CN111291961A - Agricultural block chain total quantity balance management method - Google Patents

Abstract

The invention relates to a method for balancing and managing the total quantity of agricultural block chains. The method for the total quantity balance management of the agricultural block chain comprises the following steps: providing a contract management unit, wherein the contract management unit is used for registering available contract information and writing the available contract information into a block chain storage network unit by using a block chain; inputting a contract information in the contract management unit, and enabling the contract management unit to obtain associated contract record information conforming to the contract information from the block chain storage network unit according to the contract information; comparing the contract information, the associated contract record information and the available contract information by using the contract management unit to judge whether excessive contract is generated or not; if yes, generating an excessive contract information and rejecting the contract information record; if not, the block chain is used for writing the contract information into the block chain storage network unit.

Description

Agricultural block chain total quantity balance management method

Technical Field

The present invention relates to an agricultural management method, and more particularly, to a method for balancing and managing the total amount of agricultural blockchains.

Background

It is known that the fulfillment of contract and guarantee difficulties and challenges are encountered in the contract production planning and production and marketing adjustment management of agricultural products. If the agricultural product is susceptible to external factors and the price fluctuation is large, when the difference between the market price and the contract price is too large, the fulfillment of the contract will be examined greatly, although the agricultural product circulation/passage operator will adjust the contract content according to the market conditions, the contract of the agricultural product circulation/passage operator belongs to a long-term contract (for example, more than half a year), so that the contract cannot be adjusted greatly according to the market price, and at present, many contracts are still promised orally first and then recorded afterwards by using an electronic archive file, so that a plurality of fuzzy zones are generated, and the trust is destroyed by any one of the agricultural product producer or the circulation/passage operator.

In addition, most agricultural product producers supply goods to different agricultural product customers simultaneously, and it is common that the agricultural product producers contract with different customers simultaneously in the same farmland, resulting in repeated commitments and over-sales. Therefore, in terms of area control and contract quantity agreement of contract producing areas, it is necessary to make the whole contract transaction process of agricultural products more transparent to promote mutual recognition and ensure the rights and interests of both parties, and these needs to be broken through by the way of information technology innovation and application.

In addition, in the agricultural product circulation processing process, after the agricultural product post-harvest treatment enters the circulation processing, although the paper stock source record exists, the consistency of the total amount balance in the agricultural product circulation production processing process is difficult to justify in an objective manner. Although the verification of the work flow system has been performed by a third-party independent verification organization at present, the verification mostly adopts manual and paper book operation management methods, so the reliability is to be evaluated. Under the conditions of urgent circulation and processing time course of agricultural products and complex data, if the information registration is not timely enough, the agricultural products are difficult to trace the source in the whole course, which is a great concern in food safety risk management and control.

Therefore, there is a need to provide an innovative and advanced method for balancing and managing the total amount of agricultural blockchains to solve the above problems.

Disclosure of Invention

In one embodiment, a method for agricultural blockchain inventory balance management includes: providing a contract management unit, wherein the contract management unit is used for registering available contract information and writing the available contract information into a block chain storage network unit by using a block chain; inputting a contract information in the contract management unit, and enabling the contract management unit to obtain associated contract record information conforming to the contract information from the block chain storage network unit according to the contract information; comparing the contract information, the associated contract record information and the available contract information by using the contract management unit to judge whether excessive contract is generated or not; if yes, generating an excessive contract information and rejecting the contract information record; if not, the block chain is used for writing the contract information into the block chain storage network unit.

In one embodiment, a method for agricultural blockchain inventory balance management includes: providing a planting management unit, wherein the planting management unit is used for registering planting information and writing the planting information into a block chain storage network unit by using a block chain; registering harvesting information in the planting management unit to enable the planting management unit to obtain associated harvesting record information which is in accordance with the harvesting information from the block chain storage network unit according to the harvesting information; comparing the harvesting information, the associated harvesting record information and the planting information by using the planting management unit to judge whether excessive harvesting is performed; if yes, generating excessive harvesting information; if not, the recovery information is written into the block chain storage network unit by the block chain.

