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The Department of the Navy strives to maintain, through its Office of Naval Research (ONR), a vigorous science and technology (S&T) program in those areas considered critically important to U.S. naval superiority in the maritime environment, including littoral waters and shore regions. In pursuing its S&T investments in such areas, ONR must ensure that (1) a robust U.S. research capability to work on long-term S&T problems in areas of interest to the Department of the Navy and the Department of Defense is sustained, (2) an adequate supply of new scientists and engineers in these areas is maintained, and (3) S&T products and processes necessary to ensure future superiority in naval warfare are provided. One of the critical areas for the Department of the Navy is undersea weapons. An Assessment of Undersea Weapons Science and Technology assesses the health of the existing Navy program in undersea weapons, evaluates the Navy's research effort to develop the capabilities needed for future undersea weapons, identifies non-Navy-sponsored research and development efforts that might facilitate the development of such advanced weapons capabilities, and makes recommendations to focus the Navy's research program so that it can meet future needs.
Environmental information is important for successful planning and execution of naval operations. A thorough understanding of environmental variability greatly increases the likelihood of mission success. To ensure that naval forces have the most up-to-date capabilities, the Office of Naval Research (ONR) has an extensive environmental research program. This research, to be of greatest use to the warfighter, needs to be directed towards assisting and solving battlefield problems. To increase research community understanding of the operational demands placed on naval operators and to facilitate discussion between these two groups, the National Research Council's (NRC) Ocean Studies Board (OSB), working with ONR and the Office of the Oceanographer of the Navy, convened five previous symposia on tactical oceanography. Oceanography and Mine Warfare examines the following issues: (1) how environmental data are used in current mine warfare doctrine, (2) current procedures for in situ collection of data, (3) the present capabilities of the Navy's oceanographic community to provide supporting information for mine warfare operations, and (4) the ability of oceanographic research and technology developments to enhance current mine warfare capabilities. This report primarily concentrates on the importance of oceanographic data for mine countermeasures.
Power beaming is the ability to move energy without moving or employing mass between an energy input and energy output. It is an emerging technology that could reshape how we generate and distribute energy and how our devices and autonomous systems are powered.This comprehensive compendium provides the foundation needed for researchers, technology developers, and end users to understand the promise and challenges for power beaming. By establishing a common nomenclature and conceptual approach to the analysis and assessment of power beaming systems, this unique reference text provides a true status of advancements in the field, and lays the groundwork for fruitful future research and applications.
A vivid portrait of how Naval oversight shaped American oceanography, revealing what difference it makes who pays for science. What difference does it make who pays for science? Some might say none. If scientists seek to discover fundamental truths about the world, and they do so in an objective manner using well-established methods, then how could it matter who’s footing the bill? History, however, suggests otherwise. In science, as elsewhere, money is power. Tracing the recent history of oceanography, Naomi Oreskes discloses dramatic changes in American ocean science since the Cold War, uncovering how and why it changed. Much of it has to do with who pays. After World War II, the US military turned to a new, uncharted theater of warfare: the deep sea. The earth sciences—particularly physical oceanography and marine geophysics—became essential to the US Navy, which poured unprecedented money and logistical support into their study. Science on a Mission brings to light how this influx of military funding was both enabling and constricting: it resulted in the creation of important domains of knowledge but also significant, lasting, and consequential domains of ignorance. As Oreskes delves into the role of patronage in the history of science, what emerges is a vivid portrait of how naval oversight transformed what we know about the sea. It is a detailed, sweeping history that illuminates the ways funding shapes the subject, scope, and tenor of scientific work, and it raises profound questions about the purpose and character of American science. What difference does it make who pays? The short answer is: a lot.
This is the history of the founding in 1882 and operation through two world wars of America's first permanent intelligence agency, the Office of Naval Intelligence. In this study Dr. Jeffery M. Dorwart shows how and why a tiny late 19th century U.S. Navy bureau created to collect information about foreign warship design became during two world wars a complex and sometimes troubled domestic and worldwide intelligence agency. More significantly, this history of O.N.I. demonstrates how the founders and first generations of U.S. naval officers trained to man warships at sea confronted what seemed an inherent dilemma in new missions that interfered with providing technical and operational information to their navy. Dorwart explains the forces that created this dilemma and how ONI officers responded in different ways to their intelligence mission. This history recounts how from the very beginning ONI duty during the last decades of the 19th century seemed conflicting. Some found the new assignment very rewarding in collecting and collating data for the U.S. to build a "New Navy" of steel and steam-powered warships armed with the latest rifled ordnance. But other naval officers saw assignment to this tiny office as a monotonous dead-end assignment endangering their careers as shipboard operators. Dorwart shows how the first and second world wars and interwar period dramatically accelerated the naval intelligence office's dilemma. The threats in both oceans from powerful enemy navies equipped with the latest technology and weaponry gave an urgency to the collection of information on the strategies, warships, submarines, and aircraft development of potential and actual naval enemies. But at the same time ONI was asked to provide information of possible domestic threats from suspected enemy spies, terrorists, saboteurs or anti-war opponents. This led ONI officers to wiretap, break and enter, pursue surveillance of all types of people from foreign agents to Americans suspected of opposition to strengthening the U.S. Navy or becoming involved in world wars. This history explains that many ONI directors and officers were highly motivated to collect as much information as possible about the naval-military capabilities and strategies of Germany, Italy, Japan, and even allies. ONI officers understood that code-breaking was part of their job as well. But this all led some to become deeply involved in domestic spying, wiretapping, breaking and entering on private property. These extralegal and at times illegal operations, Dorwart argues, confused some ONI officers, leading to too much information that clouded vital intelligence such as Japanese plans to attack American naval bases. In the end, this study demonstrates the dilemma confronted between 1882 and 1945 by dedicated U.S. naval officers attached to or collecting information worldwide for the Office of Naval Intelligence.
Tells the story of the evolution of the Dahlgren Laboratory from a proof and test facility into a modern research and development center crucial to the technological evolution of the United States Navy.
The Hyperwar era is upon us. The fusion of distributed artificial intelligence with highly autonomous military systems ushers in a type of lightning-quick conflict that has never been seen before. Yet this is more than a revolution in military affairs; it is a revolution in human affairs that will transform the 21st century defense and security environment. Advances in AI will fundamentally change the human condition, and with it, a profoundly human undertaking, war. Conflict and Competition in the AI Century, gathers essays by leading experts in artificial intelligence explore the operational, technological, ethical, and professional military dimensions of this new era in which US dominance is no longer assured. "'Hyperwar' doesn't just admire the problem of AI-fueled warfare, it offers concrete approaches to help U.S. policymakers and our allies prepare. It is a 'must read' for all humans seeking to be 'in the loop or on the loop' before these technologies outpace our capacity to make ethical, strategic and secure decisions about our future." -Ambassador Victoria Nuland CEO, Center for a New American Security