War-gaming application for future space systems acquisition

Tien M. Nguyen; Andy T. Guillen

doi:10.1117/12.2223288

13 May 2016 War-gaming application for future space systems acquisition

Tien M. Nguyen, Andy T. Guillen

Proceedings Volume 9838, Sensors and Systems for Space Applications IX; 983808 (2016) https://doi.org/10.1117/12.2223288
Event: SPIE Defense + Security, 2016, Baltimore, MD, United States

Abstract

Recently the U.S. Department of Defense (DOD) released the Defense Innovation Initiative (DII) [1] to focus DOD on five key aspects; Aspect #1: Recruit talented and innovative people, Aspect #2: Reinvigorate war-gaming, Aspect #3: Initiate long-range research and development programs, Aspect #4: Make DOD practices more innovative, and Aspect #5: Advance technology and new operational concepts. Per DII instruction, this paper concentrates on Aspect #2 and Aspect #4 by reinvigorating the war-gaming effort with a focus on an innovative approach for developing the optimum Program and Technical Baselines (PTBs) and their corresponding optimum acquisition strategies for acquiring future space systems. The paper describes a unified approach for applying the war-gaming concept for future DOD acquisition of space systems. The proposed approach includes a Unified Game-based Acquisition Framework (UGAF) and an Advanced Game-Based Mathematical Framework (AGMF) using Bayesian war-gaming engines to optimize PTB solutions and select the corresponding optimum acquisition strategies for acquiring a space system. The framework defines the action space for all players with a complete description of the elements associated with the games, including Department of Defense Acquisition Authority (DAA), stakeholders, warfighters, and potential contractors, War-Gaming Engines (WGEs) played by DAA, WGEs played by Contractor (KTR), and the players’ Payoff and Cost functions (PCFs). The AGMF presented here addresses both complete and incomplete information cases. The proposed framework provides a recipe for the DAA and USAF-Space and Missile Systems Center (SMC) to acquire future space systems optimally.

Citation Download Citation

Tien M. Nguyen and Andy T. Guillen "War-gaming application for future space systems acquisition", Proc. SPIE 9838, Sensors and Systems for Space Applications IX, 983808 (13 May 2016); https://doi.org/10.1117/12.2223288

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