In one embodiment, a method for agricultural blockchain inventory balance management includes: providing a circulation processing unit, wherein the circulation processing unit is used for registering acceptance information and goods receiving information; the circulation processing unit obtains the associated goods receiving record information which is in accordance with the goods receiving information from a block chain storage network unit according to the goods receiving information; comparing the goods receiving information, the associated goods receiving record information and the acceptance information by using the circulation processing unit to judge whether the goods are excessive; if yes, generating an excess message; if not, the acceptance information and the goods receiving information are written into the block chain storage network unit by the block chain.

Drawings

Fig. 1 shows a flowchart of a method for balancing and managing the total agricultural blockchain according to a first embodiment of the present invention.

Fig. 2 is a flowchart illustrating a method for balancing and managing the total agricultural blockchain according to a first embodiment of the present invention.

Fig. 3 shows a flowchart of a method for balancing and managing the total agricultural blockchain according to a second embodiment of the present invention.

Fig. 4 is a flowchart illustrating a method for balancing and managing the total agricultural blockchain according to a second embodiment of the present invention.

Fig. 5 is a flowchart illustrating a method for balancing and managing the total agricultural blockchain according to a third embodiment of the present invention.

Fig. 6 is a flowchart illustrating a method for balancing and managing the total agricultural blockchain according to a third embodiment of the present invention.

Reference numerals:

10 contract management unit

20 planting management unit

30 flow through processing unit

40-blockchain memory network unit

50 third party field production management function system tool

60 third-party purchase, sale and inventory management function system tool

S11-S13

S31-S33

S51-S53

Detailed Description

Fig. 1 shows a flowchart of a method for balancing and managing the total agricultural blockchain according to a first embodiment of the present invention. Fig. 2 is a flowchart illustrating a method for balancing and managing the total agricultural blockchain according to a first embodiment of the present invention. Referring to step S11 of fig. 1 and fig. 2, a contract management unit 10 is provided, where the contract management unit 10 is configured to register a contract availability information and write the contract availability information into a blockchain storage network unit 40 by using blockchains. In the present invention, the block chain is a string of related data blocks generated by a cryptographic method.

In this step, the information for the contract is registered by the agricultural product producer. The agricultural product producer may register directly with the escrow management unit 10 or upload through a third party farm production management function system tool 50. The contract-making management unit 10 is connected to the third-party field production management function system tool 50 to receive the contract-making information uploaded by the third-party field production management function system tool 50.

The available contract information comprises one or more than one of the following: the location of the farm land, the coordinates of the range of the farm land, the identification data of the farm land, the plantable area or the amount of crops to be supplied. The available contract information is not limited by the above and is increased according to the actual requirement.

In addition, the composition of the contract management unit 10 includes one or more of the following: the system comprises a contract-making farmer management module, a contract-making farmland management module, a contract-making demand management module, a contract-making plan scheduling module, a production and marketing coordination management module, a contract-making batch management module, an audit guidance management module, a basic data management module, a system parameter management module or a third-party field production management function system tool interface module. The composition of the contract management unit 10 is not limited to the above, and may be increased according to actual needs.

Referring to step S12 of fig. 1 and fig. 2, the contract management unit 10 inputs contract information, and the contract management unit 10 obtains associated contract record information matching the contract information from the block chain storage network unit 40 according to the contract information. In this step, the contract information is input by the agricultural product demander, and is mainly directed to the contract information of a specific agricultural product producer in a certain period.

The contract information and the associated contract record information respectively comprise one or more than one of the following: an agricultural product supplier, a crop-making farmland, a crop-making period, a crop-making planting area or a crop-making quantity. The contract information and the associated contract record information are not limited by the above, and can be increased according to the actual requirement.

Referring to step S13 of fig. 1 and fig. 2, the contract management unit 10 compares the contract information, the associated contract record information and the available contract information to determine whether the contract is exceeded; if yes, generating an excessive contract information and rejecting the contract information record; if not, the contract information is written into the blockchain storage network unit 40 by using the blockchain. Only because the agricultural product production is fixed but not manufactured industrial products, the platform manager can set the allowable error range proportion of the supply quantity for different crops in the estimation judgment of the supply quantity of the crop appropriated to be made.

The judgment condition of the excess amount of the crop appropriation is that the total sum of the crop appropriation information and the associated crop appropriation record information is larger than the plantable area of the available appropriation information or the available crop quantity, or exceeds the allowable supply quantity error range proportion of the crop.

The judgment condition of not excessive deeming is that the total sum of the deeming information and the related deeming record information is smaller than or equal to the plantable area of the deeming information or the quantity of supplied crops, or is still within the error range proportion of the permissible quantity of supplied crops.

