, the update device communicates directly with the management node 20 without sending the update request and update result through the management platform 10.

The issuer device 30 and the owner device 40 each have a wallet. Each wallet takes a wallet address on the blockchain network 100 as an example, but is not limited to this and can also be a cold wallet. The wallet of the issuer device 30 is connected to the tokens owned by the issuer and its content information, and the wallet of the owner device 40 is connected to the tokens owned by the owner and its content information. The issuer and owner can check the wallet on their respective issuer device 30 and owner device 40 to learn the tokens they own and their content information.

In addition to issuing certificates for plants, a carbon rights certification agency can also evaluate and certify the carbon rights of these plants in at least one plant planting area, so as to convert these plants into corresponding plurality of plants. Carbon right unit (i.e. the first carbon right unit). Then, a plurality of carbon right certificates (i.e., first carbon right certificates) are issued on the blockchain network 100. These first carbon right certificates correspond to the first carbon right units, for example, by the issuer. The device 30 sets a piece of content information of the first carbon right token through the management platform 10. The content information of each first carbon right token includes the number and owner of its carbon right unit. For example, the management node 20 issues some first carbon rights certificates through a carbon rights smart contract, and adds the first carbon rights certificates and their content information to the nodes in the blockchain network 100 101’s decentralized ledger 101a. In addition, the first carbon right tokens are linked to the wallet of the issuer device 30 . The issuer can check the wallet on the issuer's device 30 to learn the first carbon rights token it owns and its content information. Through this, in addition to obtaining plant tokens, you can also obtain plant-derived carbon rights.

Figure 3 shows a plant asset management system 2 according to the second preferred embodiment of the present invention. It has a structure that is substantially the same as that of the first embodiment. The difference is that the issuer device 30 and the owner device 40 are blocks respectively. A node 101 on the blockchain network 100, therefore, there is no need to connect to the blockchain network 100 through the management platform 10.

The plant asset management method of this embodiment is substantially the same as that of the first embodiment. The difference is that in step S12, the issuer sets the content information of the token on the issuer device 30, and the issuer device 30 signs an issuance with a private key. After the request, the issuance request and the content information are sent to the management node 20 . The management node 20 verifies the issuance request with the corresponding public key, and after verification is correct, deploys the smart contract of the corresponding token and issues the corresponding token based on the content information.

In this way, plant tokens can be issued without going through the management platform 10. Similarly, the query step and the update step do not need to go through the management platform 10 . In this embodiment, there is no need to issue carbon rights certificates through the management platform 10.

Figure 4 shows the plant asset management method of the third preferred embodiment of the present invention, which is based on the first embodiment and further includes: after step S13:

Step S14: After a period of time, obtain a growth increment of the plants in the at least one plant planting area compared to step S11, and divide the growth increment into one or more units.

In this embodiment, since the plant system will continue to grow, the total volume of multiple trees in the plant planting area can be measured in step S11, and then in step S14 after a period of time, such as one season, half a year, or one year, or Two years later, after the plants grow, measure the total volume of multiple trees in the plant planting area again to obtain the growth increment of these plants compared to step S11, that is, the increase in total volume. The greater the growth increment, the greater the number of units obtained by division. The division method is the same as step S11.

Step S15: Create content information of at least one other pass through the smart contract and issue the other pass, wherein the other pass is one or more units divided corresponding to the growth increment; the content of the other pass The information includes owner information, the number of corresponding units of the additional token, and information about the plants of the corresponding units. The content information of the other pass is the same as the content information of the pass of the first embodiment.

In this embodiment, the issuer uses the issuer device 30 to log in to the management platform 10 with its account to set the content information of another pass, and the issuer device 30 signs an issuance request with a private key and then sends the issuance request to The management platform 10.

The management platform 10 receives the issuance request and the content information, and transmits the issuance request and the content information from the issuer device 30 to the management node 20 . The management node 20 verifies the issuance request with the corresponding public key, and after verification is correct, deploys the corresponding smart contract and issues the corresponding another pass based on the content information.

In practice, the issuer device 30 can also be a node 101 on the blockchain network 100. The issuer sets the content information of the other pass on the issuer device 30, and the issuer device 30 signs the token with a private key. After the chapter issuance request is made, the issuance request and the content information are sent to the management node 20 . The management node 20 verifies the issuance request with the corresponding public key, and after verification is correct, deploys the corresponding smart contract and issues the corresponding other pass based on the content information. Thereby, the other pass can be issued without going through the management platform 10 .

Step S16: Add the other token and its content information to the distributed ledger 101a of the nodes 101 in the blockchain network 100.

In this embodiment, the management node 20 adds or updates the smart contract, the other token and its content information to the distributed ledger 101a of each node in the blockchain network 100.

Through the above steps, the issuance of tokens after the growth of plants is completed, and the growth of physical plants is converted into digital assets.

In addition, in this embodiment, a carbon rights certification agency can also evaluate and certify the carbon rights of the plants after they grow in at least one plant planting area, by comparing the carbon rights of the plants before they grow with those after they grow. The carbon rights of the corresponding growth increment can be obtained, and the growth increment of these plants can be converted into the corresponding plurality of carbon right units (i.e., the second carbon right unit). Then, a plurality of carbon right certificates corresponding to the growth increment (i.e., second carbon right certificates) are issued on the blockchain network 100. The second carbon right certificates correspond to the second carbon right units. For example, the issuer device 30 sets a piece of content information of the second carbon right token through the management platform 10. The content information of each second carbon right token includes the number and owner of its second carbon right unit. The management node 20 then issues some second carbon rights certificates through a carbon rights smart contract, and adds the second carbon rights certificates and their content information to the nodes in the blockchain network 100 101’s decentralized ledger. In addition, the second carbon right tokens are linked to the wallet of the issuer device 30 . The issuer can check the wallet on the issuer's device 30 to learn the carbon rights tokens (second carbon rights tokens and/or first carbon rights tokens) and the content information of the carbon rights tokens it owns.

