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RANDALL STEEB JOHN MATSUMURA PAUL STEINBERG TOM HERBERT PHYLLIS KANTAR PATRICK BOGUE Prepared for the United States Army Approved for public release, distribution unlimited Examining the Army’s Future Warrior Force-on-Force Simulation of Candidate Technologies The RAND Corporation is a nonprofit research organization providing objective analysis and effective solutions that address the challenges facing the public and private sectors around the world. RAND’s publications do not necessarily reflect the opinions of its research clients and sponsors. R ® is a registered trademark. © Copyright 2004 RAND Corporation All rights reserved. No part of this book may be reproduced in any form by any electronic or mechanical means (including photocopying, recording, or information storage and retrieval) without permission in writing from RAND. Published 2004 by the RAND Corporation 1700 Main Street, P.O. 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U393.E95 2004 355.5—dc22 2003023340 The research described in this report was sponsored by the United States Army under Contract No. DASW01-01-C-0003. iii Preface This report summarizes work performed during a quick-response analytic effort in support of the 2001 Army Science Board (ASB) Summer Study on Objective Force Soldier, along with subsequent ef- forts in related areas. The work used high-resolution constructive simulation to examine key aspects of “objective soldier,” with the modeling taking place in the 2015–2020 time frame. In conducting the study, the research team interacted with various members of the ASB and, in particular, with key members of the Analysis, Fightabil- ity, and Concepts panels, drawing extensively on their forward- looking ideas and ultimately integrating many of these ideas into the research. The primary scenario employed was a highly stressing mis- sion involving a dismounted attack on an enemy position in complex terrain. This work should be of interest to those involved in technology assessment, force structure, and examination of new tactical concepts. This research was sponsored by the Assistant Secretary of the Army (Analysis, Logistics and Technology) and was conducted in the Force Development and Technology Program of RAND Arroyo Center. The Arroyo Center is a federally funded research and devel- opment center sponsored by the United States Army. iv Examining the Army’s Future Warrior For more information on RAND Arroyo Center, contact the Direc- tor of Operations (telephone 310-393-0411, extension 6419; FAX 310-451-6952; e-mail Marcy_Agmon@rand.org), or visit the Arroyo Center’s web site at http://www.rand.org/ard/. v The RAND Corporation Quality Assurance Process Peer review is an integral part of all RAND research projects. Prior to publication, this document, as with all documents in the RAND monograph series, was subject to a quality assurance process to ensure that the research meets several standards, including the following: The problem is well formulated; the research approach is well de- signed and well executed; the data and assumptions are sound; the findings are useful and advance knowledge; the implications and rec- ommendations follow logically from the findings and are explained thoroughly; the documentation is accurate, understandable, cogent, and temperate in tone; the research demonstrates understanding of related previous studies; and the research is relevant, objective, inde- pendent, and balanced. Peer review is conducted by research profes- sionals who were not members of the project team. RAND routinely reviews and refines its quality assurance pro- cess and also conducts periodic external and internal reviews of the quality of its body of work. For additional details regarding the RAND quality assurance process, visit http://www.rand.org/ standards/. vii Contents Preface iii Figures and Table ix Summary xi Acknowledgments xvii List of Acronyms xix CHAPTER ONE Introduction 1 Background 1 Objective 2 Methodology 3 Scenarios Chosen 4 Simulation Tools Used for the Analysis 7 Organization of This Document 9 CHAPTER TWO How Might a Current-Generation Soldier Unit Perform in a Challenging Combat Operation? 11 How Does the Current-Generation Soldier Unit Fare? 11 Why Do We See the Results We Do? 12 CHAPTER THREE What Are Some Key, High-Leverage Technologies for the Objective Soldier? 17 What Technologies Are Examined? 17 viii Examining the Army’s Future Warrior What Are Some Other Potential Excursions? 19 CHAPTER FOUR What Is the Impact of Such Technologies in Combat, Using High- Resolution Simulation? 21 What Effect Do Future Technologies Have on the Performance of Future Objective Soldier? 21 Excursions on Individual Technology Options 22 Excursions on Synergistic Effect of Multiple Options 29 What Effect Do “Far Future” Technologies Have on the Performance of the Future Objective Soldier? 