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Armed robotic systems-drones and droids-now emerging on the battlefield portend new strategic realities not only for U.S. forces but also for our allies and future potential belligerents. Numerous questions of immediate warfighting importance come to mind with the fielding of these drones and droids that are viewed as still being in their experimental and entrepreneurial stage of development. By drawing upon historical weapons systems life cycles case studies, focusing on the early 9th through the mid-16th-century knight, the mid-19th through the later 20th-century battleship, and the early 20th through the early 21st-century tank, the monograph provides military historical context related to their emergence, and better allows both for questions related to warfighting to be addressed, and policy recommendations related to them to be initially provided.
In the early years of robotics and automated vehicles, the fight was against nature and not against a manifestly intelligent opponent. In military environments, however, where prediction and anticipation are complicated by the existence of an intelligent adversary, it is essential to retain human operators in the control loop. Future combat systems will require operators to control and monitor aerial and ground robotic systems and to act as part of larger teams coordinating diverse robotic systems over multiple echelons. The National Research Council organized a workshop to identify the most important human-related research and design issues from both the engineering and human factors perspectives, and develop a list of fruitful research directions. Interfaces for Ground and Air Military Robots summarizes the presentations and discussions from this workshop.
Soldier-robot teams will be an important component of future battle spaces, creating a complex but potentially more survivable and effective combat force. The complexity of the battlefield of the future presents its own problems. The variety of robotic systems and the almost infinite number of possible military missions create a dilemma for researchers who wish to predict human-robot interactions (HRI) performance in future environments. Human-Robot Interactions in Future Military Operations provides an opportunity for scientists investigating military issues related to HRI to present their results cohesively within a single volume. The issues range from operators interacting with small ground robots and aerial vehicles to supervising large, near-autonomous vehicles capable of intelligent battlefield behaviors. The ability of the human to 'team' with intelligent unmanned systems in such environments is the focus of the volume. As such, chapters are written by recognized leaders within their disciplines and they discuss their research in the context of a broad-based approach. Therefore the book allows researchers from differing disciplines to be brought up to date on both theoretical and methodological issues surrounding human-robot interaction in military environments. The overall objective of this volume is to illuminate the challenges and potential solutions for military HRI through discussion of the many approaches that have been utilized in order to converge on a better understanding of this relatively complex concept. It should be noted that many of these issues will generalize to civilian applications as robotic technology matures. An important outcome is the focus on developing general human-robot teaming principles and guidelines to help both the human factors design and training community develop a better understanding of this nascent but revolutionary technology. Much of the research within the book is based on the Human Research and Engineering Directorate (HRED), U.S. Army Research Laboratory (ARL) 5-year Army Technology Objective (ATO) research program. The program addressed HRI and teaming for both aerial and ground robotic assets in conjunction with the U.S. Army Tank and Automotive Research and Development Center (TARDEC) and the Aviation and Missile Development Center (AMRDEC) The purpose of the program was to understand HRI issues in order to develop and evaluate technologies to improve HRI battlefield performance for Future Combat Systems (FCS). The work within this volume goes beyond the research results to encapsulate the ATO's findings and discuss them in a broader context in order to understand both their military and civilian implications. For this reason, scientists conducting related research have contributed additional chapters to widen the scope of the original research boundaries.
This book provides an insightful introduction to the most important field of military innovation for the 21st century—robotic and drone weaponry. For centuries, warring nations have sought to lower the risk to highly vulnerable humans on the battlefield, typically by providing protective armor, making soldiers' positions more difficult to detect, or by striking from locations safe from retaliation. Autonomous weaponry has now reached the point where robotic systems can perform some key tasks that previously required direct human involvement. Military Robots and Drones: A Reference Handbook introduces the lay person to a highly specialized topic, providing the foundation necessary for further study in this field. Appropriate for high school and college-level students, as well as general readers with an interest in the topic, the author explains the many military applications of robotics as well as current limitations and disadvantages. The book also provides a general history of robotic warfare; examines key individuals, agencies, documents, and models; discusses controversies within the field of robotic and drone warfare, such as ethical considerations; and explains how increased reliance on robotics has affected the structure and strategy of the military.
Military robots are affecting both the decision to go to war and the means by which wars are conducted. This book covers the history of military robotics, analyzes their current employment, and examines the ramifications of their future utilization. Robotic systems are the future of military conflicts: their development is already revolutionizing the nature of human conflict-and eroding the standards of acceptable behavior in wartime. Written by a professor who teaches strategy and leadership for the U.S. Air Force, one of the global leaders in the development and utilization of military robots, this book both addresses the history of military robotics and discusses the troubling future ramifications of this game-changing technology. Organized both chronologically and thematically, the book's chapters describe the development and evolution of unmanned warfare; clarify the past, current, and future capabilities of military robotics; and offer a detailed and convincing argument that limits should be placed upon their development before it is too late. This standout work presents an eye-opening analysis that military personnel, civil servants, and academic instructors who teach military history, social policy, and ethics can ill afford to ignore, and will also provide the general public with information that will correct misconceptions about military robotics derived through popular culture and the news media.