This embodiment can also perform the query step and/or the update step as in the first embodiment to query and/or update the additional at least one token issued incrementally. And the plant asset management method of this embodiment can also be applied to the second embodiment.

In the foregoing, the incremental issuance of at least one additional pass is taken as an example, but in practice it may be a plurality of passes.

Figure 5 shows a plant asset management system 4 according to the fourth preferred embodiment of the present invention. It is based on the first embodiment. The management platform 10 is further connected to a plant market price public information platform 50. The plant market price public information platform 50 may be provided, for example, by the authority managing the plant (e.g. the Forest Service) or by a third-party notary agency.

The plant asset management method of this embodiment includes: the management platform 10 obtains the market price of the plants from the plant market price public information platform 50 and calculates the market price of each divided unit based on the market price of the plants, and records it in the token content information. When the token is issued, the market price will record the content information. The issuer can use the issuer's device 30 to periodically update the market price to the change information in the content information of the token, or authorize a third party, and the authorized third party can regularly use the update step to update the market price to the content information of the token. change information. This makes it easier to understand the changes in market prices of the plants corresponding to the tokens.

The above-mentioned plant management method and plant management system of the present invention can divide plants into multiple units and issue corresponding certificates on the blockchain network, turning the plants in the planting area into digital assets. In the future, the pass can be queried, updated, and even traded.

Figure 6 shows the plant asset trading system 5 used in the plant asset trading method of the fifth preferred embodiment of the present invention. The plant asset trading system 5 also operates in conjunction with the blockchain network 100. The plant asset trading system 5 is substantially the same as the plant asset management system 1 of the first embodiment, including the management node 20, a trading platform 60, a supply-side device 70 and a demand-side device 80. In this embodiment, the plant asset trading system 5 can cooperate with the plant asset management system 1 of the first embodiment to form a plant asset management and trading system.

The trading platform 60 can be, for example, a computer, a workstation, a server, or a cloud host. The trading platform 60 is connected to the blockchain network 100 and allows the supply-side device 70 to connect with the demand-side device 80 . The trading platform 60 is used to provide the supply side (i.e. the seller or owner) and the demand side of the token. (Buyer) Token sales information and token historical transaction price information, or transaction matchmaking information and token market price information. The trading platform 60 may be a node 101 in the blockchain network 100, but is not limited to this, and may not be a node 101 in the blockchain network 100. In this embodiment, the trading platform 60 and the management platform 10 are located on two hosts respectively, but they are not limited to this and can also be integrated on one host.

The supplier device 70 is operated by the supplier of the token and can be connected to the trading platform 60 to set a sales information. The sales information includes the token to be sold and the price to be sold. In this embodiment, the supplier device 70 is independent of the blockchain network 100 and can be connected to the blockchain network 100 through the transaction platform 60. However, this is not a limitation. The supplier device 70 can also be connected to the blockchain network 100. is a node 101 in the blockchain network 100. When the issuer device 30 or the owner device 40 wants to sell tokens and connects to the trading platform 60 to set the sales information, the issuer device 30 or the owner device 40 becomes the supplier device 70 . The wallet of the supplier device 70 is defined as a first wallet.

The demander device 80 is operated by the demander of the token and can be connected to the transaction platform 60 to set a transaction request. The demand-side device 80 can be, for example, a mobile device, a computer, a workstation, a server, or a cloud host. In this embodiment, the demand-side device 80 is independent of the blockchain network 100 and can be connected to the blockchain network 100 through the trading platform 60. However, this is not a limitation. The demand-side device 80 can also be connected to the blockchain network 100. is a node 101 in the blockchain network 100. When the issuer device 30 or the owner device 40 wants to purchase a token and connects to the trading platform 60 , the issuer device 30 or the owner device 40 becomes the demander device 80 . The wallet of the demander device 70 is defined as a second wallet.

The plant asset trading method of this embodiment includes the following steps as shown in Figure 7:

Step S21: Divide a plurality of plants in at least one plant planting area into a plurality of units.

Step S22: Create content information of each of a plurality of tokens on a blockchain network 100 and issue these tokens, wherein each of the tokens corresponds to one or more of the tokens divided in step S21. Each unit, each content information includes the quantity of the unit corresponding to the pass and the information of the corresponding unit's plants.

Step S23: Add each token and its content information to the distributed ledger 101a of the nodes 101 in the blockchain network 100.

In this embodiment, the above-mentioned steps S21 to S23 are substantially the same as those in the first embodiment. The difference is that in this embodiment, the issuance of multiple tokens is taken as an example, but it is not limited to this, and it can also be at least one token.

Step S24: Set a sales information, which includes the token to be sold and the price to be sold. In this embodiment, the provider of the token is the issuer or owner, who has registered an account with the management node 20 and has generated a private key and a public key. The demander also registers with the management node 20 to obtain an account and generates a private key and a public key. For example, you can register with the management node 20 through the management platform 10 or directly connect to the management node 20 to register. The trading platform 60 obtains the account information of the supplier and the demander from the management platform 10 .

