An extended study on addressing defender teamwork while accounting for uncertainty in attacker defender games using iterative Dec-MDPs
Multi-agent teamwork and defender-attacker security games are two areas that are currently receiving significant attention within multi-agent systems research. Unfortunately, despite the need for effective teamwork among multiple defenders, little has been done to harness the teamwork research in se...
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2016
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sg-smu-ink.sis_research-40772017-03-31T07:48:08Z An extended study on addressing defender teamwork while accounting for uncertainty in attacker defender games using iterative Dec-MDPs SHIEH, Eric JIANG, Albert Xin YADAV, Amulya Pradeep VARAKANTHAM, TAMBE, Milind Multi-agent teamwork and defender-attacker security games are two areas that are currently receiving significant attention within multi-agent systems research. Unfortunately, despite the need for effective teamwork among multiple defenders, little has been done to harness the teamwork research in security games. The problem that this paper seeks to solve is the coordination of decentralized defender agents in the presence of uncertainty while securing targets against an observing adversary. To address this problem, we offer the following novel contributions in this paper: (i) New model of security games with defender teams that coordinate under uncertainty; (ii) New algorithm based on column generation that utilizes Decentralized Markov Decision Processes (Dec-MDPs) to generate defender strategies that incorporate uncertainty; (iii) New techniques to handle global events (when one or more agents may leave the system) during defender execution; (iv) Heuristics that help scale up in the number of targets and agents to handle real-world scenarios; (v) Exploration of the robustness of randomized pure strategies. The paper opens the door to a potentially new area combining computational game theory and multi-agent teamwork. 2016-01-01T08:00:00Z text application/pdf https://ink.library.smu.edu.sg/sis_research/3077 info:doi/10.3233/MGS-150236 https://ink.library.smu.edu.sg/context/sis_research/article/4077/viewcontent/An_extended_study_on_addressing_defender_teamwork.pdf http://creativecommons.org/licenses/by-nc-nd/4.0/ Research Collection School Of Computing and Information Systems eng Institutional Knowledge at Singapore Management University Game theory Dec-MDP security stackelberg games security games Artificial Intelligence and Robotics Computer Sciences |
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Game theory Dec-MDP security stackelberg games security games Artificial Intelligence and Robotics Computer Sciences |
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Game theory Dec-MDP security stackelberg games security games Artificial Intelligence and Robotics Computer Sciences SHIEH, Eric JIANG, Albert Xin YADAV, Amulya Pradeep VARAKANTHAM, TAMBE, Milind An extended study on addressing defender teamwork while accounting for uncertainty in attacker defender games using iterative Dec-MDPs |
| description |
Multi-agent teamwork and defender-attacker security games are two areas that are currently receiving significant attention within multi-agent systems research. Unfortunately, despite the need for effective teamwork among multiple defenders, little has been done to harness the teamwork research in security games. The problem that this paper seeks to solve is the coordination of decentralized defender agents in the presence of uncertainty while securing targets against an observing adversary. To address this problem, we offer the following novel contributions in this paper: (i) New model of security games with defender teams that coordinate under uncertainty; (ii) New algorithm based on column generation that utilizes Decentralized Markov Decision Processes (Dec-MDPs) to generate defender strategies that incorporate uncertainty; (iii) New techniques to handle global events (when one or more agents may leave the system) during defender execution; (iv) Heuristics that help scale up in the number of targets and agents to handle real-world scenarios; (v) Exploration of the robustness of randomized pure strategies. The paper opens the door to a potentially new area combining computational game theory and multi-agent teamwork. |
| format |
text |
| author |
SHIEH, Eric JIANG, Albert Xin YADAV, Amulya Pradeep VARAKANTHAM, TAMBE, Milind |
| author_facet |
SHIEH, Eric JIANG, Albert Xin YADAV, Amulya Pradeep VARAKANTHAM, TAMBE, Milind |
| author_sort |
SHIEH, Eric |
| title |
An extended study on addressing defender teamwork while accounting for uncertainty in attacker defender games using iterative Dec-MDPs |
| title_short |
An extended study on addressing defender teamwork while accounting for uncertainty in attacker defender games using iterative Dec-MDPs |
| title_full |
An extended study on addressing defender teamwork while accounting for uncertainty in attacker defender games using iterative Dec-MDPs |
| title_fullStr |
An extended study on addressing defender teamwork while accounting for uncertainty in attacker defender games using iterative Dec-MDPs |
| title_full_unstemmed |
An extended study on addressing defender teamwork while accounting for uncertainty in attacker defender games using iterative Dec-MDPs |
| title_sort |
extended study on addressing defender teamwork while accounting for uncertainty in attacker defender games using iterative dec-mdps |
| publisher |
Institutional Knowledge at Singapore Management University |
| publishDate |
2016 |
| url |
https://ink.library.smu.edu.sg/sis_research/3077 https://ink.library.smu.edu.sg/context/sis_research/article/4077/viewcontent/An_extended_study_on_addressing_defender_teamwork.pdf |
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1770572801992818688 |