CN113537929B - Industrial hemp planting supervision system and method based on blockchain - Google Patents

Abstract

The invention relates to an industrial hemp planting supervision system and method based on a blockchain, and belongs to the technical field of management and control of industrial hemp planting. The system comprises: the system comprises a block chain background management system, a DNA data acquisition module, an alarm module, a mobile terminal, an atmospheric weather sensor, a soil sensor, a camera, a satellite remote sensing image acquisition module and the like; the blockchain background management system comprises a DNA data issuing module, a DNA comparison and analysis module, a planting operation task issuing module and a planting behavior recognition module. The invention overcomes the defects of the traditional industrial hemp planting supervision mode of multi-department management and control, information sharing, incapability of tracing, tamper resistance and the like, realizes the full-flow, omnibearing and penetrating closed-loop supervision on the information of the industrial hemp from seedling raising, planting to storage, and is easy to popularize and apply.

Description

Industrial hemp planting supervision system and method based on blockchain

Technical Field

The invention belongs to the technical field of management and control of industrial hemp, and particularly relates to an industrial hemp planting supervision system and method based on a blockchain, in particular to a supervision system and method for breeding, seedling, planting, harvesting and storage of industrial hemp based on the blockchain.

Background

In the field of industrial hemp planting, at present, the planting process of industrial hemp is controlled in a traditional mode, the supervision of industrial hemp relates to multiple links and multiple main bodies, and the information of each link and each main body has important significance for overall control. Due to the product specificity of industrial hemp, multiple regulatory authorities must perform comprehensive supervision from production planning, breeding, seedling, planting, harvesting, grading, transferring, storing, production processing, transportation and sales, waste residue and waste liquid, byproduct treatment, and the like. At present, the traditional technology supervision is difficult to achieve high-efficiency cooperation of multiple departments, and is not beneficial to the full-flow supervision of the industrial hemp industry.

The industrial hemp is planted from planning to storage, the information of the whole field management and control is rich, the information can be effectively managed and controlled, the information can be traced and tampered, the problem which needs to be solved in the actual use process is solved urgently, and from the technical aspect, the blockchain relates to a plurality of scientific and technical problems such as mathematics, cryptography, the Internet, computer programming and the like. From the application perspective, the blockchain is a distributed shared ledger and database, has the characteristics of decentralization, non-falsification, whole trace, traceability, collective maintenance, disclosure transparency and the like, ensures the honest and transparent of the blockchain, and lays a foundation for creating trust for the blockchain. There is no report on the application of blockchain technology in industrial cannabis planting supervision.

Disclosure of Invention

The invention aims to overcome the defects of the prior art, such as multi-department management and control, information sharing, incapability of tracing, easy tampering of related information and the like of the traditional industrial hemp planting supervision mode, and provides an industrial hemp planting supervision system and method based on a block chain, which realize full-flow, omnibearing and penetrating closed-loop supervision of information of industrial hemp from seedling raising, planting to storage.

In order to achieve the above purpose, the technical scheme adopted by the invention is as follows:

a blockchain-based industrial cannabis planting supervision system comprising: the system comprises a block chain background management system, a DNA data acquisition module, an alarm module, a mobile terminal, an atmospheric weather sensor, a soil sensor, a camera, a satellite remote sensing image acquisition module and a CBD detection module;

The block chain background management system comprises a DNA data release module, a DNA comparison analysis module, a planting operation task release module and a planting behavior recognition module;

The DNA data acquisition module is used for acquiring industrial hemp DNA data in the links of breeding, seedling raising, planting, harvesting and storage and marking sites;

the DNA data release module is connected with the DNA data acquisition module and is used for releasing DNA data and marked sites in the industrial hemp breeding period;

The DNA comparison and analysis module is respectively connected with the DNA data acquisition module, the DNA data release module and the alarm module and is used for comparing whether the DNA data acquisition data of the industrial hemp in the links of seedling raising, planting, harvesting and storage are consistent with the DNA data of the industrial hemp in the breeding period, and if the DNA data acquisition data are inconsistent with the DNA data in the breeding period, a signal is sent to the alarm module for alarm;

the planting operation task issuing module is connected with the mobile terminal and used for issuing planting operation tasks to the mobile terminal of planting management personnel;