The supplier device 70 sets the sales information and a transaction limit in a transaction smart contract on the management node 20 through the transaction platform 60 . Specifically, the supplier logs in with its account from the supplier device 70 and connects to the trading platform 60 to set the sales information and the transaction limit to the trading smart contract and signs it with its private key, and then sends it to the trading platform 60 to the management node. The management node 20 verifies the sales information and the transaction limit with the corresponding public key, and after verification is correct, deploys the transaction smart contract of the corresponding token, and publishes the transaction smart contract to the blockchain network 100 The distributed ledger 101a of these nodes 101. The transaction restrictions may, for example, limit the resale price, the number of resales, the rebate ratio of resale, etc., but are not limited to this.

The sales information is then published. The method of publishing the sales information may be, for example, the supplier device 70 publishing the sales information on the trading platform 60, or the trading platform 60 actively publishing the sales information after the management node 20 verifies that it is correct, or The supplier publishes the sales information on its own, such as on social networking sites or using communication software.

Step S25: Set a transaction request to conduct a transaction. In this embodiment, the demander logs in from the demander device 80 with its account and connects to the transaction platform 60 to set up the transaction request and signs it with its private key, and then transmits it to the management node 20 from the transaction platform 60 . The management node 20 verifies the transaction request with the corresponding public key, and notifies the trading platform 60 to conduct the transaction after the verification is correct. The management node 20 executes the transaction request through the transaction smart contract. In addition, the trading smart contract can further determine whether the number of token units is sufficient and/or meets the transaction restrictions. When the number of token units is sufficient and/or meets the transaction restrictions, the transaction is allowed.

In this embodiment, before the demander device 80 sets the transaction request, the demander device 80 connects to the transaction platform 60 to query and publish the sales information. The trading platform 60 obtains the content information and sales information of the token from the management node 20 and sends them to the demander device 80 . The demand side examines the token being sold, its content information and the sales price to decide whether to purchase it.

In this embodiment, the trading platform 60 can further obtain the historical transaction price of the token corresponding to the sales information from the management node 20. If the token has been traded before, the historical transaction price can be obtained and displayed on the trading platform. 60 publishes the historical transaction price, or even the trend of the historical transaction price, or further predicted prices. The demand side device 80 connects to the trading platform 60 to query the published historical transaction prices, and/or the trading platform transmits the historical transaction prices to the demand side device 80 for review by the demand side.

After the demander decides to purchase, the demander device 80 is operated to set the transaction request to conduct the transaction. In this embodiment, the demander conducts transactions through financial transfer, but it is not limited to this. Specifically, the trading platform 60 is connected to a financial service host 90. The financial service host 90 is used to provide financial transfer services. The demander transfers the amount of the demander's account to the supplier's account through the financial service host 90. The financial service host 90 generates a transfer information after the financial transfer of the transaction is completed, and transmits the transfer information to the transaction platform 60 . After receiving the transfer information, the trading platform 60 sends a transaction completion message to the management node 20, indicating that the transaction has been completed. The transaction completion message may be a token transfer request.

Step S26: After the transaction is completed, a transaction information is generated. The transaction information includes the traded token, the transaction price, a supplier information and an owner information; and a token transfer step is performed to transfer the traded token. The token is transferred to the demander.

In this embodiment, after receiving the transaction completion message from the trading platform 60, the management node 20 generates the transaction information, and performs the token transfer step based on the transaction information.

The token transfer step includes: updating the transaction information to the content information of the corresponding token, and updating it to the distributed ledger 101a of the nodes 101 in the blockchain network 100. Specifically, the management node 20 updates the transaction information to the content information of the corresponding token through the transaction smart contract, and updates it to the distributed ledger 101a of the nodes in the blockchain network 100.

Through the above steps, in addition to converting physical plants into digital assets, digital assets can also be traded.

In the token transfer step, this embodiment further includes transferring one or more carbon rights tokens corresponding to the traded token from the first wallet of the supply-side device 70 to the second wallet of the demand-side device 80. In this way, in addition to obtaining plant tokens, the demander also obtains a corresponding number of carbon rights tokens.

In addition, after the demander obtains the token, it can also become a supplier and then sell the token. By performing the above steps S24 to S26, the original demander device 80 becomes the new supplier device 70.

In one case, if the second wallet of the demander device 80 has a carbon right token, then in the above step S15, the financial service host 90 does not need to provide financial transfer services, and the transfer of the carbon right token can be directly used. Seal the deal. More specifically, in step S15, the demander operates the demander device 80 to transfer at least a part of the carbon right tokens in the second wallet to the first wallet. The carbon right tokens transferred in the aforementioned transfer are between plants and plants. The price at which the token is to be sold is equivalent. After the carbon right token is transferred, the supplier device 70 or the supplier device 70 generates a transfer information and sends it to the trading platform 60, and the trading platform 60 sends a transaction completion message to the management node 20.

Through this, the demander can use the carbon rights certificate he owns as the currency of transaction to purchase plant certificates.

In the above-mentioned fifth preferred embodiment, the transaction between the supplier and the demander is exemplified by taking the form of off-take. A plant asset trading method according to the sixth preferred embodiment is provided below, which is based on matching ( Transactions are conducted through matching). The sixth preferred implementation of the present invention has substantially the same steps and system architecture as the fifth embodiment, except that:

Step S24: The supplier device 70 sets a sales information on the management node 20 through the trading platform. The sales information includes the token to be sold, the number of units corresponding to the token to be sold, and the price to be sold.

