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A Concurrent Entity Component System for Geographical Wildlife Epidemiological Modeling
Austin V. Davis,
Shaowen Wang
College of Liberal Arts and Sciences
Geography and Geographic Information Science
School of Information Sciences
Office of the Vice Chancellor for Research and Innovation
Center for Social & Behavioral Science
Siebel School of Computing and Data Science
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Keyphrases
Epidemiological Modeling
100%
Wildlife
100%
White-nose Syndrome
100%
Entity Component System
100%
Computational Tractability
50%
Population Decline
50%
System Architecture
50%
Modeling Software
50%
Latent Structure
50%
Concurrency
50%
Management Decisions
50%
Individual-based Model
50%
CyberGIS
50%
Advanced Cyberinfrastructure
50%
North American Bats
50%
Pseudogymnoascus Destructans
50%
Geographic Process
50%
Bat Species
50%
Wildlife Epidemiology
50%
Computer Science
Computational Modeling
100%
System Architectures
100%
Cyberinfrastructure
100%
Concurrency
100%
Decision Management
100%
Latent Structure
100%
Agricultural and Biological Sciences
White Nose Syndrome
100%
Americans
50%
Pseudogymnoascus destructans
50%
Biochemistry, Genetics and Molecular Biology
Infectious Agent
100%