CN111337076A - Simulation method of artificial rainforest micro-ecosystem - Google Patents

Abstract

The invention discloses a method for simulating a micro-ecosystem of an artificial rainforest, which comprises the following steps: s1, installation of sensing equipment, S2, data acquisition and storage, S3, registration of ecological species information, S4, acquisition of data information, S5, ecological simulation, S6 and real-time updating of data, and relates to the technical field of ecological simulation systems. The simulation method of the artificial rainforest micro-ecosystem can realize the real-time dynamic simulation of the ecosystem by establishing data connection between the artificially created ecosystem and the computer simulation system, well achieves the purpose of avoiding the contingency of simulation results through the real-time dynamic simulation, realizes the intelligent data acquisition and simulation of the ecosystem which is rapid and convenient, greatly expands the application range of the simulation system, and ensures that the simulation results have higher accuracy and universality, thereby greatly facilitating the research work of the artificial ecosystem of researchers.

Description

Simulation method of artificial rainforest micro-ecosystem

Technical Field

The invention relates to the technical field of ecological simulation systems, in particular to a simulation method of an artificial rainforest micro-ecological system.

Background

The artificial ecosystem is an ecosystem formed after human intervention and transformation, is determined by virtuous circle of human activities, natural ecology and social and economic conditions, and the human action on the natural ecology is mainly reflected in the development and transformation of the human on the nature, agricultural production not only changes the varieties and habits of animals and plants, but also causes the change of climate, landform and the like, the influence of the natural ecology on the human is manifold, clothes, food, living and moving are not in time, different social systems, production relations and productivity levels restrict the activity ability of people and the utilization mode of natural resources, thereby deeply influencing the human activities and the natural conditions, the artificial ecosystem such as a city ecosystem, an agricultural ecosystem, an artificial forest ecosystem, an orchard ecosystem and the like is characterized in that the social nature is ①, namely the social nature intervention and influence of the human society, the variability and the instability of ②, the ecological system is easily influenced by various environmental factors and can change along with the activities of the human, the energy conservation is poor, the artificial ecosystem is one of the artificial rain forest ecosystem, is also called a rain forest study on the rain forest ecosystem, and a rain forest information can be obtained through the research on the artificial ecosystem, so as the research of rain forest information and the research on the rain forest ecological system.

At present, in the process of performing artificial ecosystem simulation, most of the artificial ecosystem models are directly established through a computer, and then workers spend a lot of time inputting data information of different species in the models for experimental simulation, however, the simulation method has limited functions, and the simulation result has instantaneity and contingency, so that the ecological system can not be dynamically simulated in real time by establishing data connection between the artificially established ecological system and the computer simulation system, the purpose of avoiding the contingency of the simulation result through the real-time dynamic simulation can not be achieved, and the intelligent data acquisition and simulation of the ecological system can not be rapidly and conveniently performed, thereby bringing great inconvenience to the research work of the artificial ecosystem of researchers.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides a simulation method of an artificial rainforest micro-ecosystem, which solves the problems that the existing simulation method is relatively limited in function, the simulation result is instantaneous and accidental, real-time dynamic simulation of the ecosystem can not be realized by establishing data connection between an artificially created ecosystem and a computer simulation system, the purpose of avoiding the accidental of the simulation result through real-time dynamic simulation can not be achieved, and intelligent data acquisition and simulation of the ecosystem can not be quickly and conveniently realized.