Step S25: The transaction request set by the demander device 80 on the trading platform 60 includes a purchase information, and the purchase information includes the token to be purchased, the number of units to be purchased, and the price to be purchased. The trading platform 60 performs the transaction based on the sales information and the acquisition information. The trading platform 60 generates transaction matching information and market price information to conduct transactions, such as bidding transactions. After the transaction is completed, the trading platform 60 sends a transaction completion message to the management node 20, indicating that the transaction has been completed.

In this embodiment, if the second wallet of the demander device 80 has carbon rights certificates, then in the above step S25, the financial service host 90 does not need to provide financial transfer services, and the transfer of carbon rights certificates can be directly used. Seal the deal.

Figure 8 shows a plant asset trading system 7 according to the seventh preferred embodiment of the present invention. It has a structure that is substantially the same as that of the fifth embodiment. The difference is that the supply-side device 70 and the demand-side device 80 respectively have the same blockchain. A node 101 on the network 100, therefore, does not need to be connected to the blockchain network 100 through a trading platform.

The steps of the plant asset trading method in this embodiment are roughly the same as those in the fifth embodiment, the differences are:

In step S24, the supplier connects the supplier device 70 to the management node 20 to set the sales information and the transaction limit to the transaction smart contract. The management node 20 publishes the transaction smart contract to the distributed ledger 101a of the nodes 101 in the blockchain network 100.

The sales information is then released for viewing by the demand-side device 80 . The sales information can be released by, for example, the supply-side device 70 connecting to the trading platform 60 and publishing the sales information on the trading platform, or by verifying that the sales information is correct on the management node 20 The trading platform 60 then proactively releases the sales information, or the supplier releases the sales information on its own.

In step S25, the demander sets a transaction request from the demander device 80 and submits a transaction request to the supplier device 70. For example, the demander device 80 signs the transaction request with its private key and transmits it to the management node 20. The management node 20 verifies the transaction request with the corresponding public key, and notifies the demander device 80 after the verification is correct, and the management node 20 executes the transaction request through the transaction smart contract. After the demand-side device 80 accepts the transaction request, it signs and confirms it with its private key. After verification with the corresponding public key, the management node 20 notifies the demand-side device 80 to conduct the transaction. For example, the demand-side device 80 can use the trading platform 60 is connected to the financial service host 90 to conduct transactions through financial transfer. The financial service host 90 generates a transfer information after the financial transfer of the transaction is completed, and transmits the transfer information to the transaction platform 60 . After receiving the transfer information, the trading platform sends a transaction completion message to the management node 20, indicating that the transaction has been completed.

Afterwards, after receiving the transaction completion message from the trading platform, the management node 20 generates the transaction information, and performs the token transfer step based on the transaction information, thereby completing the token transaction.

Figure 9 shows a plant asset management system 8 applied to the plant asset management method of the eighth preferred embodiment of the present invention. It has a structure that is substantially the same as that of the first embodiment, and further includes an update device A0 connected to the management system. Platform 10, the update device A0 is connected to the management node 20 through the management platform 10 to set a growth data of the plants corresponding to each pass.

In this embodiment, the update device A0 is operated by a third-party notary agency. The update device A0 can be, for example, a mobile device, a computer, a workstation, a server, or a cloud host. The third-party notary agency is responsible for measuring the growth status of plants in the plant planting area to obtain the growth data. In this embodiment, measuring the total volume of trees is used as an example, but it is not limited to this. The update device A0 can be any node 101 on the blockchain network 100 or other devices. The third-party notary institution first registers with the management node 20 to obtain an account and generates a private key and a public key corresponding to the account. For example, it can register with the management node 20 through the management platform 10 or directly connect to the management node 20 for registration. The update device A0 signs the request with the private key, and the management node 20 verifies the request with the public key, which are the same as in the previous embodiments and will not be described again.

The plant asset management method of this embodiment is similar to the third embodiment and includes the following steps as shown in FIG. 10 .

Step S31: Provide at least one pass in the blockchain network 100, and the distributed ledger 101a of the node 101 of the blockchain network 100 records the at least one pass and its content information.

In this embodiment, the issuance of one pass is taken as an example, but it is not limited to this, and multiple passes can also be issued. The steps for issuing a token are the same as those in the first embodiment. The issuer device 30 sets the content information of the token and sends an issuance request to the management node 20 through the management platform 10 . The management node 20 issues the pass through the smart contract, and adds the pass and its content information to the distributed ledger 101a of the nodes in the blockchain network 100. In this embodiment, the change information of the content information records the growth data when the plants are divided into units. For example, a third-party notary agency provides growth data to the issuer, and the issuer sets the initial growth data in the change information.

In addition, the issuer device 30 is further connected to the management node 20 and sets an update authority in the smart contract to the update device A0. The update authority allows the update device A0 to set the growth data of the plants corresponding to the token.

Step S32: Obtain a growth increment of the plants in the plant planting area.

In this embodiment, the third-party notary agency measures the growth data of the plants at regular intervals, such as one season, six months, one year, or two years, such as measuring the current total volume of the plants, and the updating device A0 manages the data through the The platform 10 may directly connect to the management node 20 to set the growth data in the smart contract. More specifically, the third-party notary agency logs in to the management platform 10 with its account from the update device A0 to set the content information of the corresponding token. Growth data, and sends an update request and growth data to the management node 20. The management node 20 updates the growth data to the distributed ledger 101a of the nodes 101 through the smart contract, and the management node 20 sends a notification message. To the issuer device 30, to notify the issuer that the growth data of the token has been updated.

