AU2021103021A4 - Monitoring and management system for ecological environment quality in wetland - Google Patents

Abstract

The invention discloses a monitoring and management system for ecological environment quality in wetland, including several data acquisition devices, several LOT (Internet of Things) monitoring terminals, control devices, wireless transmission modules, remote monitoring and management terminals, and cloud storage. The data acquisition device is used to collect the working parameters of the LOT monitoring terminal. The LOT monitoring terminal is used to collect the monitoring data of ecological environment in wetlands. The control device is used to transmit the data collected by the data acquisition device and the LOT monitoring terminal to the remote monitoring and management terminal through the wireless transmission module. The parameters of the LOT monitoring terminal are set based on the control instructions sent by the remote monitoring and management terminal. The remote monitoring and management terminal uses mathematical evaluation model to classify the ecological environment quality and generate monitoring reports, which are used to make management and optimization decisions for the government and scientists. The invention can establish a distinguished monitoring and management system for ecological environment quality in wetland, in order to comprehensively control the dynamic change of wetland. 1/1 FIGURES Data acquisition device Control Wieless transmission Remote monitoring device """ module -- management - Cloud storage terminal LOT monitoring terminal Fig. 1

Description

1/1

FIGURES

Data acquisition device

Control Wieless transmission Remote monitoring device """ module -- management - Cloud storage terminal

LOT monitoring terminal

Fig. 1

Monitoring and management system for ecological environment quality in wetland

TECHNICAL FIELD

The invention relates to the technical field of environmental quality monitoring and

management for ecological system in wetland, in particular to a monitoring and

management system for ecological environment quality in wetland.

BACKGROUND

Wetland is one of the three major ecosystems on the earth, which is closely related to

the reproduction, survival and development of human beings, one of the most important

environmental capitals of human beings, and an ecosystem rich in biodiversity and high

productivity in nature, with great economic, social and environmental values. As a "kidney

of the earth", wetlands play an important role in water conservation, water purification,

flood storage and drought resistance, climate regulation and biodiversity maintenance, and

are also an important part of natural ecological space. Therefore, wetland protection is an

important part of ecological civilization construction.

However, due to the early indifference to the environment, the limitations of the level

of understanding and the simple pursuit of economic interests, wetland resources have

suffered serious and irreversible damage due to the continuous superposition of many

factors such as polder, infrastructure occupation, environmental pollution, excessive

hunting, siltation, and unreasonable water conservancy project construction over a long

period of time. The wetland is a unique ecological environment composed of hydrology,

soil, atmospheric components and microclimate interaction, and changes in any of the

factors that make up this environment will lead to changes in the wetland ecosystem.

Therefore, when it is disturbed by natural or human activities, the stability of the ecosystem is destroyed to a certain extent, and then the biological community structure is affected.

The wetland ecosystem disappears, destroys and degrades at a speed visible to the naked

eye, which brings great harm to the economy and society and seriously affects the

sustainable development. Therefore, it is particularly necessary to provide a monitoring

and management system for ecological environment quality in wetland.

SUMMARY

The purpose of the present invention is to provide a monitoring and management

system for ecological environment quality in wetland, which can solve the technical

problems existing in the prior art, establish a distinguished monitoring and management

system for ecological environment quality in wetland, comprehensively control the

dynamic changes of wetlands, provide timely and accurate reference materials for wetland

management, scientific research, effective control and rational utilization, which is of great

significance for protecting wetlands and maintaining ecological functions in wetland.