(II) technical scheme

In order to achieve the purpose, the invention is realized by the following technical scheme: a simulation method of an artificial rainforest micro-ecosystem specifically comprises the following steps:

s1, installation of sensing equipment: firstly, arranging an artificial ecological sensing layer in an artificially established rainforest ecological system, and respectively installing a chip control module, a carbon dioxide gas concentration sensor, an air humidity sensor, a temperature sensor, an air pressure sensor, a soil humidity sensor, an illumination intensity sensor and a signal processing circuit at response positions in the artificial rainforest ecological system;

s2, data acquisition and storage: collecting data in the artificial rainforest ecosystem through each sensing device installed in the step S1, transmitting the collected data to a data layer, distributing and collecting each data through a data distribution module and a data collection and storage module, and transmitting the collected data to a database for storage for ecological simulation;

s3, registration of ecological species information: when the ecosystem needs to be simulated, registering each species information in the ecosystem to be simulated through a species information registration module in a species information recording unit, judging whether the data is unconventional data or not through a species information analysis module, removing the unconventional data, and generating a corresponding label through a species label generation module;

s4, acquiring data information: inputting information of the species to be simulated into the system through a keyword information editing module in the species information acquisition unit, sending a retrieval instruction to the database in the step S2 through a data information retrieval module, extracting the retrieved data information through a data information extraction module, and transmitting the extracted data information into a central processing module;

s5, ecological simulation: the central processing module controls an ecological modeling module in the ecological simulation unit to create an ecological simulation model, a simulation algorithm to be used is extracted and transmitted into a model test module through a simulation algorithm extraction module, then ecological information is led into the model test module through an ecological information leading-in module, then dynamic simulation of real-time data transmission is carried out through a dynamic simulation module, a simulation result is sent into a simulation result analysis module through a simulation result sending module, and the simulation result is analyzed by the simulation result analysis module;

s6, real-time updating of data: when ecological simulation is carried out, simulation data can be directly input into the system through the data editing unit for ecological simulation, meanwhile, the ecological data real-time updating module carries out real-time updating on the ecological data within the time set by the timestamp server, and the data simulated in the step S5 are transmitted into the system application layer to be consulted by monitoring personnel.

Preferably, the artificial ecological sensor layer in step S1 includes a chip control module, a carbon dioxide gas concentration sensor, an air humidity sensor, a temperature sensor, an air pressure sensor, a soil humidity sensor, an illumination intensity sensor, and a signal processing circuit.

Preferably, the data layer in step S2 includes a data distribution module, a data collection and storage module, and a database.

Preferably, the species information entry unit in step S3 includes a species information registration module, a species information analysis module, and a species tag generation module.

Preferably, the species information obtaining unit in step S4 includes a keyword information editing module, a data information retrieving module, and a data information extracting module.

Preferably, the ecological simulation unit in step S5 includes an ecological modeling module, a model testing module, an ecological information importing module, a dynamic simulation module, and a simulation result sending module.

(III) advantageous effects

The invention provides a method for simulating a micro-ecosystem of an artificial rainforest. The method has the following beneficial effects:

(1) the simulation method of the artificial rainforest micro-ecosystem specifically comprises the following steps: s1, installation of sensing equipment: at first, set up in the rainforest ecosystem of artifical establishment and install artifical ecological sensing layer, install the position of response in artifical rainforest ecosystem, S2, the collection and the storage of data respectively with chip control module, carbon dioxide gas concentration sensor, air humidity transducer, temperature sensor, baroceptor, soil moisture sensor, illumination intensity sensor and signal processing circuit: acquiring data in the artificial rainforest ecosystem through each sensing device installed in the step S1, transmitting the acquired data into a data layer, and registering ecological species information S3: when the ecosystem simulation is required, registering each species information in the ecosystem to be simulated through a species information registration module in a species information entry unit, and acquiring data information at S4: inputting information of the species to be simulated into the system through a keyword information editing module in the species information acquisition unit, and sending a retrieval instruction to the database in the step S2 through a data information retrieval module, S5, ecological simulation: the central processing module controls an ecological modeling module in the ecological simulation unit to create an ecological simulation model, then the simulation algorithm to be used is extracted and transmitted to the model testing module through the simulation algorithm extraction module, and S6, the data are updated in real time: when ecological simulation is carried out, simulation data can be directly input into the system for ecological simulation through the data editing unit, data connection can be established between the artificially created ecological system and the computer simulation system, real-time dynamic simulation of the ecological system is carried out, the purpose of avoiding the contingency of simulation results through the real-time dynamic simulation is well achieved, intelligent data acquisition and simulation of the ecological system are rapidly and conveniently carried out, a worker does not need to spend a large amount of time for inputting data information of different species into the model for experimental simulation, the application range of the simulation system is greatly expanded, the simulation results have higher accuracy and universality, and the research work of the artificial ecological system of a researcher is greatly facilitated.