The mobile terminal is connected with the planting behavior recognition module and is used for checking the operation task and the planting suggestion by planting management personnel and feeding the completed operation task back to the planting behavior recognition module through the mobile terminal in real time;

the atmospheric weather sensor is used for collecting temperature and humidity and accumulated temperature and accumulated rain data in the planting process;

The soil sensor is used for collecting and analyzing temperature and humidity data of the soil;

The camera is used for collecting video image data in the planting process;

the satellite remote sensing image acquisition module is used for acquiring satellite remote sensing image data of the industrial hemp planting area;

The CBD detection module is used for collecting cannabidiol content in the links of breeding, seedling raising, planting, harvesting and storage;

The planting behavior recognition module is respectively connected with the atmospheric weather sensor, the soil sensor, the camera, the satellite remote sensing image acquisition module and the alarm module and is used for analyzing according to data acquired by the atmospheric weather sensor, the soil sensor, the camera, the satellite remote sensing image acquisition module and the CBD detection module, comparing and recognizing the data according to the completed operation tasks transmitted by the mobile terminal, analyzing the authenticity of the operation process behavior data, and sending a signal to the alarm module for alarming if abnormal behaviors exist.

Further, it is preferable that the planting job task issuing module is further configured to issue planting suggestions to the mobile terminal of the planting manager.

Further, it is preferable that the soil sensor is linked with an automatic spraying system and an automatic drip irrigation system to spray or drip the industrial hemp.

Further, it is preferable that the satellite remote sensing image acquisition module is replaced with an unmanned aerial vehicle so as to acquire data of an industrial hemp planting area.

Further, preferably, the system further comprises a planting information acquisition module connected with the planting behavior recognition module and used for acquiring information of input products and various agronomic records in the planting process; the input product comprises pesticides and fertilizers; and transmitting the acquired information to a planting behavior recognition module to assist in analyzing the authenticity of the behavior data in the working process.

Further, preferably, the system further comprises an agricultural machinery operation data acquisition module connected with the planting behavior recognition module and used for acquiring agricultural machinery operation data; transmitting the acquired information to a planting behavior recognition module, and assisting in analyzing the authenticity of behavior data in the operation process; the agricultural machinery comprises a rice transplanter, an unmanned aerial vehicle, a plant protection machine, a harvester and a straw bundling machine; the operation data comprise operation area, operation track, spraying quantity and oil consumption.

Further, preferably, the system further comprises a storage information acquisition module connected with the planting behavior recognition module and used for acquiring data of warehouse-in and warehouse-out in the storage process and quality inspection, and transmitting the acquired information to the planting behavior recognition module and analyzing the dynamic change of the quantity of the industrial hemp collection, storage and circulation processes.

Further, the method is preferably characterized in that the data acquired by the DNA data acquisition module, the atmospheric weather sensor, the soil sensor, the camera, the satellite remote sensing image acquisition module, the unmanned aerial vehicle, the planting information acquisition module and the agricultural machinery operation data acquisition module and the data uploaded by the mobile terminal and the storage information acquisition module are all uplink, the corresponding intelligent contract is called for data auditing, and the next link can be started after the data to be checked passes.

The invention also provides a block chain-based industrial hemp planting supervision method, which adopts the block chain-based industrial hemp planting supervision system and comprises the following steps:

Step (1), detecting and recording genome data of the industrial hemp breeding period, and releasing the genome data and the breeding flow

Step (2), in the seedling stage of industrial hemp planting, collecting and detecting genome data of seedlings, recording, comparing the genome data with the data recorded in the step (1), and if the genome data are inconsistent, alarming;

Step (3), acquiring temperature and humidity, accumulated temperature and accumulated rain data and temperature and humidity data of soil in the planting process, and simultaneously acquiring video image data in the planting process, data of an industrial hemp planting area and cannabidiol content in each link; according to the collected data, identifying and analyzing behaviors in the planting process, analyzing the operation behaviors in the operation process, and analyzing the authenticity of the operation process data;

And (4) collecting warehouse-in and warehouse-out and quality inspection data in the warehouse process, and identifying and analyzing the behaviors in the warehouse process so as to judge the authenticity of the operation process.

Further, it is preferable that the method further comprises the step of collecting information of the input articles in the planting process, various kinds of agronomic record information and agronomic operation data, and assisting in analyzing the authenticity of the operation process behavior data.