31 CHAPTER FIVE What Are Some of the Alternatives (Non-Soldier-Based) for Accomplishing the Same Mission? 39 What Can We Learn from Other Relevant Studies About Fighting in Complex Terrain as in Scenario 1? 39 What Can We Learn from Other Relevant Studies About Fighting in MOUT Situations as in Scenario 2? 45 What Improvements in Modeling and Simulation Are Needed for Representing Dismounted Infantry Operations and Complex Terrain? 49 CHAPTER SIX Observations and Conclusions 55 Bibliography 58 [...]... holds fire until the ambush is initiated Simulation Tools Used for the Analysis We used two simulation tools for examining the force options in the two scenarios: Janus (a two-sided, force-on-force ground combat model) and the Joint Combat and Tactical Simulation (JCATS) Figure 1.4 shows the constituent models of the Janus-based simulation environment The models are linked together using the Seamless Figure... and presenting the results in the form of 3-D visualization Findings The bulk of our work focused on use of the treeline scenario Here, a 40-soldier platoon of Blue dismounted soldiers attacked a 13-soldier squad of Red infantry dug into a treeline The attack was made under covering fire by machine guns, with the force advancing in alternat _ 4 Janus is a system-level force-on-force simulation originally... protection Much of the attention so far has focused on examining alternative vehicle platforms and technologies for the FCS concept, and indeed that was the focus of the effort by the Army Science Board (ASB) in its 2000 Summer Study.2 In its 2001 Summer Study, the ASB sought to balance the picture by focusing on the future soldier, examining the integration of the FCS concepts with future dismounted... Activity, Army Future Combat Systems Unit of Action Systems Book, Version 3.0, May 13, 2003 3 This study and many other examinations of future soldier systems are reported in the ASB 2001 Summer Study on the Objective Force Soldier/Soldier Team An electronic copy can be found at https://webportal.saalt.army.mil/sard-asb/ASBDownloads/OFS-Vol-III-All .pdf xi xii Examining the Army’s Future Warrior stressing... Details of Scenario 2 8 Examining the Army’s Future Warrior Figure 1.4 Simulation Environment Used for This Analysis Model Interface (SEMINT), a form of locally distributed network The individual models center on the force-on-force Janus wargaming simulation and comprise a wide range of capabilities Janus itself has been modified for analysis from its original form by increasing the size and scope of engagements,... Performance of XM-29 by Target Characteristics 24 4.4 Effects of Smoke 25 4.5 Effect of Cannon Fire Without Good Knowledge of Enemy Positions 27 4.6 Effect of MLRS with DPICM Without Good Knowledge of Enemy Positions 28 4.7 Effect of Fires with Good Knowledge of Enemy Positions 29 ix x Examining the Army’s Future Warrior 4.8 Effect of Synergies of Indirect Fire, XM-29, and Body Armor... fields of fire, but at the same time 6 Examining the Army’s Future Warrior Figure 1.2 Details of Scenario 1 he can be hit by direct fire from only a limited number of directions Blue must use an integrated fireplan to suppress and attack the dug-in positions The resulting bunkers are similar in many ways to an urban fighting position in a building Again there is the use of sandbags and camouflage, and the. .. 30 4.9 Effect of Synergies of Indirect Fire, XM-29, and Body Armor on LERs 31 4.10 Effects of Faster and Slower Sprint Speed Under Heavier Load 32 4.11 Effects of Adding Very-High-Quality Body Armor 33 4.12 Effects of Further Reducing Signature 34 4.13 Effects of Outfitting Only a Portion of Force with XM-29 34 4.14 Effects of XM-29 and M-16 on LER 35 5.1 Effects of C2 Delay on Indirect... FCS program is a collaborative effort between the U.S Army and the Defense Advanced Research Projects Agency (DARPA), and it represents a new and distinct major program of the Army’s transformation plan In coordination with the lead system in- 1 2 Examining the Army’s Future Warrior tegrator (LSI),1 the Army and DARPA are now assessing the shape of this future force, what it will look like, and how... analyzed what effect weather would have on the outcome of the battle, speculating that poorer visibility might help the attacking Blue force given its edge in surveillance and open terrain Figure 2.5 shows the results of a run in which the weather in the region is that of the worst 10 percent of time, compared to median weather (here historical levels are worse 50 percent of the time) Figure 2.4 Detections, . 45 1-6 915; Email: order@rand.org Library of Congress Cataloging-in-Publication Data Examining the Army’s future warrior : force-on-force simulation of candidate. https://webportal.saalt.army.mil/sard-asb/ASBDownloads/OFS-Vol-III-All .pdf. xii Examining the Army’s Future Warrior stressing scenarios. The effort focuses on a series of research ques- tions,