(2) According to the simulation method of the artificial rainforest micro-ecosystem, the artificial ecological sensor layer comprises the chip control module, the carbon dioxide gas concentration sensor, the air humidity sensor, the temperature sensor, the air pressure sensor, the soil humidity sensor, the illumination intensity sensor and the signal processing circuit, data collection can be achieved through the sensors in the established ecological system environment respectively, and collected data are transmitted to the data layer to be stored.

Drawings

FIG. 1 is a flow chart of the present invention;

FIG. 2 is a schematic block diagram of the architecture of the system of the present invention;

FIG. 3 is a schematic block diagram of the structure of the ecological data simulation layer of the present invention;

fig. 4 is a schematic block diagram of the structure of the ecological simulation unit of 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. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-4, an embodiment of the present invention provides a technical solution: a simulation method of an artificial rainforest micro-ecosystem specifically comprises the following steps:

s1, installation of sensing equipment: firstly, arranging an artificial ecological sensing layer in an artificially established rainforest ecological system, and respectively installing a chip control module, a carbon dioxide gas concentration sensor, an air humidity sensor, a temperature sensor, an air pressure sensor, a soil humidity sensor, an illumination intensity sensor and a signal processing circuit at the responding positions in the artificial rainforest ecological system, wherein the artificial ecological sensor layer comprises the chip control module, the carbon dioxide gas concentration sensor, the air humidity sensor, the temperature sensor, the air pressure sensor, the soil humidity sensor, the illumination intensity sensor and the signal processing circuit;

s2, data acquisition and storage: collecting data in the artificial rainforest ecosystem through each sensing device installed in the step S1, transmitting the collected data to a data layer, distributing and collecting each data through a data distribution module and a data collection and storage module, transmitting the collected data to a database for storage for ecological simulation, wherein the data layer comprises the data distribution module, the data collection and storage module and the database;

s3, registration of ecological species information: when the ecosystem needs to be simulated, registering each species information in the ecosystem to be simulated through a species information registration module in a species information recording unit, judging whether the data is unconventional data through a species information analysis module, removing the unconventional data, and generating a corresponding label through a species label generation module, wherein the species information recording unit comprises a species information registration module, a species information analysis module and a species label generation module;

s4, acquiring data information: inputting information of species to be simulated into the system through a keyword information editing module in a species information acquisition unit, sending a retrieval instruction to the database in the step S2 through a data information retrieval module, extracting retrieved data information through a data information extraction module, and transmitting the extracted data information to a central processing module, wherein the species information acquisition unit comprises a keyword information editing module, a data information retrieval module and a data information extraction module;

s5, ecological simulation: the central processing module controls an ecological modeling module in an ecological simulation unit to create an ecological simulation model, a simulation algorithm to be used is extracted and transmitted into a model test module through a simulation algorithm extraction module, then ecological information is led into the model test module through an ecological information leading-in module, then dynamic simulation of real-time data transmission is carried out through a dynamic simulation module, a simulation result is sent into a simulation result analysis module through a simulation result sending module, the simulation result analysis module analyzes the simulation result, and the ecological simulation unit comprises an ecological modeling module, a model test module, an ecological information leading-in module, a dynamic simulation module and a simulation result sending module;

s6, real-time updating of data: when ecological simulation is carried out, simulation data can be directly input into the system through the data editing unit for ecological simulation, meanwhile, the ecological data real-time updating module carries out real-time updating on the ecological data within the time set by the timestamp server, and the data simulated in the step S5 are transmitted into the system application layer to be consulted by monitoring personnel.

