CN111724036A - High-score multi-source data fusion-based dynamic monitoring method for river boundary water resource - Google Patents

Abstract

The invention discloses a high-score multi-source data fusion-based dynamic monitoring method for water resources of a jungle river, which comprises the following steps of: the method comprises the following steps: collecting original water resource information of the boundary river; step two: analyzing dynamic monitoring requirements of the boundary river water resources; step three: making and implementing a dynamic monitoring scheme for the water resources of the boundary river; step five: the situation data analysis and solution measure in the dynamic monitoring of the water resources of the boundary river are established, and the monitoring scheme is adjusted in time; the method comprises the steps of collecting original water resource information of a boundary river in the first step, wherein the collection content comprises the collection of hydrogeological data, the collection of water level range data and the collection of dynamic influence factors of the water resource of the boundary river. The high-score multi-source data fusion-based dynamic monitoring method for the water resource of the boundary river can monitor the water resource dynamic of the boundary river, can understand and solve problems more deeply, can give an alarm in time when an accident occurs, and is favorable for water resource balance of the boundary river.

Description

High-score multi-source data fusion-based dynamic monitoring method for river boundary water resource

Technical Field

The invention relates to the technical field of dynamic monitoring of boundary river water resources, in particular to a dynamic monitoring method of boundary river water resources based on high-score multi-source data fusion.

Background

The water quantity of the boundary river is often large, and the boundary river has great influence on the surrounding ecological balance, so that the dynamic monitoring of the boundary river water resources is of great importance, the influence on the treatment of the whole river channel and the severe influence on the environment caused by the severe change of the boundary river water resources is prevented, and the dynamic monitoring of the boundary river water resources needs to be carried out by adopting a corresponding dynamic monitoring method of the boundary river water resources.

However, the conventional dynamic monitoring method for the water resource of the boundary river is often too simple, the surface phenomenon of the boundary river can only be monitored, deeper understanding and monitoring cannot be realized, and the general dynamic monitoring method for the water resource of the boundary river cannot give an alarm in time when an accident occurs, so that the implementation time of a solution is prolonged, and the balance of the water resource of the boundary river is not facilitated.

Disclosure of Invention

The invention aims to provide a high-score multi-source data fusion-based dynamic monitoring method for boundary river water resources, and aims to solve the problems that most of the dynamic monitoring methods for boundary river water resources in the background art are too simple, can not be deeply known and monitored only by monitoring the surface phenomenon of the boundary river, and can not give an alarm in time when an accident occurs, the implementation time of a solution is prolonged, and the balance of the boundary river water resources is not facilitated.

In order to achieve the purpose, the invention provides the following technical scheme: a high-score multi-source data fusion-based dynamic monitoring method for river boundary water resources comprises the following steps:

the method comprises the following steps: collecting original water resource information of the boundary river;

step two: analyzing dynamic monitoring requirements of the boundary river water resources;

step three: making and implementing a dynamic monitoring scheme for the water resources of the boundary river;

step five: the situation data analysis and solution measure in the dynamic monitoring of the water resources of the boundary river are established, and the monitoring scheme is adjusted in time;

step six: and integrating and compiling monitoring data.

Preferably, the acquisition content of the original water resource information of the jungle in the first step comprises acquisition of hydrogeological data, acquisition of water level range data and acquisition of dynamic influence factors of the water resource of the jungle, wherein the information acquisition mode can be realized by checking a database, detecting on the spot and combining with a satellite monitoring technology.

Preferably, the dynamic influence factors of the river-bounding water resource include:

(1) influence of rainfall and snowfall on the dynamic state of river resources;

(2) influence of glacier melting condition on dynamic state of river water resources;

(3) influence of runoff parameters of the boundary river on the dynamic state of boundary river water resources.

Preferably, the analysis content of the two pairs of boundary river water resource dynamic monitoring demands in the step comprises the influence of the rising and falling of the water level of the boundary river water resource on the structure of the riverbed, the influence on the flow rate of the branch and the influence on the ecological environment at two sides of the riverway, and a necessary strategy for the boundary river water resource dynamic monitoring demands is established in a targeted manner.

Preferably, the establishment of the dynamic monitoring scheme for the water resources of the boundary river in the third step comprises three steps of planning the scheme, adjusting the scheme and determining the scheme, wherein the process of adjusting the scheme needs to be combined with the factors influencing the dynamic monitoring requirement for the water resources of the boundary river in the second step.

