Validating Agent-Based Models of Large Networked Systems

The paper describes a systematic approach for validating real-world biological, information, social and technical (BIST) networks. BIST systems are usually represented using agent-based models and computer simulations are used to study their dynamical (state-space) properties. Here, we use a formal...

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Published in	2019 Winter Simulation Conference (WSC) pp. 2807 - 2818
Main Authors	Adiga, Abhijin, Barrett, Chris, Eubank, Stephen, Kuhlman, Chris J., Marathe, Madhav V., Mortveit, Henning, Ravi, S. S., Rosenkrantz, Daniel J., Stearns, Richard E., Swarup, Samarth, Vullikanti, Anil
Format	Conference Proceeding
Language	English
Published	IEEE 01.12.2019
Subjects	Biological system modeling Boolean functions Built-in self-test Computational modeling Data models Mathematical model
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Abstract	The paper describes a systematic approach for validating real-world biological, information, social and technical (BIST) networks. BIST systems are usually represented using agent-based models and computer simulations are used to study their dynamical (state-space) properties. Here, we use a formal representation called a graph dynamical system (GDS). We present two types of results. First we describe two real-world validation studies spanning a variety of BIST networks. Various types of validation are considered and unique challenges presented by each domain are discussed. Each system is represented using the GDS formalism. This illustrates the power of the formalism and enables a unified approach for validation. We complement the case studies by presenting new theoretical results on validating BIST systems represented as GDSs. These theoretical results delineate computationally intractable and efficiently solvable versions of validation problems.
AbstractList	The paper describes a systematic approach for validating real-world biological, information, social and technical (BIST) networks. BIST systems are usually represented using agent-based models and computer simulations are used to study their dynamical (state-space) properties. Here, we use a formal representation called a graph dynamical system (GDS). We present two types of results. First we describe two real-world validation studies spanning a variety of BIST networks. Various types of validation are considered and unique challenges presented by each domain are discussed. Each system is represented using the GDS formalism. This illustrates the power of the formalism and enables a unified approach for validation. We complement the case studies by presenting new theoretical results on validating BIST systems represented as GDSs. These theoretical results delineate computationally intractable and efficiently solvable versions of validation problems.
Author	Barrett, Chris Kuhlman, Chris J. Ravi, S. S. Eubank, Stephen Swarup, Samarth Marathe, Madhav V. Vullikanti, Anil Mortveit, Henning Stearns, Richard E. Adiga, Abhijin Rosenkrantz, Daniel J.
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Title	Validating Agent-Based Models of Large Networked Systems
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