The invention can record the whole processes of breeding, seedling raising, planting, harvesting, storage and the like in the industrial hemp planting process by using the blockchain, and ensure the authenticity, the non-tamper property, the non-forgery property and the authenticity and the transparency of the data, thereby increasing the supervision force and relieving the supervision pressure.

The invention can solve the problem of omnibearing supervision in the industrial hemp planting supervision process, and ensures that the industrial hemp is not exchanged in the whole planting process by effectively collecting the data such as Cannabidiol (CBD) and the like in the links such as industrial hemp breeding, seedling raising, planting, harvesting, storage and the like and ensuring that the data cannot be tampered through a block chain platform. Preferably, the invention establishes codes of different links according to the production, processing and circulation processes based on batches, and establishes association between the codes, thereby ensuring industrial hemp information traced to each link.

The industrial hemp planting supervision platform based on the blockchain acquires the data of the steps of breeding, seedling raising, planting, harvesting and storage supervision of industrial hemp, and uploads the acquired data to the blockchain platform to ensure that the data cannot be tampered with: the data acquisition method of biotechnology acquisition, internet of things and artificial intelligence is adopted, and data uploading is supervised through each link.

The biological technology is used for collecting and marking sites by collecting DNA data of industrial hemp in the links of breeding, seedling raising, planting, harvesting and storage, and collecting DNA from the breeding stage to the seedling raising and planting stage for checking the DNA, so that the industrial hemp is not exchanged in the planting process, and supervision data is provided for circulation of the subsequent links.

The process of monitoring data acquisition and utilizing the Internet of things specifically comprises the following steps: the temperature and humidity and accumulated temperature and accumulated rain data in the planting process are collected through an atmospheric weather sensor; the temperature and humidity data of the soil are collected and analyzed through the soil sensor, and are linked with an automatic spraying and automatic drip irrigation system to spray or drip the industrial hemp; collecting video image data in the planting process through a camera; the system is provided for a background management system, intelligent recognition and analysis are carried out on behaviors in the planting process, and the content of CBD in industrial hemp in different environments is detected and analyzed through instruments.

The artificial intelligence process of the data acquisition specifically comprises the following steps: based on the industrial hemp biotechnology and the data acquired by the Internet of things system, analyzing the system data by means of big data analysis and artificial intelligence; analyzing daily operation behaviors in the operation process through the planting process data and the data acquired based on the video camera, and automatically identifying and analyzing the authenticity of the operation process data; the growth of the industrial hemp can be automatically analyzed and judged through satellite remote sensing (or unmanned aerial vehicle) image data.

The uploading of the supervision data of each link specifically comprises the following steps: collecting key data of each link, and uploading the data to a chain for evidence storage; and then, the data of each link is connected in a butt joint way through the block chain connection.

Each production link data is uplink, a corresponding intelligent contract is called to conduct data auditing, and the next link can be started after the data auditing is passed; the intelligent contract rule is formulated by each supervision department, and each supervision department vertically monitors the whole flow data.

The block chain-based supervision platform can realize trusted storage on a data chain, sharing on the data chain, analysis on the data chain, supervision on the data chain and tracing on the data chain in the whole processes of breeding, seedling raising, planting, harvesting, storage and the like in the industrial hemp planting process.

The invention is used for a planting manager to check the operation task and the planting suggestion at the mobile terminal, and feeds the completed operation task back to the planting behavior recognition module through the mobile terminal in real time, thereby providing a data basis for tracing quality tracing.

And comparing whether the DNA data acquisition data of the industrial hemp in the links of seedling, planting, harvesting and storage are consistent with the DNA data of the industrial hemp in the breeding period by using a DNA comparison and analysis module, so that the whole breeding and seedling process and the whole quantity can be verified in a traceable way.

The planting information collection module preferably employs existing MAPPER assistants and/or MAP Intelligence agricultural APP. The agricultural machinery operation data acquisition module is connected with various agricultural machinery internet of things equipment boxes, so that data acquisition is realized.

The industrial hemp production processing and storage involves a plurality of links, and the supervision information is distributed in different links, so that the supervision data of each link based on the whole process is needed, and the association between the supervision data is established, so that the whole process supervision can be realized.