When the contract information is written in the block chain storage network unit 40, the contract is established, and the contract information becomes a public block of the block chain as clear contract record information, and if the contract is subsequently established with other companies in the same period and with the same contract content, the confirmation cannot be established through verification, so that the occurrence of repeated contract or excessive contract is avoided.

Fig. 3 shows a flowchart of a method for balancing and managing the total agricultural blockchain according to a second embodiment of the present invention. Fig. 4 is a flowchart illustrating a method for balancing and managing the total agricultural blockchain according to a second embodiment of the present invention. Referring to step S31 of fig. 3 and fig. 4, a planting management unit 20 is provided, and the planting management unit 20 is configured to register planting information and write the planting information into a blockchain storage network unit 40 by using blockchain.

In this step, the planting information is registered by the agricultural product producer. The produce producers can register directly with the plant management unit 20 or upload through a third party farm production management function system tool 50. The planting management unit 20 is connected to the third party field production management function system tool 50 to receive the planting information uploaded by the third party field production management function system tool 50.

The planting information comprises one or more than one of the following: cultivated land, period of planting, crop planted, area of planting, expected crop yield, and plant identification lot or number. The planting information can be increased according to actual needs without the aforementioned limitations.

In addition, the planting management unit 20 comprises one or more of the following components: the system comprises a planting farmer management module, a planting farmland management module, a related agricultural material management module, a planting batch management module, a planting operation management module, a harvesting operation management module, a basic data management module, a system parameter management module, a field production operation record inquiry service module, a related statistical statement module or a third-party field production management function system tool interface module. The composition of the planting management unit 20 may be increased according to actual needs without the aforementioned limitations.

Referring to step S32 of fig. 3 and fig. 4, a harvesting information is registered in the planting management unit 20, so that the planting management unit 20 obtains the associated harvesting record information corresponding to the harvesting information from the blockchain storage network unit 40 according to the harvesting information. In this step, the harvest information is registered by the agricultural product producer after the harvest operation is completed.

The harvesting information and the associated harvesting record information respectively comprise one or more than one of the following: harvesting cultivated land, harvesting crops, harvesting area, harvesting quantity and planting identification batch number or serial number. The harvesting information and the related harvesting record information can be increased according to actual requirements without the limitation.

Referring to step S33 of fig. 3 and fig. 4, the planting management unit 20 compares the harvesting information, the associated harvesting record information and the planting information to determine whether excessive harvesting is performed; if yes, generating excessive harvesting information; if not, the harvest information is written into the blockchain storage network unit 40 by using a blockchain. Only because the agricultural product production is fixed but not manufactured industrial products, the platform manager can set the allowable yield error range proportion for different crops in the yield estimation judgment.

The judgment condition of excessive harvesting is that the total harvesting area or the harvesting quantity of the harvesting information and the associated harvesting record information is larger than the planting area or the predicted crop yield of the planting information, or exceeds the allowable yield error range proportion of the crop.

The judgment condition of not excessive harvesting is that the total harvesting area or the harvesting quantity of the harvesting information and the associated harvesting record information is less than or equal to the planting area or the predicted crop yield of the planting information, or is still within the allowable yield error range proportion of the crop.

In one embodiment, the planting management unit 20 can obtain the associated planting record information according to the harvesting information from the blockchain storage network unit 40, and the planting management unit 20 compares the harvesting information, the associated harvesting record information, the planting information and the associated planting record information to determine whether the excessive harvesting is performed.

The associated planting record information comprises one or more than one of the following information: cultivated land, period of planting, crop planted, area of planting, expected crop yield, and plant identification lot or number. The related planting record information can be increased according to the actual requirement without the limitation.

After the harvesting information is written into the block chain storage network unit 40, the planting information and the harvesting information become public blocks of the block chain, and can provide a judgment basis for repeated harvesting or excessive harvesting when the planting management unit 20 subsequently establishes other planting information or harvesting information. The planting management unit 20 can also be used for the public to inquire the planting information or the harvesting information planted in each batch, so as to conveniently and openly judge whether the corresponding yield of each cultivated land is reasonable, and audit is carried out according to the reasonable yield, so as to avoid the occurrence of the situation of imitating the production place.