To achieve the above purpose, the present invention provides the following scheme:

A monitoring and management system for ecological environment quality in wetland,

comprising several data acquisition devices, several LOT (LOT) monitoring terminals,

control devices, wireless transmission modules, remote monitoring and management

terminals, and cloud storage; the data acquisition device and the LOT monitoring terminal

are respectively connected with the control device, which is connected with the remote

monitoring management terminal through the wireless transmission module, and the

remote monitoring management terminal is connected with the cloud storage;

The data acquisition device is used to collect the working parameters of the LOT

monitoring terminal;

The LOT monitoring terminal is used to collect the ecological environment

monitoring data of wetlands;

The control device is used to transmit the data collected by the data acquisition device

and the LOT monitoring terminal to the remote monitoring and management terminal

through the wireless transmission module; The control device is also used for receiving a

control instruction sent by the remote monitoring management terminal and setting

parameters of the LOT monitoring terminal based on the control instruction;

The remote monitoring management terminal classifies the ecological environment

quality by adopting a mathematical evaluation model based on the ecological environment

monitoring data and generates a monitoring report; The remote monitoring management

terminal is also used for generating a control instruction based on the working parameters

of the LOT monitoring terminal and the ecological environment monitoring data;

And the cloud storage is used for storing the data collected by the data collection

device, the monitoring terminal of the LOT and the monitoring report generated by the

remote monitoring management terminal.

Preferably, the data acquisition device includes but is not limited to an acquisition

module, a switch input-output interface, a communication module and an input-output

interface.

Further, the LOT monitoring terminal comprises water quality monitoring equipment,

atmospheric monitoring equipment, soil monitoring equipment, noise monitoring

equipment and animal and plant monitoring equipment.

Furthermore, the cloud storage adopts a structured storage mode to store data.

Optimally, the remote monitoring and management terminal is also connected with a

plurality of mobile terminals, and the mobile terminals are used for viewing monitoring

reports generated by the remote monitoring and management terminal in real time; The

remote monitoring management terminal is also used for sending early warning

information to the mobile terminal when the monitoring result is abnormal.

Further, the wireless transmission module adopts one of a wireless WiFi module, a

wireless ZigBee module and a 4G communication module.

Further, the remote monitoring and management terminal is further connected with a

display device, and the display device is used for displaying the GIS map of the wetland,

and also displaying the geographical positions of all the LOT monitoring terminals and the

monitoring results of each LOT monitoring terminal on the GIS map.

Further, the control device adopts an embedded computer, and the embedded

computer is embedded with MKL36Z64VLH4 chip with ARM Cortex-MO+ kernel.

Preferably, the water quality monitoring equipment comprises a pH sensor, a water

turbidity sensor, a water COD/BOD detector, a water conductivity sensor, a water

temperature sensor, a multi-parameter water quality detector and a liquid level meter; The

atmospheric monitoring equipment comprises an air temperature and humidity sensor, a

negative oxygen ion detector and an atmospheric environment monitoring sensor; The soil

monitoring equipment comprises a soil temperature sensor, a soil water content sensor and

a soil EC value sensor; The noise monitoring device comprises a noise sensor; The animal

and plant monitoring equipment includes but is not limited to a monitoring camera.

The invention discloses the following technical effects:

The present invention provides a monitoring and management system for ecological

environment quality in wetland, wherein a data collection device collects working

parameters of an LOT monitoring terminal, an LOT monitoring terminal collects ecological

environment monitoring data of a wetland, a remote monitoring management terminal

generates monitoring reports based on ecological environment monitoring data, and

generates control instructions based on working parameters of the LOT monitoring

terminal and ecological environment monitoring data, and control instructions to the LOT

monitoring terminal parameter settings and early warning when the monitoring results are

abnormal, thus establishing a comprehensive set of monitoring and management system of

wetland ecological environment quality, to fully control the dynamic changes in wetlands,

to provide timely and accurate reference information for wetland management, scientific

research, effective control and rational use, which is of great significance for the protection

of wetlands and maintenance of wetland ecological functions.

BRIEF DESCRIPTION OF THE FIGURES

In order to explain the embodiments of the present invention or the technical scheme

in the prior art more clearly, the drawings needed in the embodiments will be briefly

introduced below. Obviously, the drawings in the following description are only some

embodiments of the present invention, and for ordinary technicians in the field, other

drawings can be obtained according to these drawings without paying creative labor.

Fig. 1 is the schematic structural diagram of the monitoring and management system

for ecological environment quality in wetland of the present invention.