The invention provides an industrial hemp planting supervision system based on a blockchain, which is used for effectively acquiring Cannabidiol (CBD), genome and other data in various links of industrial hemp breeding, seedling raising, planting, harvesting, storage and the like, monitoring the content change of the Cannabidiol (CBD) in various links to realize the whole process supervision of industrial hemp planting, and ensuring that the data cannot be tampered by a blockchain platform so as to ensure that the industrial hemp is not exchanged in the whole planting process; and the codes of different links are established according to the production, processing and circulation processes based on batches, and the association between the codes is established, so that the industrial hemp information traced to each link is ensured, and a means is provided for ensuring the supervision of the industrial hemp.

The main data acquisition mode of the platform comprises biological data acquisition, internet of things, artificial intelligence and the like, so that the authenticity of data sources is ensured, and the data cannot be tampered through the data uplink of each link, so that the industrial hemp in the production, processing and storage links is prevented from being exchanged.

Collecting key data of each link, and uploading the data to a chain for evidence storage; and then, the data of each link is connected in a butt joint way through the block chain connection. In addition, through the data acquisition of each link, the analysis of the data acquired by each link can be realized, an early warning threshold value is set, and when the numerical value reaches the threshold value range, the manager is reminded to carry out corresponding processing.

Compared with the prior art, the invention has the beneficial effects that:

The invention overcomes the defects of the traditional industrial hemp planting supervision mode of multi-department management and control, information sharing, incapability of tracing, easy data tampering and the like, realizes the full-flow, omnibearing and penetrating closed-loop supervision on the information of the industrial hemp from seedling raising and planting to storage process, and is easy to popularize and apply.

Drawings

FIG. 1 is a schematic diagram of an embodiment of a blockchain-based industrial hemp planting monitoring system;

FIG. 2 is a schematic structural view of yet another embodiment of a blockchain-based industrial cannabis planting supervision system;

FIG. 3 is a schematic block chain based architecture of yet another embodiment of an industrial cannabis planting supervision system;

FIG. 4 is a schematic diagram of a fourth embodiment of a blockchain-based industrial cannabis planting supervision system;

FIG. 5 is a schematic structural view of a fifth embodiment of a blockchain-based industrial cannabis planting supervision system;

101, a DNA data acquisition module; 102. a DNA data issuing module; 103. a DNA comparison analysis module; 104. an alarm module; 105. a planting operation task issuing module; 106. a mobile terminal; 107. an atmospheric weather sensor; 108. a soil sensor; 109. a camera; 110. the satellite remote sensing image acquisition module; 111. a planting behavior recognition module; 112. unmanned plane; 113. a planting information acquisition module; 114. the agricultural machinery operation data acquisition module; 115. a warehouse information acquisition module; 116. a CBD detection module; the arrow direction is the data or signal trend.

Detailed Description

The present invention will be described in further detail with reference to examples.

It will be appreciated by those skilled in the art that the following examples are illustrative of the present invention and should not be construed as limiting the scope of the invention. The specific techniques or conditions are not identified in the examples and are performed according to techniques or conditions described in the literature in this field or according to the product specifications. The materials or equipment used are conventional products available from commercial sources, not identified to the manufacturer.

As used herein, the singular forms "a", "an", "the" and "the" are intended to include the plural forms as well, unless expressly stated otherwise, as understood by those skilled in the art. It will be further understood that the terms "comprises" and/or "comprising," when used in this specification, specify the presence of stated features, integers, steps, operations, elements, and/or components, but do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, and/or groups thereof. It will be understood that when an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. Further, "connected" as used herein may include wireless connections. The term "and/or" as used herein includes any and all combinations of one or more of the associated listed items.

In the description of the present invention, unless otherwise indicated, the meaning of "a plurality" is two or more. The orientation or state relationship indicated by the terms "inner", "upper", "lower", etc. are orientation or state relationship based on the drawings, are merely for convenience of description and simplification of description, and do not indicate or imply that the apparatus or element in question must have a specific orientation, be configured and operated in a specific orientation, and therefore should not be construed as limiting the invention.

In the description of the present invention, it should be noted that, unless explicitly stated and limited otherwise, the terms "mounted," "connected," and "provided" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium. The specific meaning of the above terms in the present invention is understood by those of ordinary skill in the art according to the specific circumstances.