In one embodiment, the planting management unit 20 is configured to register field production information and write the field production information to the blockchain storage network unit 40 by blockchain. The plant management unit 20 may also receive field production operation information uploaded via the third party field production management function system tool 50.

The field production operation information comprises one or more than one of the following information: planting identification batch number or serial number, operation item content, operation date, operation personnel, applied materials and dosage and operation photo. The field production operation information can be increased according to the actual requirement without the limitation.

The registration of the field production operation information enables the plant management unit 20 to have a function of inquiring the history of field production operations.

Fig. 5 is a flowchart illustrating a method for balancing and managing the total agricultural blockchain according to a third embodiment of the present invention. Fig. 6 is a flowchart illustrating a method for balancing and managing the total agricultural blockchain according to a third embodiment of the present invention. Referring to step S51 of fig. 5 and fig. 6, a circulation processing unit 30 is provided, and the circulation processing unit 30 is used for registering acceptance information and receiving information.

After the agricultural products are harvested, processed or packaged in stages in the field, the agricultural product processor of the agricultural product circulation processing plant performs the acceptance check of the input (warehousing) of the agricultural products, and then the agricultural product processor registers the acceptance check information in the circulation processing unit 30. In the above-described work flow, the pickup information must be registered for both the processing and the classification packaging work.

The agricultural product processor can upload the registered acceptance information and the goods receiving information through a third party purchase, sale and inventory management function system tool 60. The circulation processing unit 30 is connected to the third-party purchase, sale and inventory management function system tool 60 to receive the acceptance information or the receiving information uploaded by the third-party purchase, sale and inventory management function system tool 60.

The acceptance information comprises one or more than one of the following: the agricultural products are used as item items, the number or weight of the inspection and acceptance, the grade of the condition, the date of the operation, the operator and the identification batch number or serial number of the source. The goods receiving information comprises one or more than one of the following items: the agricultural products are used as item items, the quantity or weight of the goods, the grade of the condition, the operation date, the operator and the source identification batch number or serial number. The acceptance information and the goods receiving information can be increased according to the actual requirement without the limitation.

In addition, the composition of the flow-through processing unit 30 includes one or more of the following: the system comprises an acceptance warehousing management module, a grading operation management module, a processing operation management module, an order sale management module, a packaging tally operation management module, a whole-course traceability service module, a basic data management module, a system parameter management module, a related statistical report module or a third-party purchase, sale and stock management function system tool interface module. The composition of the flow-through processing unit 30 may be increased according to actual needs without being limited to the above.

Referring to step S52 of fig. 5 and fig. 6, the circulation processing unit 30 is enabled to obtain the associated pick-up record information corresponding to the pick-up information from a blockchain storage network unit 40 according to the pick-up information.

The associated receiving record information comprises one or more than one of the following information: the agricultural products are used as item items, the quantity or weight of the goods, the grade of the condition, the operation date, the operator and the source identification batch number or serial number. The related receiving record information can be increased according to the actual requirement without the limitation.

Referring to step S53 of fig. 5 and fig. 6, the circulation processing unit 30 compares the pickup information, the associated pickup record information and the acceptance information to determine whether the excess is exceeded; if yes, generating an excess message; if not, the acceptance information and the receiving information are written into the blockchain storage network unit 40 by using blockchain.

The excess judgment condition is that the total quantity or weight of the goods receiving information and the related goods receiving record information is larger than the acceptance quantity or weight of the acceptance information.

The condition for judging the non-excess is that the total quantity or weight of the goods receiving information and the related goods receiving record information is less than or equal to the acceptance quantity or weight of the acceptance information.

In one embodiment, the circulation processing unit 30 can obtain the associated acceptance record information corresponding to the pickup information from the block chain storage network unit 40 according to the pickup information, and the circulation processing unit 30 compares the pickup information, the associated pickup record information, the acceptance information and the associated acceptance record information to determine whether the excess is exceeded.

The associated acceptance record information comprises one or more than one of the following: the agricultural products are used as item items, the number or weight of the inspection and acceptance, the grade of the condition, the date of the operation, the operator and the identification batch number or serial number of the source. The related acceptance record information can be increased according to the actual requirement without the limitation.

