Mo Wei scite author profile

Existing pursuer-evader (PE) game algorithms do not provide good real-time solutions for situations with the following complexities: (1) multi-pursuer multi-evader, (2) multiple evaders with superior control resources such as higher speeds, and (3) jamming confrontation between pursuers and evaders. This paper introduces a real-time decentralized approach, in which decentralization strategy reduces computational complexity in multi-pursuer multievader situations, cooperative chasing strategy guarantees capture of some superior evaders, and min-max double-sided jamming confrontation provides optimal jamming-estimation strategies under adversarial noisy environments. Extensive simulations confirm the efficiency of this approach.

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A Decentralized Approach to Pursuer-Evader Games with Multiple Superior Evaders in Noisy Environments

Wei

Chen

Cruz

et al. 2007

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Abstract-Few pursuer-evader (PE) game algorithms allow for real-time applications for (1) multi-pursuer-multi-evader situations, (2) noisy environments, and (3) evaders with superior control resources such as higher speeds. This paper introduces a real-time decentralized approach for such games. A sufficient condition for capturing a superior evader is proposed. A particle filter is applied to the complex non-Gaussian multi-model noise. Simulations confirm the efficiency of this approach.

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Valuation of environmental improvements in coastal wetland restoration: A choice experiment approach

Tan

Cheng

et al. 2018

Global Ecology and Conservation

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Game-theoretic modeling and control of military operations with partially emotional civilian players

Wei

Chen

Cruz

et al. 2008

Decision Support Systems

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Multi-Missile Interception Integrating New Guidance Law and Game Theoretic Resource Management

Wei

Chen

Cruz

et al. 2008

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Abstract-Traditional missile interception often focuses on simplified scenarios such as one-to-one or multi-to-one interception. Recently, battlefield situations pose new difficulties for missile defense systems, which make traditional interception systems inefficient. The problems revolve around two aspects: 1) The guidance law insufficiency (traditional forms PN, DGL/1, and DGL/C); and 2) Resource management insufficiency. This paper fuses game theoretic resource management and a noise level related guidance law to existing missile defense system which is called Differential Game Law Type M (DGL/M). Intensive simulations show that this approach demonstrates improvements over existing methods.

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Mo Wei

Multi-Pursuer Multi-Evader Pursuit-Evasion Games with Jamming Confrontation

A Decentralized Approach to Pursuer-Evader Games with Multiple Superior Evaders in Noisy Environments

Valuation of environmental improvements in coastal wetland restoration: A choice experiment approach

Game-theoretic modeling and control of military operations with partially emotional civilian players

Multi-Missile Interception Integrating New Guidance Law and Game Theoretic Resource Management

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