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From the authors' abstract: "This analytical study looks at the importance of Deep Space Operations and recommends an approach for senior policy leaders. Section 1 presents a capability requirements definition with candidate solutions and technology strategies. Section 2 recommends an acquisition and organizational approach. Section 3 provides an extended strategic rationale for deep space operations as a national priority." And from the Introduction: [this essay] "presents capability requirements, potential solutions, and strategic rationale for achieving movement and maneuver advantage in deep space. In this context, deep space is anything beyond geosynchronous Earth orbit (GEO). Driving the research are two primary assumptions underpinning the need for investment in deep space propulsion. The first assumption is that growing international activity, commerce, and industry in space extends the global commons, thus creating a military-economic imperative for the United States Department of Defense (DoD) to expand its protection of U.S. interests by defending space lines of communication. Although there are wide-ranging reasons to expand the space-faring capabilities of the human species, from the capitalistic to the existential, the fact of its occurrence offers the U.S. immense strategic opportunity. Section 1, operating on this assumption, recommends capability-based requirements for deep space operations given a projected future operating environment.The second driving assumption underpinning this study is that improved movement and maneuver capabilities in deep space offer a wide array of benefits for the current National Security Enterprise, and for this reason alone demands attention in the form of disciplined investment. Furthermore, because the core functional capability required for deep space operations is in-space propulsion, the requirement necessitates a materiel solution.
Volume 5, Deep Maneuver: Historical Case Studies of Maneuver in Large-Scale Combat Operations, presents eleven case studies from World War II through Operation Iraqi Freedom focusing on deep maneuver in terms of time, space and purpose. Deep operations require boldness and audacity, and yet carry an element of risk of overextension - especially in light of the independent factors of geography and weather that are ever-present. As a result, the case studies address not only successes, but also failure and shortfalls that result when conducting deep operations. The final two chapters address these considerations for future Deep Maneuver.
With a focus on China, the United States, and India, this book examines the economic ambitions of the second space race. The authors argue that space ambitions are informed by a combination of factors, including available resources, capability, elite preferences, and talent pool. The authors demonstrate how these influences affect the development of national space programs as well as policy and law.
 Since the Cold War, outer space has become of strategic importance for nations looking to seize the ultimate high ground. World powers establishing a presence there must consider, among other things, how they will conduct warfare in orbit. Leaders must dispense with "Buck Rogers" notions about operations in space and realize that policies there will have serious ramifications for geopolitics. How should nations view space? How should they fight there? What would space warfare look like and how should strategists approach it? Offering critical observations regarding this unique theater of international relations, a military professional explores the strategic implications as human affairs move beyond Earth's atmosphere.
This book examines the concept of nationality of means of transportation in terms of jurisdiction in international law. It reassesses the definition of nationality and explores how it is conferred. The book first places nationality in the broader perspective of jurisdiction in international law, and examines the historical development and necessity of the nationality of means of transportation. It goes on to investigate whether and under which conditions international organizations may confer a ‘nationality’ on means of transportation, examining the law of the sea conventions and air and space treaties. The book finally explores several questions relating to international registration of means of transportation, building a regime of international registration. Vincent Cogliati-Bantz introduces a necessary distinction between transport internationally registered and transport registered in a State but fulfilling a mission for an international organization. As a work that proposes the ability for international organisations to access international spaces without reliance on State-registered means of transport, this book will be of great use and interest to scholars and students of public international law, international organisations, and maritime, space, and aviation law.
The technology of the next few decades could possibly allow us to explore with robotic probes the closest stars outside our Solar System, and maybe even observe some of the recently discovered planets circling these stars. This book looks at the reasons for exploring our stellar neighbors and at the technologies we are developing to build space probes that can traverse the enormous distances between the stars. In order to reach the nearest stars, we must first develop a propulsion technology that would take our robotic probes there in a reasonable time. Such propulsion technology has radically different requirements from conventional chemical rockets, because of the enormous distances that must be crossed. Surprisingly, many propulsion schemes for interstellar travel have been suggested and await only practical engineering solutions and the political will to make them a reality. This is a result of the tremendous advances in astrophysics that have been made in recent decades and the perseverance and imagination of tenacious theoretical physicists. This book explores these different propulsion schemes – all based on current physics – and the challenges they present to physicists, engineers, and space exploration entrepreneurs. This book will be helpful to anyone who really wants to understand the principles behind and likely future course of interstellar travel and who wants to recognizes the distinctions between pure fantasy (such as Star Trek’s ‘warp drive’) and methods that are grounded in real physics and offer practical technological solutions for exploring the stars in the decades to come.
This is a completely updated and revised version of a monograph published in 2002 by the NASA History Office under the original title Deep Space Chronicle: A Chronology of Deep Space and Planetary Probes, 1958-2000. This new edition not only adds all events in robotic deep space exploration after 2000 and up to the end of 2016, but it also completely corrects and updates all accounts of missions from 1958 to 2000--Provided by publisher.
What Is Mass Driver The linear motor of a mass driver or electromagnetic catapult would be used to accelerate and catapult payloads up to high speeds. This non-rocket technique of spacelaunch is referred to as a mass driver or electromagnetic catapult. The electromagnets that are used in mass drivers both already in use and those that are being considered employ coils of wire that are activated by electricity. However, a rotary mass driver has also been suggested. The acceleration of a payload along a route is achieved by firing a sequence of electromagnets in sequential order. The momentum of the payload causes it to continue moving even after it has left the route. How You Will Benefit (I) Insights, and validations about the following topics: Chapter 1: Mass driver Chapter 2: Rocket Chapter 3: Spacecraft propulsion Chapter 4: Ion thruster Chapter 5: Pulsed plasma thruster Chapter 6: Beam-powered propulsion Chapter 7: Fusion rocket Chapter 8: Projectile Chapter 9: Railgun Chapter 10: Propellant Chapter 11: Coilgun Chapter 12: Orbital maneuver Chapter 13: Space gun Chapter 14: Momentum exchange tether Chapter 15: Launch loop Chapter 16: Plasma propulsion engine Chapter 17: Spacecraft electric propulsion Chapter 18: Reaction engine Chapter 19: Non-rocket spacelaunch Chapter 20: Field propulsion Chapter 21: Ram accelerator (II) Answering the public top questions about mass driver. (III) Real world examples for the usage of mass driver in many fields. (IV) 17 appendices to explain, briefly, 266 emerging technologies in each industry to have 360-degree full understanding of mass driver' technologies. Who This Book Is For Professionals, undergraduate and graduate students, enthusiasts, hobbyists, and those who want to go beyond basic knowledge or information for any kind of mass driver.
A description of what the Deep Space Network (DSN) is about, and how it works an aspect of NASA's planetary program. The origin and birth of the DSN, its subsequent development and expansion over four decades, and a description of the way in which the DSN was used to fulfill the purpose for which it was created. Technical references on the advanced telecommunications technology of the DSN. Describes the inner workings of the DSN and how they related to the more publicly visible events of the planetary space program.