Preferably, the implementation of the dynamic monitoring scheme for the water resources of the boundary river in the third step comprises the following steps:

(1) establishing a boundary river data model, implementing a boundary river water resource dynamic monitoring scheme on the boundary river data model, and implementing the scheme on the boundary river after determining the accuracy of the scheme;

(2) a satellite monitoring system and an alarm system are established to cover a satellite map of a boundary river area, so that the cutting visualization of any specific position of the boundary river is realized, and technicians are organized to patrol the river channel;

(3) monitoring information is fed back to a monitoring master control center through a satellite monitoring system and a technician tour, the master control center performs fusion analysis on the monitoring information, and a real-time monitoring result is given by the master control center;

preferably, the dynamic monitoring conditions of the water resources of the boundary river in the fifth step are divided into the problems of water level rising, water level falling, river surface fluctuation degree, pollution degree and the like, if the monitoring result is in a normal range, the monitoring work is continued, if the monitoring result exceeds the normal range, an alarm system gives an alarm, a technician takes protection and treatment measures, and a master control center issues a solution.

Preferably, in the fifth step, the monitoring scheme is timely adjusted according to the monitoring scheme formulated in the third step, an alternative scheme suitable for the current situation is adopted, and a reasonable solution is adopted corresponding to the condition data analysis and solution measures in the fifth step.

Preferably, the integration and compiling content of the monitoring data in the sixth step comprises monitoring results, monitoring time, monitoring content, method summary and the like, and the difference and the advantages and disadvantages of the boundary river water resource dynamic monitoring method and other river water resource dynamic monitoring methods are analyzed.

Compared with the prior art, the invention has the beneficial effects that: this boundary river water resource dynamic monitoring method based on high score multisource data fusion can carry out the monitoring of infiltration to the water resource developments of boundary river, can more deep understanding and the solution problem, and can be in time the alarm when the unexpected condition takes place, has shortened the time that the solution was carried out, does benefit to the water resource balance of boundary river.

Drawings

Fig. 1 is a schematic view of the monitoring process 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 embodiments, and all other embodiments obtained by a person of ordinary skill in the art without creative efforts based on the embodiments of the present invention belong to the protection scope of the present invention.

Referring to fig. 1, the present invention provides a technical solution: a high-score multi-source data fusion-based dynamic monitoring method for river boundary water resources comprises the following steps:

the method comprises the following steps: collecting original water resource information of the boundary river;

step two: analyzing dynamic monitoring requirements of the boundary river water resources;

step three: making and implementing a dynamic monitoring scheme for the water resources of the boundary river;

step five: the situation data analysis and solution measure in the dynamic monitoring of the water resources of the boundary river are established, and the monitoring scheme is adjusted in time;

step six: and integrating and compiling monitoring data.

The method comprises the steps of collecting original water resource information of the boundary river in the first step, wherein the collection content comprises the collection of hydrogeological data, the collection of water level range data and the collection of dynamic influence factors of the water resource of the boundary river, and the information collection mode can be realized by checking a database, detecting on the spot and combining with a satellite monitoring technology.

The dynamic influence factors of the water resources of the boundary river comprise:

(1) influence of rainfall and snowfall on the dynamic state of river resources;

(2) influence of glacier melting condition on dynamic state of river water resources;

(3) influence of runoff parameters of the boundary river on the dynamic state of boundary river water resources.

The analysis content of the dynamic monitoring demand of the boundary river water resource comprises the influence of the rising and lowering of the water level of the boundary river water resource on the structure of the riverbed, the influence on the flow of the tributary and the influence on the ecological environment at two sides of the riverway, and a necessary strategy for the dynamic monitoring demand of the boundary river water resource is established in a targeted manner.

And the establishment of the dynamic monitoring scheme of the water resource of the jungle river in the third step comprises three steps of planning the scheme, adjusting the scheme and determining the scheme, wherein the process of adjusting the scheme needs to be combined with the factors influencing the dynamic monitoring requirement of the water resource of the jungle river in the second step.

The implementation of the scheme for dynamically monitoring the water resources of the jungle river in the third step comprises the following steps:

(1) establishing a boundary river data model, implementing a boundary river water resource dynamic monitoring scheme on the boundary river data model, and implementing the scheme on the boundary river after determining the accuracy of the scheme;

(2) a satellite monitoring system and an alarm system are established to cover a satellite map of a boundary river area, so that the cutting visualization of any specific position of the boundary river is realized, and technicians are organized to patrol the river channel;

(3) monitoring information is fed back to a monitoring master control center through a satellite monitoring system and a technician tour, the master control center performs fusion analysis on the monitoring information, and a real-time monitoring result is given by the master control center;

and step five, dynamically monitoring the water resource of the boundary river, wherein the dynamically monitoring conditions of the water resource of the boundary river comprise the problems of water level rising, water level falling, river surface fluctuation degree, pollution degree and the like, if the monitoring result is in a normal range, the monitoring work is continued, if the monitoring result exceeds the normal range, an alarm system gives an alarm, a technician takes protection and treatment measures, and a master control center issues solving measures.

And step five, timely adjusting the monitoring scheme according to the monitoring scheme formulated in the step three, adopting an alternative scheme suitable for the current situation, and adopting a reasonable solution corresponding to the condition data analysis and solution measures in the step five.

