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Hydroinformatics Techniques in Eco-Environmental Modelling and Management
Q Chen, Yenory Morales Chaves, H Li, AE Mynett
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Research output
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Article
15
Citations (Scopus)
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Dive into the research topics of 'Hydroinformatics Techniques in Eco-Environmental Modelling and Management'. Together they form a unique fingerprint.
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Keyphrases
Environmental Management
100%
Hydroinformatics
100%
Environmental Modeling
100%
Eco-environment
100%
China
66%
Ecohydraulics
66%
Local Interaction
66%
Eco-environmental System
66%
Ecosystem Dynamics
66%
Netherlands
33%
System Modeling
33%
Dutch
33%
System Dynamics
33%
Numerical Methods
33%
Neural Network
33%
Aquatic Ecosystems
33%
Statistical Techniques
33%
Numerical Model
33%
Dynamic Model
33%
Coastal Waters
33%
Transport Mechanism
33%
Mussels
33%
Model Use
33%
Interaction Games
33%
Computer Model
33%
Spatial Homogeneity
33%
Mathematical Formulation
33%
Spatial Heterogeneity
33%
Environmental Models
33%
Water Environment
33%
Upper Mississippi River
33%
Individual-based Modelling
33%
Macrophytes
33%
System Knowledge
33%
Cellular Automata
33%
Multiple Processes
33%
High Complexity
33%
Overall System
33%
Veluwe
33%
Western Xiamen Bay
33%
Fluid Flow Mechanisms
33%
Data-driven Methods
33%
Ecohydraulic Modeling
33%
Data Mining Techniques
33%
ANN Model
33%
Lake Taihu
33%
Eutrophication Model
33%
Aquatic Environment
33%
Competitive Colonization
33%
System Behavior
33%
Competitive Growth
33%
Conservation Principles
33%
Fluid Transport
33%
Black-box Model
33%
Algal Bloom
33%
Spatial Conservation
33%
Physical Equation
33%
Data Mining Applications
33%
Fuzzy Rules
33%
Earth and Planetary Sciences
Aquatic Environment
100%
China
100%
Hydroinformatics
100%
Environmental Management
100%
Ecosystem Dynamics
100%
Environmental Modeling
100%
United States of America
50%
Fluid Flow
50%
Numerical Model
50%
Mississippi
50%
Spatial Heterogeneity
50%
Artificial Neural Network
50%
Dynamic Models
50%
Cellular Automata
50%
Eutrophication
50%
Coastal Water
50%
Netherlands
50%
Mathematical Method
50%
Macrophyte
50%
Water Environment
50%