CN111950843A - Ecological environment development method and system based on block chain - Google Patents

Abstract

The invention discloses an ecological environment development method and system based on a block chain, which comprises the following specific steps: s1: setting an information acquisition mode according to the characteristics of each ecological environment; s2: each area where the ecological environment is located is provided with an information acquisition station, and information acquired by the information acquisition station is sent to an area chain storage center through a wireless transceiver; s3: the number of the area chain storage modules is set in the area chain storage center according to the number of the ecological environment development types and is controlled by a control panel; s4: the development control center receives the acquisition information sent by the regional chain storage center, and sends an ecological environment exploitation scheme instruction to the information acquisition station; the system comprises: an information acquisition station; a regional chain storage center; and (5) developing a control center. The information acquisition station can send the information to the regional chain storage center and then to the development control center, and the development control center analyzes and acquires the information to provide a development scheme, so that ecological environment energy can be developed reasonably, intelligently and efficiently.

Description

Ecological environment development method and system based on block chain

Technical Field

The invention relates to the technical field of ecological environment development, in particular to a block chain-based ecological environment development method and system.

Background

In recent years, the economic development of China is rapid, the living standard of people is greatly improved, but the ecological environment development and utilization need high-tech and intelligent management. Some ecological environments are difficult to develop, the development energy can not be reasonably controlled, and the maximum resource utilization rate can not be reached. Therefore, there is an urgent need for an integrated system that can perform detailed information acquisition, regional development management, integrated control development, and overall ecological environment energy management for ecological environment development.

Disclosure of Invention

The present invention is directed to solving, at least to some extent, one of the technical problems in the related art. Therefore, one objective of the present invention is to provide a block chain-based ecological environment development method and system, in which an information collection station is provided for ecological environment development in each area, and the information collection station can send information to an area chain storage center and then to a development control center, and the development control center analyzes the collected information to provide a development scheme, so as to develop ecological environment energy reasonably, intelligently and efficiently.

The ecological environment development method based on the block chain is characterized by comprising the following steps: the specific development steps are as follows:

s1: specifically analyzing the characteristics of ecological environment resources, and setting an information acquisition mode according to the characteristics of each ecological environment;

s2: each area where the ecological environment is located is provided with an information acquisition station, and information acquired by the information acquisition station is sent to an area chain storage center through a wireless transceiver;

s3: the number of the area chain storage modules is set in the area chain storage center according to the number of the ecological environment development types and is controlled by a control panel, a wireless transceiver is arranged on the control panel, each ecological environment development type is guaranteed to be stored corresponding to one area chain storage module, a plurality of area blocks are arranged in the area chain storage module, and an information acquisition station set in each ecological environment corresponds to one area block;

s4: and the development control center receives the acquired information sent by the regional chain storage center, and after comprehensive analysis, the development control center sends an ecological environment exploitation scheme instruction to the information acquisition station.

In some embodiments of the invention, the ecological environment development comprises solar energy development, wind energy development, hydro energy development, surface mine energy development, and marine energy development.

In other embodiments of the present invention, the information acquisition station acquires information in a manner including fixed camera shooting, unmanned aerial vehicle acquisition, sensor transmission, detector detection, satellite acquisition, and manual detection.

In other embodiments of the present invention, information gathering stations developed for multiple ecoenvironments within a region are located within the same gathering station.

In other embodiments of the present invention, the number of the area blocks in the area chain storage module is greater than the number of the corresponding same ecological environment development information collection stations, and when the area block corresponding to each information collection station is abnormal in storage, redundant area blocks are automatically matched for storage.

A block chain-based ecological environment development system, comprising:

the system comprises information acquisition stations, a regional chain storage center and a regional chain management center, wherein the information acquisition stations are arranged in different regions for developing the same type of ecological environment and send information to the regional chain storage center;

the regional chain storage center comprises a plurality of regional chain storage modules and a control panel, wherein the control panel is provided with a wireless transceiver module, each regional chain storage module is internally provided with a plurality of regional blocks, and information acquired by each information acquisition station is sent through the wireless transceiver module and stored in the regional chain storage modules;

the development control center is internally provided with a control system and a database, information sent by the regional chain storage center is compared with the database to formulate a development scheme, the development scheme is sent to the information acquisition station, and personnel in the information acquisition station develop the regional ecological environment energy.

In other embodiments of the present invention, the number of the area blocks in each of the area chain storage modules is greater than the total number of the information collection stations set up for the corresponding ecological environment development.

In other embodiments of the present invention, the information processing and dispatching room uses fixed camera shooting, unmanned plane acquisition, sensor transmission, detector detection, satellite acquisition, and manual detection to acquire information.

In other embodiments of the present invention, the same area has different types of ecological environment development, and the information collection stations corresponding to the types of ecological environment development are arranged in one information collection station.