And step six, integrating and compiling the monitoring data, wherein the integration and compiling content comprises monitoring results, monitoring time, monitoring content, method summary and the like, and the differences and advantages of the boundary river water resource dynamic monitoring method and other river water resource dynamic monitoring methods are analyzed.

The above description is only for the specific embodiments of the present application, but the scope of the present application is not limited thereto, and any person skilled in the art can easily conceive of the changes or substitutions within the technical scope of the present application, and all the changes or substitutions should be covered by the scope of the present application. Therefore, the protection scope of the present application shall be subject to the protection scope of the claims.

Claims (9)

1. A high-score multi-source data fusion-based dynamic monitoring method for water resources of a boundary river is characterized by comprising the following steps: the dynamic monitoring of the water resources of the boundary river comprises the following steps:

the method comprises the following steps: collecting original water resource information of the boundary river;

step two: analyzing dynamic monitoring requirements of the boundary river water resources;

step three: making and implementing a dynamic monitoring scheme for the water resources of the boundary river;

step five: the situation data analysis and solution measure in the dynamic monitoring of the water resources of the boundary river are established, and the monitoring scheme is adjusted in time;

step six: and integrating and compiling monitoring data.

2. The high-score multi-source data fusion-based dynamic monitoring method for river bounding water resources, according to claim 1, is characterized in that: the method comprises the following steps of collecting original water resource information of the jungle in the first step, wherein the collection content comprises the collection of hydrogeological data, the collection of water level range data and the collection of dynamic influence factors of the jungle water resource, and the information collection mode can be realized by checking a database, detecting on the spot and combining with a satellite monitoring technology.

3. The high-score multi-source data fusion-based dynamic monitoring method for river bounding water resources, according to claim 2, is characterized in that: the dynamic influence factors of the water resources of the boundary river comprise:

(1) influence of rainfall and snowfall on the dynamic state of river resources;

(2) influence of glacier melting condition on dynamic state of river water resources;

(3) influence of runoff parameters of the boundary river on the dynamic state of boundary river water resources.

4. The high-score multi-source data fusion-based dynamic monitoring method for river bounding water resources, according to claim 1, is characterized in that: the analysis content of the two pairs of boundary river water resource dynamic monitoring demands in the step comprises the influence of the rising and lowering of the water level of the boundary river water resource on the structure of the riverbed, the influence on the flow of the branch and the influence on the ecological environment on the two sides of the riverway, and a necessary strategy for the boundary river water resource dynamic monitoring demands is established in a targeted manner.

5. The high-score multi-source data fusion-based dynamic monitoring method for river bounding water resources, according to claim 1, is characterized in that: and the establishment of the dynamic monitoring scheme of the boundary river water resource in the third step comprises three steps of planning the scheme, adjusting the scheme and determining the scheme, wherein the process of adjusting the scheme needs to be combined with the factors influencing the dynamic monitoring requirement of the boundary river water resource in the second step.

6. The high-score multi-source data fusion-based dynamic monitoring method for river bounding water resources, according to claim 1, is characterized in that: the implementation of the scheme for dynamically monitoring the water resources of the junctional river in the third step comprises the following steps:

(1) establishing a boundary river data model, implementing a boundary river water resource dynamic monitoring scheme on the boundary river data model, and implementing the scheme on the boundary river after determining the accuracy of the scheme;

(2) a satellite monitoring system and an alarm system are established to cover a satellite map of a boundary river area, so that the cutting visualization of any specific position of the boundary river is realized, and technicians are organized to patrol the river channel;

(3) monitoring information is fed back to the monitoring master control center through a satellite monitoring system and a technician tour, the master control center performs fusion analysis on the monitoring information, and the master control center gives a real-time monitoring result.

7. The high-score multi-source data fusion-based dynamic monitoring method for river bounding water resources, according to claim 1, is characterized in that: and step five, dynamically monitoring the river boundary water resource conditions, namely the problems of water level rising, water level falling, river surface fluctuation degree, pollution degree and the like, continuing monitoring if the monitoring result is in a normal range, and giving an alarm if the monitoring result exceeds the normal range, wherein a technician takes protection and treatment measures and a master control center issues solving measures.

8. The high-score multi-source data fusion-based dynamic monitoring method for river bounding water resources, according to claim 1, is characterized in that: and in the fifth step, the monitoring scheme is timely adjusted, an alternative scheme suitable for the current situation is adopted according to the monitoring scheme formulated in the third step, and a reasonable solution is adopted corresponding to the condition data analysis and solution measures in the fifth step.

9. The high-score multi-source data fusion-based dynamic monitoring method for river bounding water resources, according to claim 1, is characterized in that: and integrating and compiling the monitoring data in the sixth step, wherein the integration and compiling content comprises monitoring results, monitoring time, monitoring content, method summary and the like, and the differences and advantages of the boundary river water resource dynamic monitoring method and other river water resource dynamic monitoring methods are analyzed.

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