DESCRIPTION OF THE INVENTION

The technical scheme in the embodiments of the present invention will be described

clearly and completely with reference to the drawings in the embodiments of the present

invention. Obviously, the described embodiments are only part of the embodiments of the

present invention, not all of them. Based on the embodiments of the present invention, all

other embodiments obtained by ordinary technicians in the field without creative labor

belong to the scope of protection of the present invention.

In order to make the above objects, features and advantages of the present invention

more obvious and easy to understand, the present invention will be further explained in

detail with reference to the drawings and specific embodiments.

As shown in Fig. 1, the embodiment of the invention provides a monitoring and

management system for ecological environment quality in wetland, which comprises a

plurality of data acquisition devices, a plurality of LOT monitoring terminals, a control

device, a wireless transmission module, a remote monitoring and management terminal

and a cloud storage;

The data acquisition device is used to collect the working parameters of the LOT

monitoring terminal;

The LOT monitoring terminal is used to collect the ecological environment

monitoring data of wetlands;

The control device is used to transmit the data collected by the data acquisition device

and the LOT monitoring terminal to the remote monitoring and management terminal

through the wireless transmission module; The control device is also used for receiving a control instruction sent by the remote monitoring management terminal and setting parameters of the LOT monitoring terminal based on the control instruction;

The remote monitoring management terminal classifies the ecological environment

quality by adopting a mathematical evaluation model based on the ecological environment

monitoring data and generates a monitoring report; The remote monitoring management

terminal is also used for generating a control instruction based on the working parameters

of the LOT monitoring terminal and the ecological environment monitoring data;

And the cloud storage is used for storing the data collected by the data collection

device, the monitoring terminal of the LOT and the monitoring report generated by the

remote monitoring management terminal.

Further, the data acquisition device includes but is not limited to an acquisition

module, a switch input/output interface, a communication module and an input/output

interface.

Further, the monitoring terminal of the LOT includes water quality monitoring

equipment, atmospheric monitoring equipment, soil monitoring equipment, noise

monitoring equipment and animal and plant monitoring equipment. The water quality

monitoring equipment includes but is not limited to pH sensor, water turbidity sensor, water

COD/BOD detector, water conductivity sensor, water temperature sensor, multi-parameter

water quality detector and liquid level meter. The water temperature sensor adopts an

underwater vertical temperature chain sensor, which is used for collecting the underwater

vertical stratification temperature. The atmospheric monitoring equipment includes but is

not limited to an air temperature and humidity sensor, a negative oxygen ion detector and

an atmospheric environment monitoring sensor; The atmospheric environment monitoring sensors include but are not limited to PM2.5 sensors, PMio sensors, C02 sensors, wind speed sensors, wind direction sensors and solar radiation sensors. The soil monitoring equipment includes but is not limited to a soil temperature sensor, a soil water content sensor and a soil EC value sensor; The noise monitoring equipment includes but is not limited to a noise sensor; The animal and plant monitoring equipment includes but is not limited to a monitoring camera.

Further, the control device adopts an embedded computer, and the embedded

computer is embedded with MKL36Z64VLH4 chip with ARM Cortex-MO+ kernel.

Furthermore, the cloud storage adopts a structured storage mode to store data, which

is convenient for the management of massive monitoring data and the search of data when

the monitoring result is abnormal.

Further, the remote monitoring and management terminal is also connected with a

plurality of mobile terminals, and the mobile terminals are used for viewing the monitoring

reports generated by the remote monitoring and management terminals in real time; The

remote monitoring management terminal is also used for sending early warning

information to the mobile terminal when the monitoring result is abnormal.

Further, the wireless transmission module adopts one of a wireless WiFi module, a

wireless ZigBee module and a 4G communication module.

Furthermore, the remote monitoring and management terminal is also connected with

a display device, which is used to display the GIS map of the wetland, and also to display

the geographical positions of all the LOT monitoring terminals and the monitoring results

of each LOT monitoring terminal on the GIS map, so that it is convenient for operation and maintenance personnel to view and maintain in time, and in case of abnormal monitoring, the abnormal position can be located at the first time.