In the invention, 1, as the development conditions of one ecological environment are different in different regions and the required development technologies are different, the information acquisition is carried out on the same ecological environment in different regions in the country for comprehensive development, so that the ecological environment is developed maximally and reasonably, and the waste of ecological resources is reduced. And different ecological environments in the same area are subjected to information acquisition in the same information acquisition station, and resource development is uniformly carried out. 2. The utility model provides an information acquisition station that ecological environment development corresponds an area piece in the regional chain storage module, when an area piece in the regional chain storage module goes wrong, can not influence the normal storage of other area pieces, and the regional piece number in the regional chain storage module is greater than the total number of the information acquisition station of same ecological environment development, when an information acquisition station sends the information acquisition for the area piece appears unusually, will automatic match unnecessary area piece, guarantee the information acquisition of information acquisition station and normally go on, the problem that leads to whole information acquisition to be unable to work when having solved information storage center some structures and having gone wrong.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

fig. 1 is a control schematic diagram of an ecological environment development system based on a block chain according to the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

The invention provides an ecological environment development method based on a block chain, which is characterized by comprising the following steps: the specific development steps are as follows:

s1: specifically analyzing the characteristics of ecological environment resources, and setting an information acquisition mode according to the characteristics of each ecological environment;

s2: each area where the ecological environment is located is provided with an information acquisition station, and information acquired by the information acquisition station is sent to an area chain storage center through a wireless transceiver;

s3: the number of the area chain storage modules is set in the area chain storage center according to the number of the ecological environment development types and is controlled by a control panel, a wireless transceiver is arranged on the control panel, each ecological environment development type is guaranteed to be stored corresponding to one area chain storage module, a plurality of area blocks are arranged in the area chain storage module, and an information acquisition station set in each ecological environment corresponds to one area block;

s4: and the development control center receives the acquired information sent by the regional chain storage center, and after comprehensive analysis, the development control center sends an ecological environment exploitation scheme instruction to the information acquisition station. .

And a cloud computing center for monitoring the ecological environment and information acquisition personnel are arranged in the information acquisition station and are used for acquiring and developing the ecological environment in the region. And the information acquisition points corresponding to each information acquisition station are provided with acquisition information transmitting devices, the acquisition information is transmitted to the cloud computing center, and then the cloud computing center transmits the acquisition information to the corresponding area blocks.

The ecological environment development comprises solar energy development, wind energy development, water energy development, ground and mine energy development and ocean energy development.

Solar energy development, according to the environmental condition of each development area, different types of solar energy development are set, for areas with small mining area and low solar energy utilization rate, the solar energy can be set to be used in an immediate utilization mode without transporting collected solar energy to the outside, the solar energy development storage center is set for local construction, for example, solar street lamps, solar water heaters, solar Roc and the like, relevant industrial or agricultural development cannot be carried out on serious desertification areas or the areas, after information is collected on the areas, the solar energy utilization condition is comprehensively analyzed, and the stored solar energy is applied to other areas for construction.

Wind energy development is greatly limited by regions, and can be carried out only in certain open regions with large long-term wind power, such as coastal regions, flat-bottomed open regions and desert regions. An information acquisition station is established in a wind power mining area, the wind power size and the wind blowing time are acquired, a wind power station is established after the information is analyzed, and electric energy is stored.

The method comprises the steps of developing water energy, mainly converting potential energy of water into electric energy, investigating water areas of the whole country, collecting water potential of flowing water areas according to the water area conditions, surveying the areas of rivers or lakes and dam water areas with certain potential energy, finding the best position for establishing a power station, periodically collecting water area information, comprehensively collecting the position for establishing the hydropower station, establishing a hydropower station according to the geographical position, and developing and utilizing the water energy.

The method comprises the steps of developing land and mine energy, setting an information acquisition station for areas rich in land and mine in China, acquiring information of land and mine areas, setting up an exploitation station according to the land and mine information of the areas, exploiting according to an exploitation scheme given by a development control center, reasonably utilizing the land and mine energy, restoring the exploited land and mine areas, and preventing the areas from being incapable of living or utilizing after the land and mine energy is exploited. Resulting in waste of land.

The ocean energy mainly comprises tidal energy, ocean heat energy, ocean current energy, wind energy and the like, different ocean energy information acquisition stations are established in different areas according to the condition of coastal areas in China, and tidal energy, ocean heat energy, ocean current energy and wind energy power stations with different sizes are established according to the size of energy in the areas. After the power station is built, a power station safety information acquisition point is also needed to be established, and the harm condition brought to the built power station by the marine environment can be known in time for system analysis.

The biological environment energy sources not only comprise the above-mentioned several types, but also can be comprehensively controlled and developed according to the actual conditions.

The information acquisition station acquires information by means of shooting through a fixed camera, acquiring through an unmanned aerial vehicle, transmitting through a sensor, detecting through a detector, acquiring through a satellite and manually detecting.

The number of the area blocks in the area storage module is larger than that of the information acquisition stations corresponding to the same ecological environment development, and when the storage of the area blocks corresponding to each information acquisition station is abnormal, redundant area blocks can be automatically matched for storage. Information acquisition is guaranteed. If one area block is in storage problem, the corresponding information acquisition station automatically sends the corresponding acquisition information to redundant area blocks for storage, and the information acquisition is prevented from being interrupted in sending.