The issuer device 30 is connected to the management node 20 and generates the growth increment based on the growth data and sets the growth increment in the smart contract. More specifically, the issuer connects the issuer device 30 to the management node 20 through the management platform 10 to query the growth data in the change information of the token, and based on the difference between the latest growth data and the previous growth data Calculate the growth increment, but it is not limited to this. The smart contract can also automatically calculate the growth increment based on the difference between the latest growth data and the previous growth data. The greater the growth increment, the more units can be obtained by subsequent divisions.

Step S33: Create content information of at least one other pass on the blockchain network 100 and issue the other pass, wherein the other pass is one or more divided corresponding to at least a part of the growth increment. the unit. The content information of the other pass includes the quantity of the corresponding unit of the other pass and the information of the corresponding unit of plants.

Step S33 of this embodiment is the same as step S15 of the third embodiment. The issuer divides the growth increment into one or more units. The issuer device 30 sets the content information of the other pass and uses it through the management platform. 10. Send the issuance request and the content information to the management node 20, and issue another pass through the smart contract.

Step S34: Add the other token and its content information to the distributed ledger 101a of the nodes 101 in the blockchain network 100.

In this embodiment, the management node 20 adds or updates the smart contract, the other token and its content information to the distributed ledger 101a of each node 101 in the blockchain network 100.

Through the above steps, the issuer can issue additional tokens for all the growth increments of the plant.

In this embodiment, in step S31, a carbon rights certification agency may also evaluate and certify the carbon rights of the plants in at least one plant planting area as in the first embodiment, so as to convert the plants into Plants are converted into corresponding plurality of carbon rights units (i.e., the first carbon rights unit). Then, a plurality of carbon right certificates (i.e., first carbon right certificates) are issued on the blockchain network 100, and these first carbon right certificates correspond to these first carbon right units. For example, the management node 20 issues some first carbon rights certificates through a carbon rights smart contract, and adds the first carbon rights certificates and their content information to the nodes in the blockchain network 100 101’s decentralized ledger 101a. The first carbon rights tokens are linked to the wallet of the issuer device 30 .

After step S32, as in the third embodiment, a carbon rights certification agency can evaluate and certify the carbon rights of the plants after they have grown in at least one plant planting area, by comparing the carbon rights of the plants before they grow. The carbon rights and the carbon rights after growth can be used to obtain the carbon rights corresponding to the growth increment, and convert the growth increment of these plants into the corresponding plurality of carbon right units (i.e., the second carbon right unit). Then, a plurality of carbon right certificates (i.e., second carbon right certificates) are issued on the blockchain network 100, and the second carbon right certificates correspond to the second carbon right units. For example, the management node 20 issues some second carbon rights certificates through a carbon rights smart contract, and adds the second carbon rights certificates and their content information to the nodes in the blockchain network 100 101’s decentralized ledger 101a. In step S34, the wallet included in the issuer device 30 is linked to the second carbon rights tokens.

In practice, the issuer device 30 can also be the node 101 on the blockchain network 100, and can directly send the issuance request and the content information to the management node 20, thereby eliminating the need to go through the management platform 10. Issue this other pass. The update device A0 can also be the node 101 on the blockchain network 100, and can directly send the update request and growth data to the management node 20.

Figure 11 shows the plant asset trading system 8a used in the plant asset trading method of this embodiment. It is based on the aforementioned plant asset management system 8, combined with a trading platform 60 similar to the fifth embodiment, and a supplier The difference between the device 70 and the demand-side device 80 is that the issuer device 30 in this embodiment becomes the supply-side device 70 to sell another token issued corresponding to the growth increment.

The plant asset trading method of this embodiment includes the following steps as shown in Figure 12, which is based on the plant asset management method of this embodiment and has the same steps S31~S34, and further includes:

Step S35: Set a sales information, the sales information includes the other token to be sold and the price to be sold; publish the sales information for a transaction.

Step S36: Set a transaction request and perform a transaction.

In addition, this embodiment further includes step S37: after the transaction is completed, generate a transaction information, the transaction information includes the at least one other token traded, the price of the transaction, a supplier information and an owner information; and perform One pass transfer step; Among them, the token transfer steps include:

The transaction information is updated to the corresponding content information of at least one other pass, and updated to the distributed ledger 101a of the nodes in the blockchain network.

The contents of the above-mentioned steps S35 to S37 are respectively the same as the steps S24 and S26 of the fifth embodiment. The only difference is that the target of the sale is the other pass, so the steps can be used and will not be described again. In the token transfer step, the corresponding second carbon right token can also be transferred to the wallet of the demand-side device 80 as in the fifth embodiment.

In addition, the transaction of the other token can also be conducted in a matching manner as in the sixth embodiment.

In addition, the issuer device 30 and the demander device 80 of this embodiment can also be respectively a node 101 on the blockchain network 100. In this way, the plant asset trading method and the plant asset system can be the same as the seventh embodiment. There is no need to connect to the blockchain network 100 through a trading platform, and steps S35 to S36 can continue to be steps S24 and S25 in the seventh embodiment.