It will be understood by those skilled in the art that, unless otherwise defined, all terms (including technical and scientific terms) used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. It will be further understood that terms, such as those defined in commonly used dictionaries, should be interpreted as having a meaning that is consistent with their meaning in the context of the prior art and will not be interpreted in an idealized or overly formal sense unless expressly so defined herein.

As shown in fig. 1, a blockchain-based industrial hemp planting supervision system, comprising: the system comprises a block chain background management system, a DNA data acquisition module 101, an alarm module 104, a mobile terminal 106, an atmospheric weather sensor 107, a soil sensor 108, a camera 109, a satellite remote sensing image acquisition module 110 and a CBD detection module 116;

The blockchain background management system comprises a DNA data issuing module 102, a DNA comparison and analysis module 103, a planting operation task issuing module 105 and a planting behavior identification module 111;

the DNA data acquisition module 101 is used for acquiring industrial hemp DNA data in the steps of breeding, seedling raising, planting, harvesting and storage and marking sites;

The DNA data release module 102 is connected with the DNA data acquisition module 101 and is used for releasing DNA data and marked sites in the breeding period of the industrial hemp;

The DNA comparison and analysis module 103 is respectively connected with the DNA data acquisition module 101, the DNA data release module 102 and the alarm module 104 and is used for comparing whether the DNA data acquisition data of the industrial hemp in the links of seedling raising, planting, harvesting and storage are consistent with the DNA data of the industrial hemp in the breeding period, if not, a signal is sent to the alarm module 104 for alarm;

the planting operation task issuing module 105 is connected with the mobile terminal 106 and is used for issuing planting operation tasks to the mobile terminal 106 of a planting manager;

The mobile terminal 106 is connected with the planting behavior recognition module 111 and is used for a planting manager to check the operation task and the planting suggestion and feed the completed operation task back to the planting behavior recognition module 111 through the mobile terminal 106 in real time;

an atmospheric weather sensor 107 for collecting temperature and humidity and accumulated temperature and accumulated rain data in the planting process;

A soil sensor 108 for collecting and analyzing temperature and humidity data of soil;

A camera 109 for acquiring video image data during the planting process;

The satellite remote sensing image acquisition module 110 is used for acquiring satellite remote sensing image data of an industrial hemp planting area;

the CBD detection module 116 is configured to collect cannabidiol content in breeding, seedling, planting, harvesting, and storage links;

The planting behavior recognition module 111 is respectively connected with the atmospheric weather sensor 107, the soil sensor 108, the camera 109, the satellite remote sensing image acquisition module 110 and the alarm module 104, and is used for analyzing according to the data acquired by the atmospheric weather sensor 107, the soil sensor 108, the camera 109, the satellite remote sensing image acquisition module 110 and the CBD detection module 116, comparing and recognizing according to the completed operation task transmitted by the mobile terminal 106, analyzing the authenticity of the operation process behavior data, and if abnormal behaviors exist, sending a signal to the alarm module 104 for alarm.

Preferably, the planting job task issuing module 105 is further configured to issue planting suggestions to the mobile terminal 106 of the planting manager.

Preferably, the soil sensor 108 is linked to an automatic spray system, an automatic drip irrigation system, and sprays or drips the industrial hemp.

Preferably, as shown in fig. 2, the satellite remote sensing image acquisition module 110 is replaced with an unmanned aerial vehicle 112 to acquire data of an industrial hemp planting area.

Preferably, as shown in fig. 3, the system further comprises a planting information acquisition module 113 connected with the planting behavior recognition module 111 and used for acquiring information of the input products and various agronomic records in the planting process; the input product comprises pesticides and fertilizers; the collected information is transmitted to the planting behavior recognition module 111 to assist in analyzing the authenticity of the operational process behavior data.

Preferably, as shown in fig. 4, the system further comprises an agricultural machinery operation data acquisition module 114 connected with the planting behavior recognition module 111 and used for acquiring agricultural machinery operation data; transmitting the collected information to a planting behavior recognition module 111 to assist in analyzing the authenticity of the behavior data in the operation process; the agricultural machinery comprises a rice transplanter, an unmanned aerial vehicle, a plant protection machine, a harvester and a straw bundling machine; the operation data comprise operation area, operation track, spraying quantity and oil consumption.