Military robots and other, potentially autonomous robotic systems such as unmanned combat air vehicles (UCAVs) and unmanned ground vehicles (UGVs) could soon be introduced to the battlefield. Look further into the future and we may see autonomous micro- and nanorobots armed and deployed in swarms of thousands or even millions. This growing automation of warfare may come to represent a major discontinuity in the history of warfare: humans will first be removed from the battlefield and may one day even be largely excluded from the decision cycle in future high-tech and high-speed robotic warfare. Although the current technological issues will no doubt be overcome, the greatest obstacles to automated weapons on the battlefield are likely to be legal and ethical concerns. Armin Krishnan explores the technological, legal and ethical issues connected to combat robotics, examining both the opportunities and limitations of autonomous weapons. He also proposes solutions to the future regulation of military robotics through international law.
This monograph analyzes three case studies and compares them to determine some of the critical factors behind models of successful and unsuccessful innovation. These case studies include the German and French Armies and their mechanized doctrine development 1919-1939 and the U.S. Army's autonomous robotic doctrine development 2005 - 2025. The twenty-first century provides a challenging, complex, and dynamic operational environment for US military planners to effectively link tactical ways and means to achieve strategic ends and to ultimately enforce US national policy. The US Army's current Unified Action doctrine states that Unified Land Operations must be executed through decisive action, and by means of the two core competencies of combined arms maneuver and wide area security.4 This doctrine outlines a wide-ranging mission set for land component forces, and therefore maneuver officers will need to develop innovative solutions to effectively train and prepare Soldiers to rapidly respond to a variety of these world-wide contingencies. The recent US troop withdrawals from Iraq and Afghanistan, in conjunction with subsequent reductions in national defense budgets, and lower force levels are congruent with a lack of overall popular support for the mass deployment of US combat Soldiers abroad. In the recent post-war environment, US military planners increasingly strive to develop innovative ways to achieve greater capabilities with fewer resources. Concurrently, many civilian applications and developments of both digital and robotic technology continue to advance at an unprecedented pace. The proliferation of this technology has rendered unmanned, remote controlled, and even autonomous robotic systems accessible to both state and non-state organizations alike. The potential applications for these robotic systems are continually expanding and their capabilities may be exploited for both benevolent and malevolent designs. Though many of these early robotic innovations manifested in Iraq and Afghanistan, the vast capabilities and growing implications of these armed robotic weapon systems have not yet been fully realized. It is useful to consider and compare the insights of genius-inventor Nikola Tesla who predicted extraordinary advancements in robotic capabilities for our near-term future, with the observations of former Secretary of Defense Robert Gates who cautioned against the stalwart resistance to change inherent within powerful military-industrial bureaucracies. . Contemporary operational planners, much like their predecessors in the inter-war period, must be attuned to the changing characteristics of warfare. These changes in the contemporary operational environment will likely incorporate autonomous robotic capabilities at an unprecedented pace. This project seeks to determine if maneuver officers in the US Army are fully anticipating the requirement to field and develop autonomous robotic ground weapon systems, and create a comprehensive doctrine to effectively integrate these systems with other emergent technologies. It further determines whether powerful institutional norms, rooted in decades of battlefield dominance throughout the twentieth century, have formed a cognitive resistance to such innovative doctrinal development or to paradigm shifts that may be required to prepare the US Army to dominate ground combat operations in the 21st century. The twenty-first century provides a challenging, complex, and dynamic operational environment for US military planners to effectively link tactical ways and means to achieve strategic ends and to ultimately enforce US national policy. The US Army's current Unified Action doctrine states that Unified Land Operations must be executed through decisive action, and by means of the two core competencies of combined arms maneuver and wide area security.
“[Singer's] enthusiasm becomes infectious . . . Wired for War is a book of its time: this is strategy for the Facebook generation.” —Foreign Affairs “An engrossing picture of a new class of weapon that may revolutionize future wars. . .” —Kirkus Reviews P. W. Singer explores the great­est revolution in military affairs since the atom bomb: the dawn of robotic warfare We are on the cusp of a massive shift in military technology that threatens to make real the stuff of I, Robot and The Terminator. Blending historical evidence with interviews of an amaz­ing cast of characters, Singer shows how technology is changing not just how wars are fought, but also the politics, economics, laws, and the ethics that surround war itself. Travelling from the battlefields of Iraq and Afghanistan to modern-day "skunk works" in the midst of suburbia, Wired for War will tantalise a wide readership, from military buffs to policy wonks to gearheads.