Figure 13 shows the plant asset management method of the ninth preferred embodiment of the present invention, which has substantially the same steps as the eighth embodiment and is also applied to the plant asset management system 8. The difference is that the other token issued in step S33 in this embodiment is the unit divided by the corresponding part of the growth increment, rather than the units divided by the entire growth increment.

More specifically, step S33 includes updating a change information in the content information of the at least one token in the distributed ledger 101a of the nodes 101 on the blockchain network 100, and the change information includes an increment The number of units, the number of units of the increment corresponds to a portion of the growth increment. Establish the content information of the other pass on the blockchain network 100 and issue the other pass, wherein the other pass is one or more units divided corresponding to the growth increment of another part.

In the foregoing, a distribution ratio is set in the smart contract, and the smart contract divides the growth increment into a first part and a second part according to the distribution ratio, and the number of the increment units corresponds to the growth of the first part. Increment, that is, the smart contract generates the incremental unit of the change information based on the growth increment of the first part and the original number of units of the pass. The original number of units of the pass exceeds The more, the more incremental units you get. The management node 20 updates the number of incremental units of the original change information of the token to the distributed ledger 101a of the nodes 101 through the smart contract. In this way, the total number of units of the original token is increased. The total unit is the number of token units plus the number of incremental units, so that the token can increase in value as the plant grows.

The additional token issued incrementally is the unit divided by the growth increment corresponding to the second part. That is, the issuer device 30 obtains the growth increment of the second part from the management node 20 and divides the growth increment of the second part into one or more units. And the issuer device 30 is connected to the management node 20 to create the content information of the at least one other pass in the smart contract and issue the at least one other pass.

In this way, part of the growth increment can be converted into incremental units of the original pass, and the issuer of the other part of the growth increment pass will issue at least one more pass, and the at least one other pass can be subsequently sold. Sold, so that both the owner and issuer of the original token can make profits in response to the growth of the plant. And the owner and issuer can obtain carbon rights certificates corresponding to the growth increment in the wallets of their respective devices, representing the carbon rights of the plant.

In practice, the issuer device 30 can also be the node 101 on the blockchain network 100, and can directly send the issuance request and the content information to the management node 20, thereby eliminating the need to go through the management platform 10. Issue this other pass. The update device A0 can also be the node 101 on the blockchain network 100, and can directly send the update request and growth data to the management node 20.

The plant asset trading method of this embodiment is based on the above-mentioned plant asset management method and plant asset management system. Other steps and the plant asset trading system are the same as those of the eighth embodiment, and the equivalent implementation changes are also the same as those of the eighth embodiment. The embodiments are the same and will not be described again.

The above are only the best possible embodiments of the present invention. Any equivalent changes made by applying the description and patent scope of the present invention should be included in the patent scope of the present invention.

1,2,4:Plant Asset Management System 5: Plant asset trading system 7:Plant asset trading system 8: Plant asset management system 8a: Plant asset trading system 10: Management platform 20: Management node 30: Issuer device 40:Owning device 50: Plant market price public information platform 60:Trading platform 70: Supply side device 80:Demand side device 90:Financial services host A0:Update device 100:Blockchain network 101:node 101a: Distributed Ledger S11~S16: Steps S21~S26: Steps S31~S34: steps S35~S37: steps

Figure 1 is an architectural diagram of a plant asset management system according to the first preferred embodiment of the present invention. Figure 2 is a flow chart of a plant asset management method according to the first preferred embodiment of the present invention. Figure 3 is an architecture diagram of a plant asset management system according to the second preferred embodiment of the present invention. Figure 4 is a flow chart of a plant asset management method according to the third preferred embodiment of the present invention. Figure 5 is an architecture diagram of a plant asset management system according to the fourth preferred embodiment of the present invention. Figure 6 is an architectural diagram of a plant asset trading system according to the fifth preferred embodiment of the present invention. Figure 7 is a flow chart of a plant asset trading method according to the fifth preferred embodiment of the present invention. Figure 8 is an architectural diagram of a plant asset trading system according to the seventh preferred embodiment of the present invention. Figure 9 is an architecture diagram of a plant asset management system according to the eighth preferred embodiment of the present invention. Figure 10 is a flow chart of a plant asset management method according to the eighth preferred embodiment of the present invention. Figure 11 is an architectural diagram of a plant asset trading system according to the eighth preferred embodiment of the present invention. Figure 12 is a flow chart of a plant asset trading method according to the eighth preferred embodiment of the present invention. Figure 13 is a flow chart of a plant asset management method according to the ninth preferred embodiment of the present invention.

S31~S34: steps

Claims (22)