Preferably, as shown in fig. 5, the system further comprises a warehouse information acquisition module 115, which is connected with the planting behavior recognition module 111 and is used for acquiring warehouse-in and warehouse-out quality inspection data in the warehouse process, transmitting the acquired information to the planting behavior recognition module 111, and analyzing the dynamic change of the quantity of the industrial hemp collection warehouse circulation process.

Preferably, the data collected by the DNA data collection module 101, the atmospheric weather sensor 107, the soil sensor 108, the camera 109, the satellite remote sensing image collection module 110, the unmanned aerial vehicle 112, the planting information collection module 113 and the agricultural machinery operation data collection module 114 and the data uploaded by the mobile terminal 106 and the storage information collection module 115 are all linked, and the corresponding intelligent contract is called for data auditing, and the next link can be started after the data to be audited passes.

The industrial hemp planting supervision method based on the blockchain adopts the industrial hemp planting supervision system based on the blockchain, and comprises the following steps:

Step (1), detecting and recording genome data of the industrial hemp breeding period, and releasing the genome data and the breeding flow

Step (2), in the seedling stage of industrial hemp planting, collecting and detecting genome data of seedlings, recording, comparing the genome data with the data recorded in the step (1), and if the genome data are inconsistent, alarming;

Step (3), acquiring temperature and humidity, accumulated temperature and accumulated rain data and temperature and humidity data of soil in the planting process, and simultaneously acquiring video image data in the planting process, data of an industrial hemp planting area and cannabidiol content in each link; according to the collected data, identifying and analyzing behaviors in the planting process, analyzing the operation behaviors in the operation process, and analyzing the authenticity of the operation process data;

And (4) collecting warehouse-in and warehouse-out and quality inspection data in the warehouse process, and identifying and analyzing the behaviors in the warehouse process so as to judge the authenticity of the operation process.

Preferably, the method also comprises the steps of collecting information of the input products in the planting process, various kinds of agronomic records information and agronomic machine operation data, and assisting in analyzing the authenticity of the operation process behavior data.

The foregoing has shown and described the basic principles, principal features and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present invention, and various changes and modifications may be made without departing from the spirit and scope of the invention, which is defined in the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (7)

1. The industrial hemp planting supervision method based on the blockchain is characterized by adopting an industrial hemp planting supervision system based on the blockchain, wherein the industrial hemp planting supervision system based on the blockchain comprises a blockchain background management system, a DNA data acquisition module (101), an alarm module (104), a mobile terminal (106), an atmospheric weather sensor (107), a soil sensor (108), a camera (109), a satellite remote sensing image acquisition module (110) and a CBD detection module (116);

The block chain background management system comprises a DNA data issuing module (102), a DNA comparison and analysis module (103), a planting operation task issuing module (105) and a planting behavior identification module (111);

The DNA data acquisition module (101) is used for acquiring industrial hemp DNA data in the links of breeding, seedling raising, planting, harvesting and storage and marking sites;

the DNA data release module (102) is connected with the DNA data acquisition module (101) and is used for releasing DNA data and marked sites in the industrial hemp breeding period;

the DNA comparison and analysis module (103) is respectively connected with the DNA data acquisition module (101), the DNA data release module (102) and the alarm module (104) and is used for comparing whether the DNA data acquisition data of the industrial hemp in the links of seedling raising, planting, harvesting and storage are consistent with the DNA data of the industrial hemp in the breeding period, and if the DNA data acquisition data are inconsistent with the DNA data in the breeding period, a signal is sent to the alarm module (104) for alarm;

The planting operation task issuing module (105) is connected with the mobile terminal (106) and is used for issuing planting operation tasks to the mobile terminal (106) of planting management personnel;

the mobile terminal (106) is connected with the planting behavior recognition module (111) and is used for a planting manager to check the operation tasks and the planting suggestions and feed the completed operation tasks back to the planting behavior recognition module (111) through the mobile terminal (106) in real time;

the atmospheric weather sensor (107) is used for collecting temperature and humidity and accumulated temperature and accumulated rain data in the planting process;

a soil sensor (108) for acquiring and analyzing temperature and humidity data of soil;

The camera (109) is used for collecting video image data in the planting process;