After the acceptance information and the receiving information are written into the block chain storage network unit 40, the acceptance information and the receiving information become public blocks of the block chain, and can provide the excess judgment basis for the subsequent establishment of other acceptance information or receiving information by the circulation processing unit 30. The circulation processing unit 30 can also be used for the public to inquire the tracking information of the whole circulation processing process of the agricultural products, so as to conveniently and publicly judge whether the input and output quantities are reasonable, and audit with reasonable output quantity, so as to avoid the occurrence of the situation of counterfeit production places and further achieve the balance control and management of the total quantity of the agricultural products.

The invention effectively integrates the relevant information of the agricultural production and marketing supply chain process by using the block chain service application, can ensure that the production and marketing process is open and transparent, and can clearly record the information content of the raw materials from the production place to the processing. The agricultural product traceability information has more authenticity than the existing production and marketing record, and meanwhile, the information can be effectively analyzed and subsequently applied, so that the effect of total amount balance control and management is achieved. Most importantly, consumers can buy safe products, purchase willingness is increased, sales can be stable, more agricultural unit areas are driven to cooperate, income of agricultural product producers can be increased, quality products are added and concentrated on production, and the consumers can also preferentially select the products produced by the agricultural organizations.

The above embodiments are merely illustrative of the principles and effects of the present invention, and not restrictive, and therefore modifications and variations such as those skilled in the art may be made without departing from the spirit of the present invention. The scope of the claims should be determined by the following claims and their equivalents.

Claims (25)

1. A method for balancing and managing the total amount of agricultural block chains comprises the following steps:

providing a contract management unit, wherein the contract management unit is used for registering available contract information and writing the available contract information into a block chain storage network unit by using a block chain;

inputting a contract information in the contract management unit, and enabling the contract management unit to obtain associated contract record information conforming to the contract information from the block chain storage network unit according to the contract information; and

comparing the contract information, the associated contract record information and the available contract information by using the contract management unit to judge whether excess contract is generated; if yes, generating an excessive contract information and rejecting the contract information record; if not, the block chain is used for writing the contract information into the block chain storage network unit.

2. The method of claim 1, wherein the available contract information comprises one or more of the following: the position of the farm land, the coordinates of the range of the farm land, the identification data of the farm land, the planting area or the quantity of crops to be supplied; the contract information and the associated contract record information respectively comprise one or more than one of the following: an agricultural product supplier, a crop-making farmland, a crop-making period, a crop-making planting area or a crop-making quantity.

3. The method according to claim 2, wherein the condition for determining excess amount of crop is that the total amount of the crop-agreeing information and the associated crop-agreeing record information is larger than the available area or the available crop amount of the available crop-agreeing information.

4. The method according to claim 2, wherein the condition for determining that there is no excessive crop demand is that the total amount of the crop demand information and the associated crop demand record information is less than or equal to the available area or the available crop demand amount of the available crop demand information.

5. The method according to claim 1, wherein the contract management unit is connected to a third party field production management function system tool for receiving available contract information uploaded by the third party field production management function system tool.

6. The method for agricultural blockchain total quantity balance management according to claim 1, wherein the composition of the contract management unit includes one or more than one of the following: the system comprises a contract-making farmer management module, a contract-making farmland management module, a contract-making demand management module, a contract-making plan scheduling module, a production and marketing coordination management module, a contract-making batch management module, an audit guidance management module, a basic data management module, a system parameter management module or a third-party field production management function system tool interface module.

7. A method for balancing and managing the total amount of agricultural block chains comprises the following steps:

providing a planting management unit, wherein the planting management unit is used for registering planting information and writing the planting information into a block chain storage network unit by using a block chain;

registering harvesting information in the planting management unit to enable the planting management unit to obtain associated harvesting record information which is in accordance with the harvesting information from the block chain storage network unit according to the harvesting information; and

comparing the harvesting information, the associated harvesting record information and the planting information by using the planting management unit to judge whether excessive harvesting is performed; if yes, generating excessive harvesting information; if not, the recovery information is written into the block chain storage network unit by the block chain.

8. The method of claim 7, wherein the planting information comprises one or more of the following: planting farmland, planting period, planting crops, planting area, predicted crop yield and planting identification batch number or serial number; the harvesting information and the associated harvesting record information respectively comprise one or more than one of the following: harvesting cultivated land, harvesting crops, harvesting area, harvesting quantity and planting identification batch number or serial number.