A plant asset management method that includes the following steps: A. Provide at least one token (Token) in a blockchain network. The blockchain network includes a plurality of nodes. The distributed ledgers of these nodes record the at least one token and its content information. The at least one token The content information of the certificate includes the quantity of one or more units divided by a plurality of plants in at least one plant planting area and the information of the plants in the corresponding units; B. Obtain a growth increment of the plants in the at least one plant planting area; C. Establish content information of at least one other pass on the blockchain network and issue the other at least one pass, wherein the at least one other pass corresponds to one or more of the growth increments divided by at least one Unit; the content information of the at least one other pass includes the quantity of the corresponding unit of the at least one other pass and the information of the plants of the corresponding unit; D. Add the at least one other token and its content information to the distributed ledger of the nodes in the blockchain network. The plant asset management method described in claim 1, wherein step C includes updating a change information in the content information of the at least one token in the distributed ledger of the nodes, and the change information includes an incremental unit The quantity of the increment unit corresponds to a part of the growth increment; in step C, the at least one other token is a unit divided into corresponding to another part of the growth increment. The plant asset management method described in claim 2, wherein the nodes of the blockchain network include a management node; in step A, an issuer device sets the content information of the at least one token and sends an issuer Request to the management node; the management node issues the at least one pass through a smart contract, and adds the at least one pass and its content information to the distributed ledgers of the nodes in the blockchain network; The issuer device is connected to the management node and sets an update authority in the smart contract to an update device. The update authority is for the update device to set a growth data of the plants corresponding to the at least one pass; In step B, the update device is connected to the management node to set the growth data in the smart contract. The issuer device is connected to the management node and generates the growth increment based on the growth data and sets it in the smart contract. The growth increment; in step C, the smart contract generates the number of incremental units of the change information based on part of the growth increment and the number of units of at least one token, and the management node uses the smart contract to The number of the incremental unit of the change information of at least one token is updated to the distributed ledger of the nodes. The plant asset management method described in claim 3, wherein in step C, the smart contract sets a distribution ratio, and divides the growth increment into a first part and a second part according to the distribution ratio, and the number of the increment units corresponds to the growth increment of the first part, and the at least one other token corresponds to the unit divided by the growth increment of the second part. The plant asset management method as described in claim 4, wherein in step C, the issuer device obtains the growth increment of the second part from the management node, and divides the growth increment of the second part into or multiple units, and the issuer device is connected to the management node to create the content information of the at least one other pass in the smart contract and issue the at least one other pass. The plant asset management method described in claim 3, wherein in step A, the issuer device is connected to a management platform, the management platform is connected to the management node, and the management platform receives the issuance from the issuer device. request and the content information, and transmit the issuance request and the content information to the management node; the issuer device connects to the management node through the management platform to set the update permission to the update device; In step B, the update device is connected to the management node through the management platform and sets the growth data in the smart contract; the issuer device is connected to the management node through the management platform and generates the growth data based on the growth data. Growth increment and set the growth increment in the smart contract. The plant asset management method as described in claim 1, wherein the nodes of the blockchain network include a management node; in step A, an issuer device sets the content information of the at least one token and sends an issuer Request to the management node; the management node issues the at least one pass through a smart contract, and adds the at least one pass and its content information to the distributed ledgers of the nodes in the blockchain network; In step C, the issuer device sets the content information of the at least one other pass and sends an issuance request to the management node; the management node creates the content information of the at least one other pass through the smart contract and issues the other one. At least one pass; in step D, the management node adds the at least one other pass and its content information to the distributed ledgers of the nodes in the blockchain network. The plant asset management method described in claim 7, wherein step A includes connecting the issuer device to the management node and setting an update authority in the smart contract to an update device, and the update authority is for the update device to set A growth data of the plants corresponding to the at least one token; In step B, the update device is connected to the management node to set the growth data in the smart contract. The issuer device is connected to the management node and generates the growth increment based on the growth data and sets it in the smart contract. The growth increment. The plant asset management method as described in claim 8, wherein in step A, the issuer device is connected to a management platform, the management platform is connected to the management node, and the management platform receives the issuance from the issuer device. request and the content information, and transmit the issuance request and the content information to the management node; the issuer device connects to the management node through the management platform to set the update permission to the update device; In step B, the update device is connected to the management node through the management platform and sets the growth data in the smart contract; the issuer device is connected to the management node through the management platform and generates the growth data based on the growth data. Growth increment and set the growth increment in the smart contract. The plant asset management method as described in claim 1, wherein step A includes converting the plants in the at least one plant planting area into corresponding plurality of first carbon rights units and issuing them on the blockchain network A plurality of first carbon right tokens, the first carbon right tokens correspond to the first carbon right units, and the at least one token is linked to the first carbon right tokens in at least one wallet; Step B includes converting the growth increment of the plants into corresponding second carbon right units, and issuing a plurality of second carbon right certificates on the blockchain network. These second carbon right certificates The certificate corresponds to the second carbon right units; step D includes linking the at least one other token with the second carbon right certificate in the at least one wallet. A plant asset management system containing: A management node is one of a plurality of nodes on a blockchain network. The management node receives a content information corresponding to at least one token. The content information includes one or more units divided by a plurality of plants. The quantity and corresponding unit of plant information; the management node generates the at least one token based on the content information corresponding to the at least one token, and adds the at least one token and its content information to the blockchain network. Distributed ledger of some nodes; An update device that sets a growth data of the plants corresponding to the at least one pass on the management node; An issuer device generates a growth increment based on the growth data, the issuer device sets content information of at least one other token and sends an issuance request to the management node; The management node generates the at least one other pass based on the content information corresponding to the at least one other pass, and adds the at least one other pass and its content information to the distributed ledgers of the nodes in the blockchain network; Among them, the at least one other pass is one or more units divided corresponding to at least a part of the growth increment; the content information of the at least one other pass includes the number and corresponding unit of the corresponding unit of the at least one other pass. plant information. The plant asset management system of