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one engineer battalion deployed to fight the initial forward defense battle from prefabricated field fortifications set up prior for the opponents expected assault. The brigades are manned largely by reservists living in the vicinity of their battalions.

      13 13 For a detailed description of BASIS the reader is referred to Hans W. Hofmann, Reiner K. Huber and Karl Steiger: “On Reactive Defense Options – A Comparative Systems Analysis for the Initial Defense Against the first Strategic Echelon of the Warsaw Pact in Central Europe,” Modeling and Analysis of Conventional Defense in Europe (Huber, Ed.). 1986 Plenum Press, New York. pp. 97–139.

      14 14 Reiner K. Huber (Ed.): Systems Analysis and Modeling in Defense. 1984 Plenum Press, New York.

      15 15 In 1976, after the mandate of SPOSS was widened to cover scientific and environmental affairs, the NATO Science Committee decided to terminate supporting System Science and OR/SA altogether feeling that military applications should fall within the realms of other more endowed NATO divisions and directorates concerned with armaments and defense research such as the DRG and its Panel 7 (on Defense Applications of Operations Research) that adopted the members of SPOSS. DRG had been established in 1967 by the NATO Military Committee with the mandate to specific problems that NATO militaries may be faced with.

      16 16 Therefore, many of the participants of the Brussels conference suggested that, in order to keep up with state of the art of scientific military modeling and analysis, a time interval between meetings of five years would be more appropriate than the eight years since the Ottobrunn conference in 1974.

      17 17 As part of the reorganization of NATO in 1998, NATO's Research and Technology Organization (RTO) was created through the merger of DRG and AGARD (Advisory Group for Aerospace Research and Development founded in 1952 as an agency of the NATO Military Committee). Among others, RTO reorganized, not without some controversy, DRG's Panel 7 by establishing two panels, the new “Modeling and Simulation Group” (MSG) and the panel “System Analysis and Studies” (SAS). Both, SAS and MSG build on the methodological legacy of the Science Committee's APOR/SPOSS and DRG's Panel 7, albeit pursuing different objectives. Finally, in 2012, RTO was replaced by the NATO Science and Technology Organization (STO) “with a view to meeting, to the best advantage, the collective needs of NATO, NATO Nations and partner Nations in the fields of [military] Science and Technology.”

      18 18 G.G. Armstrong: “Canadian Land Wargaming.” Systems Analysis and Modeling in Defense (Huber, Ed.). 1984 Plenum Press, New York, pp. 171–179.

      Several parallel events did lead to the development of this compendium on wargaming and simulation.

      In December 2017, the United States Marines Corps (USMC) conducted a two‐day workshop on the future of wargaming in the light of the plans to set up a new USMC Wargaming Center. The rapid change of technology accessible by opponents as well as useful to improve own forces’ and allies’ capabilities requires a better support for experts when developing new concepts or new structures to fight in such a complex environment, with the objective of enabling the best USMC planning process. This “5th generation USMC Wargaming Center” shall not break this focus, but add more capabilities to it, using the latest technologies, including but not limited to simulation, artificial intelligence, data science, and visualization. Out of question was that the human mind is and must remain the center of wargaming. Reducing wargaming to computational analysis would lead to results that are too limited, as human innovation and creativity are pivotal components of the process. Nonetheless, models, methods, and tools are needed to refine conditions, inform decisions, and clarify factors to identify issues, substantiate findings, and indicate directions. Decision tools, scenario tools, adjudication tools, and synthesis tools must support the human mind in the wargaming process. Industry and academic partners presented methods and tools pushing the limit of what has only been theoretically possible toward what is now practically feasible. These discussions contributed to initiate this book: how can such new methods and tools enable the next generation of wargaming?

      Finally, the recent findings of complexity theory showed the need for better support of decision‐makers. They need training and evaluation environments presenting the same complexity observed in reality, and they need decision support that helps to detect, understand, and govern complexity, in particular emerging behaviors typical for complexity. Organizations such as the International Counsel of Systems Engineering (INCOSE) identified many simulation related methods and tools in their primer for complexity, and these insights should drive military decision‐making as well: We need simulation to represent complex environment as well as to detect and manage it in our command and control processes. Using the latest simulation methods in support of wargaming is therefore a must.

      The result of these parallel events is a compendium that shows the state of the art of wargaming and tools that allow the implementation of the vision of a fifth‐generation wargaming center. Although the original ideas are rooted in the USMC initiative, the insights presented here are neither limited to the Marines nor the United States. Methods and tools are generally applicable to support decision‐making in complex environments, applied to defense challenges. However, the focus of our description lies on the methods, not the application domain. In addition, some chapters provide the historical context to better understand where we are going, and some give application examples to showcase the complexity of the decisions and the power of available solutions. Overall, we hope to contribute to the discussion about decision‐making in complex environments, and how simulation and related other computational support can realize the vision of a wargaming center for the challenges of our times.

      Andreas Tolk, Hampton, Virginia

      Curtis L. Blais, Monterey, California

      Chuck Turnitsa, Newport News, Virginia

      December 2019

      Steven Aguiar Naval Undersea Warfare Center Newport, Rhode Island USA

      Ryszard Antkiewicz Military University of Technology Warsaw Poland

      Jeffrey Appleget Naval Postgraduate School Montrey, California USA

      Curtis L. Blais Naval Postgraduate School Monterey, California USA

      Karsten Brathen FFI – Norwegian Defence Research Establishment Kjeller, Norway

      Paul K. Davis RAND CorporationSanta Monica, California USA

      Armin Fügenschuh Brandenburg Technical University Cottbus–Senftenberg Germany

      Richard

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