9. The method of claim 8 wherein the condition for determining excess harvest is that the total aggregate harvest area or the number of harvests of both the harvest information and the associated harvest record information is greater than the area of planting or the predicted crop yield of the planting information.

10. The method of claim 8 wherein the condition for determining not to over harvest is that the total aggregate harvest area or number of harvests of both the harvest information and the associated harvest record information is less than or equal to the area planted or expected crop yield of the planting information.

11. The method according to claim 7, wherein the planting management unit is connected to a third party field production management function system tool for receiving the planting information uploaded via the third party field production management function system tool.

12. The method of claim 7, wherein the planting management unit further obtains associated planting record information from the blockchain storage network unit according to the harvesting information, and the planting management unit compares the harvesting information, the associated harvesting record information, the planting information, and the associated planting record information to determine whether the harvesting is excessive.

13. The agricultural blockchain total balance management method of claim 12, wherein the associated planting record information includes one or more of the following: cultivated land, period of planting, crop planted, area of planting, expected crop yield, and plant identification lot or number.

14. The method according to claim 7, wherein the planting management unit is further configured to register field production operation information and write the field production operation information into the blockchain storage network unit by blockchain.

15. The agricultural blockchain total balance management method of claim 14, wherein the field production operations information includes one or more of the following: planting identification batch number or serial number, operation item content, operation date, operation personnel, applied materials and dosage and operation photo.

16. The method according to claim 14, wherein the plant management unit is connected to a third party field production management function system tool for receiving field production job information uploaded via the third party field production management function system tool.

17. The agricultural blockchain total balance management method of claim 7, wherein the composition of the planting management unit includes one or more of the following: the system comprises a planting farmer management module, a planting farmland management module, a related agricultural material management module, a planting batch management module, a planting operation management module, a harvesting operation management module, a basic data management module, a system parameter management module, a field production operation record inquiry service module, a related statistical statement module or a third-party field production management function system tool interface module.

18. A method for balancing and managing the total amount of agricultural block chains comprises the following steps:

providing a circulation processing unit, wherein the circulation processing unit is used for registering acceptance information and goods receiving information;

the circulation processing unit obtains the associated goods receiving record information which is in accordance with the goods receiving information from a block chain storage network unit according to the goods receiving information; and

comparing the goods receiving information, the associated goods receiving record information and the acceptance information by using the circulation processing unit to judge whether the goods are excessive; if yes, generating an excess message; if not, the acceptance information and the goods receiving information are written into the block chain storage network unit by the block chain.

19. The method of claim 18, wherein the acceptance information comprises one or more of the following: the agricultural products are used as item items, the number or weight of inspection and acceptance, the grade of the condition, the date of operation, the operator and the source identification batch number or serial number; the receiving information and the associated receiving record information respectively comprise one or more than one of the following items: the agricultural products are used as item items, the quantity or weight of the goods, the grade of the condition, the operation date, the operator and the source identification batch number or serial number.

20. The method according to claim 19, wherein the excess judgment condition is that the total quantity or weight of the received information and the associated received record information is greater than the quantity or weight of the received information.

21. The method according to claim 19, wherein the condition for non-excess determination is that the total quantity or weight of the received information and the associated received record information is less than or equal to the quantity or weight of the received information.

22. The method according to claim 18, wherein the processing unit is connected to a third party purchase-sale-stock management function system tool for receiving the acceptance information or the receiving information uploaded by the third party purchase-sale-stock management function system tool.

23. The method according to claim 18, wherein the circulation processing unit further obtains the associated acceptance record information corresponding to the receiving information from the blockchain storage network unit according to the receiving information, and the circulation processing unit compares the receiving information, the associated receiving record information, the acceptance information and the associated acceptance record information to determine whether the quantity is excessive.

24. The agricultural blockchain total balance management method of claim 23, wherein the associated acceptance record information includes one or more of the following: the agricultural products are used as item items, the number or weight of the inspection and acceptance, the grade of the condition, the date of the operation, the operator and the identification batch number or serial number of the source.

25. The agricultural blockchain total balance management method of claim 18, wherein the composition of the flow-through processing unit includes one or more of the following: the system comprises an acceptance warehousing management module, a grading operation management module, a processing operation management module, an order sale management module, a packaging tally operation management module, a whole-course traceability service module, a basic data management module, a system parameter management module, a related statistical report module or a third-party purchase, sale and stock management function system tool interface module.

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