The satellite remote sensing image acquisition module (110) is used for acquiring satellite remote sensing image data of the industrial hemp planting area;

the CBD detection module (116) is used for collecting the cannabidiol content in the links of breeding, seedling raising, planting, harvesting and storage;

The planting behavior recognition module (111) is respectively connected with the atmospheric weather sensor (107), the soil sensor (108), the camera (109), the satellite remote sensing image acquisition module (110) and the alarm module (104) and is used for analyzing data acquired by the atmospheric weather sensor (107), the soil sensor (108), the camera (109), the satellite remote sensing image acquisition module (110) and the CBD detection module (116), comparing and recognizing the data according to the completed operation tasks transmitted by the mobile terminal (106), analyzing the authenticity of the operation process behavior data, and transmitting a signal to the alarm module (104) to alarm if abnormal behaviors exist;

The industrial hemp planting supervision method based on the blockchain comprises the following steps:

step (1), detecting and recording genome data of the industrial cannabis sativa in a breeding period, and releasing the genome data and a breeding flow;

Step (2), in the seedling stage of industrial hemp planting, collecting and detecting genome data of seedlings, recording, comparing the genome data with the data recorded in the step (1), and if the genome data are inconsistent, alarming;

Step (3), acquiring temperature and humidity, accumulated temperature and accumulated rain data and temperature and humidity data of soil in the planting process, and simultaneously acquiring video image data in the planting process, data of an industrial hemp planting area and cannabidiol content in each link; according to the collected data, identifying and analyzing behaviors in the planting process, analyzing the operation behaviors in the operation process, and analyzing the authenticity of the operation process data;

Step (4), collecting warehouse-in and warehouse-out and quality inspection data in a warehouse process in a warehouse link, and identifying and analyzing behaviors in the warehouse process so as to judge the authenticity of the operation process;

The planting operation task issuing module (105) is also used for issuing planting suggestions to a mobile terminal (106) of a planting manager;

The system comprises a DNA data acquisition module (101), an atmospheric weather sensor (107), a soil sensor (108), a camera (109), a satellite remote sensing image acquisition module (110), an unmanned aerial vehicle (112), a planting information acquisition module (113), an agricultural machine operation data acquisition module (114) and data uploaded by a mobile terminal (106) and a storage information acquisition module (115) are all uplink, a corresponding intelligent contract is called for data auditing, and the next link can be started after the data passes through the auditing.

2. The blockchain-based industrial hemp planting supervision method according to claim 1, wherein the soil sensor (108) is linked with an automatic spraying system and an automatic drip irrigation system to spray or drip the industrial hemp.

3. The blockchain-based industrial cannabis planting supervision method of claim 1, wherein the satellite remote sensing image acquisition module (110) is replaced by an unmanned aerial vehicle (112) to acquire data of an industrial cannabis planting area.

4. The blockchain-based industrial hemp planting supervision method according to claim 1, further comprising a planting information acquisition module (113) connected with the planting behavior identification module (111) for acquiring information of input products and various agronomic records in the planting process; the input product comprises pesticides and fertilizers; the collected information is transmitted to a planting behavior recognition module (111) to assist in analyzing the authenticity of the operational process behavior data.

5. The blockchain-based industrial hemp planting supervision method according to claim 1, further comprising an agricultural machinery operation data acquisition module (114) connected to the planting behavior identification module (111) for acquiring agricultural machinery operation data; transmitting the acquired information to a planting behavior recognition module (111) to assist in analyzing the authenticity of the behavior data in the operation process; the agricultural machinery comprises a rice transplanter, an unmanned aerial vehicle, a plant protection machine, a harvester and a straw bundling machine; the operation data comprise operation area, operation track, spraying quantity and oil consumption.

6. The blockchain-based industrial hemp planting supervision method according to claim 1, further comprising a warehouse information acquisition module (115) connected with the planting behavior identification module (111) and used for acquiring warehouse-in and warehouse-out quality inspection data in the warehouse process and transmitting the acquired information to the planting behavior identification module (111) so as to analyze the dynamic change of the quantity of the industrial hemp collection, warehouse-in and circulation processes.

7. The blockchain-based industrial hemp planting supervision method according to claim 1, further comprising collecting information of input products in the planting process, various agronomic records information and agronomic machine operation data, and assisting in analyzing the authenticity of the operation process behavior data.