Integrating genetic programming and agent-based modeling to identify sensor-based rules for flushing contaminated water from a pipe network

World Environmental and Water Resources Congress 2013: Showcasing the Future - Proceedings of the 2013 Congress

Volumn , Issue , 2013, Pages 784-790

  Shafiee, M Ehsan ^a   Zechman, Emily M ^a  

^a NONE

Author keywords

Agent Based Modeling; Complex Adaptive System; Contamination; Genetic Programming; Hydrant Strategy; Water Distribution System

Indexed keywords

AUTONOMOUS AGENTS; COMPLEX NETWORKS; COMPUTATIONAL METHODS; CONTAMINATION; DECISION MAKING; GENETIC ALGORITHMS; GENETIC PROGRAMMING; HYDRANTS; HYDRAULIC DRILLS; MANAGERS; PUBLIC HEALTH; SIMULATION PLATFORM; WATER DISTRIBUTION SYSTEMS; WATER POLLUTION; WATER QUALITY;

AGENT BASED MODELING FRAMEWORKS; AGENT-BASED MODEL; COMPLEX ADAPTIVE SYSTEMS; MATHEMATICAL EQUATIONS; SIMULATION OPTIMIZATION; SIMULATION-OPTIMIZATION MODELS; SOURCE CHARACTERISTICS; WATER DISTRIBUTION NETWORKS;

WATER RESOURCES;

EID: 84887473163     PISSN: None     EISSN: None     Source Type: Conference Proceeding    
DOI: 10.1061/9780784412947.075     Document Type: Conference Paper

References (2)

1. Zechman, E.M. (2011), "Agent-Based Modeling to Simulate Contamination Events and Evaluate Threat Management Strategies in Water Distribution Systems", Risk Analysis 31(5), pp. 758-772, 2011.
2. Zechman, E.M. (accepted for publication), "Evolutionary Algorithms for Identifying Response Strategies for Sociotechnical Water Distribution System Contamination Events", Journal of Hydroinformatics