The above embodiments only describe the preferred mode of the invention, but do not

limit the scope of the invention. On the premise of not departing from the design spirit of

the invention, various modifications and improvements made by ordinary technicians in

the field to the technical scheme of the invention shall fall within the protection scope

determined by the claims of the invention.

Claims (9)

THE CLAIMS DEFINING THE INVENTION ARE AS FOLLOWS:

1. A monitoring and management system for ecological environment quality in wetland,

comprising several data acquisition devices, several LOT (LOT) monitoring terminals,

control devices, wireless transmission modules, remote monitoring and management

terminals, and cloud storage; the data acquisition device and the LOT monitoring terminal

are respectively connected with the control device, which is connected with the remote

monitoring management terminal through the wireless transmission module, and the

remote monitoring management terminal is connected with the cloud storage;

the data acquisition device is used to collect the working parameters of the LOT monitoring

terminal;

the LOT monitoring terminal is used to collect the ecological environment monitoring data

of wetlands;

the control device is used to transmit the data collected by the data acquisition device and

the LOT monitoring terminal to the remote monitoring and management terminal through

the wireless transmission module; The control device is also used for receiving a control

instruction sent by the remote monitoring management terminal and setting parameters of

the LOT monitoring terminal based on the control instruction;

the remote monitoring management terminal classifies the ecological environment quality

by adopting a mathematical evaluation model based on the ecological environment

monitoring data and generates a monitoring report; The remote monitoring management

terminal is also used for generating a control instruction based on the working parameters

of the LOT monitoring terminal and the ecological environment monitoring data; and the cloud storage is used for storing the data collected by the data collection device, the monitoring terminal of the LOT and the monitoring report generated by the remote monitoring management terminal.

2. The monitoring and management system for ecological environment quality in wetland

according to claim 1, wherein the data acquisition device includes but is not limited to an

acquisition module, a switch input-output interface, a communication module and an input

output interface.

3. The monitoring and management system for ecological environment quality in wetland

according to claim 1, wherein the LOT monitoring terminal comprises water quality

monitoring equipment, atmospheric monitoring equipment, soil monitoring equipment,

noise monitoring equipment and animal and plant monitoring equipment.

4. The monitoring and management system for ecological environment quality in wetland

according to claim 1, wherein the cloud storage adopts a structured storage mode to store

data.

5. The monitoring and management system for ecological environment quality in wetland

according to claim 1, wherein the remote monitoring and management terminal is also

connected with a plurality of mobile terminals, and the mobile terminals are used for

viewing monitoring reports generated by the remote monitoring and management terminal

in real time; The remote monitoring management terminal is also used for sending early

warning information to the mobile terminal when the monitoring result is abnormal.

6. The monitoring and management system for ecological environment quality in wetland

according to claim 1, wherein the wireless transmission module adopts one of a wireless

WiFi module, a wireless ZigBee module and a 4G communication module.

7. The monitoring and management system for ecological environment quality in wetland

according to claim 1, wherein the remote monitoring and management terminal is further

connected with a display device, and the display device is used for displaying the GIS map

of the wetland, and also displaying the geographical positions of all the LOT monitoring

terminals and the monitoring results of each LOT monitoring terminal on the GIS map.

8. The monitoring and management system for ecological environment quality in wetland

according to claim 1, wherein the control device adopts an embedded computer, and the

embedded computer is embedded with MKL36Z64VLH4 chip with ARM Cortex-MO+

kernel.

9. The monitoring and management system for ecological environment quality in wetland

according to claim 3, wherein the water quality monitoring equipment comprises a pH

sensor, a water turbidity sensor, a water COD/BOD detector, a water conductivity sensor,

a water temperature sensor, a multi-parameter water quality detector and a liquid level

meter; The atmospheric monitoring equipment comprises an air temperature and humidity

sensor, a negative oxygen ion detector and an atmospheric environment monitoring sensor;

The soil monitoring equipment comprises a soil temperature sensor, a soil water content

sensor and a soil EC value sensor; The noise monitoring device comprises a noise sensor;

The animal and plant monitoring equipment includes but is not limited to a monitoring

camera.

FIGURES 1/1

Fig. 1