The information acquisition stations with various ecological environment developments in one area are arranged in the same acquisition station, so that the management of the ecological environment development in the same area is facilitated.

A block chain-based ecological environment development system, comprising:

the system comprises information acquisition stations, a regional chain storage center and a regional chain management center, wherein the information acquisition stations are arranged in different regions for developing the same type of ecological environment and send information to the regional chain storage center;

the regional chain storage center comprises a plurality of regional chain storage modules and a control panel, wherein the control panel is provided with a wireless transceiver module, each regional chain storage module is internally provided with a plurality of regional blocks, and information acquired by each information acquisition station is sent through the wireless transceiver module and stored in the regional chain storage modules;

the development control center is internally provided with a control system and a database, information sent by the regional chain storage center is compared with the database to formulate a development scheme, the development scheme is sent to the information acquisition station, and personnel in the information acquisition station develop the regional ecological environment energy.

The number of the area blocks in each area chain storage module is larger than that of the corresponding ecological environment development information acquisition stations. The information acquisition station adopts fixed camera shooting, unmanned aerial vehicle collection, sensor transmission, detector detection, satellite collection and artifical detection information collection.

The wireless receiving and transmitting devices of the information acquisition station, the regional chain storage center and the development control center are all realized in a GPRS mode. Common equipment in water comprises a water level meter, a temperature sensor, a water quality sensor, a wind power sensor, a polluted water probe, a camera, an unmanned aerial vehicle, a satellite and the like, and related equipment is arranged according to the type of the ecological environment and the condition that information needs to be acquired. And each ecological environment development corresponds to one area chain storage module, and information between each ecological environment development is not interfered with each other and is independent. And each zone chain storage module is periodically replaced and periodically serviced.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims (9)

1. An ecological environment development method based on a block chain is characterized in that: the specific development steps are as follows:

s1: specifically analyzing the characteristics of ecological environment resources, and setting an information acquisition mode according to the characteristics of each ecological environment;

s2: each area where the ecological environment is located is provided with an information acquisition station, and information acquired by the information acquisition station is sent to an area chain storage center through a wireless transceiver;

s3: the number of the area chain storage modules is set in the area chain storage center according to the number of the ecological environment development types and is controlled by a control panel, a wireless transceiver is arranged on the control panel, each ecological environment development type is guaranteed to be stored corresponding to one area chain storage module, a plurality of area blocks are arranged in the area chain storage module, and an information acquisition station set in each ecological environment corresponds to one area block;

s4: and the development control center receives the acquired information sent by the regional chain storage center, and after comprehensive analysis, the development control center sends an ecological environment exploitation scheme instruction to the information acquisition station.

2. The ecological environment development method based on the block chain as claimed in claim 1, wherein: the ecological environment development comprises solar energy development, wind energy development, water energy development, surface mine energy development and ocean energy development.

3. The ecological environment development method and system based on block chains according to claim 1, characterized in that: the information acquisition station acquires information by means of shooting through a fixed camera, acquiring through an unmanned aerial vehicle, transmitting through a sensor, detecting through a detector, acquiring through a satellite and manually detecting.

4. The ecological environment development method based on block chain as claimed in any one of claims 1-3, characterized in that: the information acquisition stations with various ecological environment developments in one area are arranged in the same acquisition station.

5. The ecological environment development method based on the block chain as claimed in claim 1, wherein: the number of the area blocks in the area chain storage module is larger than that of the corresponding same ecological environment development information acquisition stations, and when the storage of the area blocks corresponding to each information acquisition station is abnormal, redundant area blocks can be automatically matched for storage.

6. The ecological environment development system based on block chains according to claim 1, characterized in that: the method comprises the following steps:

the system comprises information acquisition stations, a regional chain storage center and a regional chain management center, wherein the information acquisition stations are arranged in different regions for developing the same type of ecological environment and send information to the regional chain storage center;

the regional chain storage center comprises a plurality of regional chain storage modules and a control panel, wherein the control panel is provided with a wireless transceiver module, each regional chain storage module is internally provided with a plurality of regional blocks, and information acquired by each information acquisition station is sent through the wireless transceiver module and stored in the regional chain storage modules;

the development control center is internally provided with a control system and a database, information sent by the regional chain storage center is compared with the database to formulate a development scheme, the development scheme is sent to the information acquisition station, and personnel in the information acquisition station develop the regional ecological environment energy.

7. The ecological environment development system based on block chains according to claim 6, characterized in that: the number of the area blocks in each area chain storage module is larger than the total number of the information acquisition stations which are set up for the ecological environment development corresponding to the area blocks.

8. The ecological environment development system based on block chain as claimed in claim 7, wherein: the information processing dispatching room adopts fixed camera shooting, unmanned aerial vehicle collection, sensor transmission, detector detection, satellite collection and manual detection collection information.

9. The ecological environment development system based on block chains according to claim 6, characterized in that: the ecological environment development types in the same region set the corresponding information acquisition stations in one information acquisition station.

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