In conclusion, the invention can realize real-time dynamic simulation of the ecosystem by establishing data connection between the artificially created ecosystem and the computer simulation system, well achieves the aim of avoiding the contingency of simulation results through the real-time dynamic simulation, realizes the rapid and convenient intelligent data acquisition and simulation of the ecosystem, does not need workers to spend a large amount of time to input data information of different species in a model for experimental simulation, greatly expands the application range of the simulation system, ensures that the simulation results have higher accuracy and universality, and greatly facilitates the research work of the artificial ecosystem of researchers.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. A simulation method of an artificial rainforest micro-ecosystem is characterized in that: the method specifically comprises the following steps:

s1, installation of sensing equipment: firstly, arranging an artificial ecological sensing layer in an artificially established rainforest ecological system, and respectively installing a chip control module, a carbon dioxide gas concentration sensor, an air humidity sensor, a temperature sensor, an air pressure sensor, a soil humidity sensor, an illumination intensity sensor and a signal processing circuit at response positions in the artificial rainforest ecological system;

s2, data acquisition and storage: collecting data in the artificial rainforest ecosystem through each sensing device installed in the step S1, transmitting the collected data to a data layer, distributing and collecting each data through a data distribution module and a data collection and storage module, and transmitting the collected data to a database for storage for ecological simulation;

s3, registration of ecological species information: when the ecosystem needs to be simulated, registering each species information in the ecosystem to be simulated through a species information registration module in a species information recording unit, judging whether the data is unconventional data or not through a species information analysis module, removing the unconventional data, and generating a corresponding label through a species label generation module;

s4, acquiring data information: inputting information of the species to be simulated into the system through a keyword information editing module in the species information acquisition unit, sending a retrieval instruction to the database in the step S2 through a data information retrieval module, extracting the retrieved data information through a data information extraction module, and transmitting the extracted data information into a central processing module;

s5, ecological simulation: the central processing module controls an ecological modeling module in the ecological simulation unit to create an ecological simulation model, a simulation algorithm to be used is extracted and transmitted into a model test module through a simulation algorithm extraction module, then ecological information is led into the model test module through an ecological information leading-in module, then dynamic simulation of real-time data transmission is carried out through a dynamic simulation module, a simulation result is sent into a simulation result analysis module through a simulation result sending module, and the simulation result is analyzed by the simulation result analysis module;

s6, real-time updating of data: when ecological simulation is carried out, simulation data can be directly input into the system through the data editing unit for ecological simulation, meanwhile, the ecological data real-time updating module carries out real-time updating on the ecological data within the time set by the timestamp server, and the data simulated in the step S5 are transmitted into the system application layer to be consulted by monitoring personnel.

2. The method for simulating the micro ecosystem of an artificial rainforest according to claim 1, wherein the method comprises the following steps: the artificial ecological sensor layer in the step S1 includes a chip control module, a carbon dioxide gas concentration sensor, an air humidity sensor, a temperature sensor, an air pressure sensor, a soil humidity sensor, an illumination intensity sensor, and a signal processing circuit.

3. The method for simulating the micro ecosystem of an artificial rainforest according to claim 1, wherein the method comprises the following steps: the data layer in the step S2 includes a data distribution module, a data collection and storage module, and a database.

4. The method for simulating the micro ecosystem of an artificial rainforest according to claim 1, wherein the method comprises the following steps: the species information entry unit in the step S3 includes a species information registration module, a species information analysis module, and a species label generation module.

5. The method for simulating the micro ecosystem of an artificial rainforest according to claim 1, wherein the method comprises the following steps: the species information obtaining unit in step S4 includes a keyword information editing module, a data information retrieving module, and a data information extracting module.

6. The method for simulating the micro ecosystem of an artificial rainforest according to claim 1, wherein the method comprises the following steps: the ecological simulation unit in the step S5 includes an ecological modeling module, a model testing module, an ecological information importing module, a dynamic simulation module, and a simulation result sending module.

Images