claim 11, wherein the issuer device sets the content information of the at least one pass and sends an issuance request to the management node; the management node issues the at least one pass through a smart contract, and Add the at least one pass and its content information to the distributed ledgers of the nodes in the blockchain network; wherein, one of the content information of the at least one pass in the distributed ledgers of the nodes Change information, which includes the quantity of an incremental unit; The issuer device is connected to the management node and sets an update authority in the smart contract to an update device. The update authority is for the update device to set a growth data of the plants corresponding to the at least one pass; The update device is connected to the management node to set the growth data in the smart contract, and the issuer device is connected to the management node and generates the growth increment based on the growth data and sets the growth increment in the smart contract; The smart contract generates the number of incremental units of the change information based on a portion of the growth increment and the number of units of the at least one token, and the management node uses the smart contract to transfer the change information of the at least one token. The number of incremental units is updated to the distributed ledger of those nodes. The plant asset management system as described in claim 12, wherein the smart contract sets a distribution ratio, and divides the growth increment into a first part and a second part according to the distribution ratio, and the number of the increment units is corresponding to According to the growth increment of the first part, the at least one other token is a unit divided corresponding to the growth increment of the second part. The plant asset management system of claim 13, wherein the issuer device obtains the growth increment of the second part from the management node, and divides the growth increment of the second part into one or more units. , and the issuer device is connected to the management node to create the content information of the at least one other pass in the smart contract and issue the at least one other pass. The plant asset management system as described in claim 12, including a management platform connected to the issuer device, the update device and the management node, and the management platform receives the issuance request and the content information from the issuer device. and transmit the issuance request and the content information to the management node; the issuer device connects to the management node through the management platform to set the update permission to the update device; The update device is connected to the management node through the management platform and sets the growth data in the smart contract; the issuer device is connected to the management node through the management platform and generates the growth increment based on the growth data and Set the growth increment in the smart contract. The plant asset management system of claim 11, wherein the issuer device sets the content information of the at least one pass and sends an issuance request to the management node; the management node issues the at least one pass through a smart contract, And add the at least one pass and its content information to the distributed ledger of the nodes in the blockchain network; the issuer device sets the content information of the other at least one pass and sends an issuance request to the Management node; the management node establishes the content information of the at least one other pass through the smart contract and issues the at least one other pass; the management node adds the at least one other pass and its content information to the blockchain network The distributed ledger of these nodes. The plant asset management system as described in claim 16, wherein the issuer device is connected to the management node and sets an update authority in the smart contract to an update device, and the update authority is for the update device to set the at least one token corresponding to A growth data of the plants; the update device is connected to the management node to set the growth data in the smart contract, and the issuer device is connected to the management node and generates the growth increment based on the growth data and in the The smart contract sets the growth increment. The plant asset management system of claim 17, comprising a management platform connected to the issuer device, the update device and the management node, wherein the management platform receives the issuance request and the content from the issuer device Information, and transmits the issuance request and the content information to the management node; the issuer device is connected to the management node through the management platform to set the update permissions to the update device; the update device is connected through the management platform to the management node and set the growth data in the smart contract; the issuer device is connected to the management node through the management platform and generates the growth increment based on the growth data and sets the growth increment in the smart contract. A plant asset trading method includes the following steps: A. Provide at least one token (Token) in a blockchain network. The blockchain network includes a plurality of nodes. The distributed ledgers of these nodes record the at least one token and its content information. The at least one token The content information of the certificate includes the quantity of one or more units divided by a plurality of plants in at least one plant planting area and the information of the plants in the corresponding units; B. Obtain a growth increment of the plants in the at least one plant planting area; C. Establish content information of at least one other pass on the blockchain network and issue the other at least one pass, wherein the at least one other pass corresponds to one or more of the growth increments divided by at least one part. Unit; the content information of the at least one other pass includes the quantity of the corresponding unit of the at least one other pass and the information of the plants of the corresponding unit; D. Add the at least one other token and its content information to the distributed ledger of the nodes in the blockchain network; E. Set a sales information that includes the at least one other token to be sold and the price to be sold; F. Set a transaction request and conduct a transaction. The plant asset trading method described in claim 19 further includes generating a transaction information after the transaction is completed. The transaction information includes the at least one other token traded, the price of the transaction, a supplier information and an owner information. ;And perform a pass transfer step; Among them, the token transfer steps include: The transaction information is updated to the corresponding content information of at least one other pass, and updated to the distributed ledgers of the nodes in the blockchain network. A plant asset trading system including: A management node is one of a plurality of nodes on a blockchain network. The management node receives a content information corresponding to at least one token. The content information includes one or more units divided by a plurality of plants. The quantity and corresponding unit of plant information; the management node generates the at least one token based on the content information corresponding to the at least one token, and adds the at least one token and its content information to the blockchain network. Distributed ledgers of some nodes; An update device that sets a growth data of the plants corresponding to the at least one pass on the management node; An issuer device generates a growth increment based on the growth data, the issuer device sets content information of at least one other token and sends an issuance request to the management node; The management node generates the at least one other pass based on the content information corresponding to the at least one other pass, and adds the at least one other pass and its content information to the distributed ledgers of the nodes in the blockchain network; Among them, the at least one other pass is one or more units divided corresponding to at least a part of the growth increment; the content information of the at least one other pass includes the number and corresponding unit of the corresponding unit of the at least one other pass. The information of the plant; wherein, the issuer device sets a sales information on the management node, and the sales information includes the at least one other token to be sold and the price to be sold; A demand-side device is used to set a transaction request to conduct a transaction. The plant asset trading system as described in claim 21, wherein the management node generates a transaction information after the transaction is completed, and the transaction information includes the at least one other token traded, the price of the transaction, a supplier information and an ownership information; the management node updates the transaction information to the corresponding content information of at least one other pass, and updates it to the distributed ledgers of the nodes in the blockchain network.

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