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An introduction to military technology, looking at the advanced weaponry and machinery employed by military forces around the world.
In this book, historians of technology bring their special expertise to probing the influence of the military on technological development over a broad range of history and in a variety of cases.
In a rapidly changing world, there needs to be a critical reappraisal of traditional military/industry relationships. This book, packed with data, industry-specific case studies, and sophisticated analysis, is such an appraisal. It will be required reading for technology managers and policymakers in industry and government, as well as those concerned with technological and economic competitiveness.
The growth of American engineering and science has affected military technology, organization, and practice from the colonial era to the present day—even as military concerns have influenced, and often funded, domestic engineering programs and scientific development. American Military Technology traces the interplay of technology and science with the armed forces of the United States in terms of what Hacker and Vining view as epochs: 1840–1865, the introduction of modern small arms, steam power, and technology, science, and medicine; 1900–1914, the naval arms race, torpedoes and submarines, and the signal corps and the airplane; and 1965–1971, McNamara's Pentagon, technology in Vietnam, guided missiles, and smart bombs. The book is an excellent springboard for understanding the complex relationship of science, technology, and war in American history.
The inherent advantages and potential payoffs of the terahertz (THz) regime for military and security applications serve as an important driver for interest in new THz-related science and technology. In particular, the very rapid growth in more recent years is arguably most closely linked to the potential payoffs of THz sensing and imaging (THz-S&I). This book presents some of the leading fundamental research efforts towards the realization of practical THz-S&I capabilities for military and security applications. Relevant subjects include theoretical prediction and/or measurement of THz spectroscopic phenomenon in solid-state materials such as high explosives (e.g. HMX, PETN, RDX, TNT, etc.), carbon-fiber composites, biological agents (e.g. DNA, RNA, proteins, amino acids) and organic-semiconductor nanostructures. Individual papers also address the effective utilization of state-of-the-art THz-frequency technology in military and security relevant scenarios such as standoff S&I, screening of packages and personnel, and perimeter defense. Technical papers introduce novel devices and/or concepts that enhance THz source and detector performance, enabling completely new types of sensor functionality at THz frequency (e.g. detection at nanoscale/molecular levels), and defining new and innovative sensing modalities (e.g. remote personnel identification) for defense and security. Therefore, the collective research presented here represents a valuable source of information on the evolving field of THz-S&I for military and security applications. Sample Chapter(s). Foreword (106 KB). Chapter 1: Development of Computational Methodologies for the Prediction and Analysis of Solid-State Terahertz Spectra (1,347 KB). Contents: Fire Damage on Carbon Fiber Materials Characterized by THz Waves (N Karpowicz et al.); Fingerprinting Insulins in the Spectral Region from Mid-IR to THz (R Song et al.); Ambient Air Used as the Nonlinear Media for THz Wave Generation (X Xie et al.); Time Domain Terahertz Imaging of Threats in Luggage and Personnel (D Zimdars et al.); Designed Self-Organization for Molecular Optoelectronic Sensors (M Norton); An Optically-Triggered I-RTD Hybrid THz Oscillator Design (D Woolard et al.); New Technique to Suppress Sidelobe Clutter in Perimeter Security Systems (G W Webb et al.); Remote Identification of Foreign Subjects (A Sokolnikov); and other papers. Readership: University researchers in electrical engineering, physics, chemistry, biology; students and small business efforts in high-frequency electronics and sensors; as a supplement for graduate courses.
The nature of warfare has always been largely determined by contemporary technology. Instances of technological change undertaken for the sake of military advantage have also been relatively common in history. The relationships between science and warfare, however, have been much more variable and ambiguous. The papers and discussions of the Symposium investigate selected aspects of the complex relationships between science and technology on the one hand, and warfare on the other, from the Renaissance to the 1960s. In the first session, Professor Hall takes up in turn the possible areas of interaction between science (exterior ballistics, engineering, explosives, mechanics, and metallurgy) and military technology (edge weapons, cannons and mortars, fortification and siege warfare, and small arms) in the 15th, 16th, and 17th centuries. The notion that science is pursued for utilitarian ends, Hall finds, is an unhistorical projection backward from our own age." He excludes navigation and medicine from consideration, because they were civil as well as military concerns. In spite of the pleading of certain early propagandists of the Empire of Man over Nature," and in spite of the elaborate sketches of military engines in Leonardo's notebooks, military technology was largely innocent of scientific method. The developments in fortification required mathematical skills, but nothing more than elementary geometry and arithmetic. Mathematicians studied the ancient problem of the trajectory of projectiles, but their efforts affected neither the design nor the use of guns. The range tables they provided were not even usable with the guns of the time. The solution of the trajectory problem would await Benjamin Robins and the 18th century. Professor Hale supports Hall's conclusion with three arguments. In the 16th and 17th centuries, armies were so organized as to preclude any productive contact with the worlds of science and technology.
Militaries with state-of-the-art information technology sometimes bog down in confusing conflicts. To understand why, it is important to understand the micro-foundations of military power in the information age, and this is exactly what Jon R. Lindsay's Information Technology and Military Power gives us. As Lindsay shows, digital systems now mediate almost every effort to gather, store, display, analyze, and communicate information in military organizations. He highlights how personnel now struggle with their own information systems as much as with the enemy. Throughout this foray into networked technology in military operations, we see how information practice—the ways in which practitioners use technology in actual operations—shapes the effectiveness of military performance. The quality of information practice depends on the interaction between strategic problems and organizational solutions. Information Technology and Military Power explores information practice through a series of detailed historical cases and ethnographic studies of military organizations at war. Lindsay explains why the US military, despite all its technological advantages, has struggled for so long in unconventional conflicts against weaker adversaries. This same perspective suggests that the US retains important advantages against advanced competitors like China that are less prepared to cope with the complexity of information systems in wartime. Lindsay argues convincingly that a better understanding of how personnel actually use technology can inform the design of command and control, improve the net assessment of military power, and promote reforms to improve military performance. Warfighting problems and technical solutions keep on changing, but information practice is always stuck in between.
To some philosophers, seeking to understand the human condition, technology is a necessary guide. But to think through the complex human phenomenon of technology we must tackle philosophy of science, philosophy of culture, moral issues, comparative civilizational studies, and the economics of specific industrial and military technologies in their historical contexts. The philoso pher wants to grasp the technological factor in this troubled world, even as we see it is only one factor, and that it does not speak openly for itself. Put directly, our human troubles to a considerable extent have been transformed, exaggerated, distorted, even degraded, perhaps transcended, by what engi neers and scientists, entrepreneurs and politicians, have wrought. But our problems are ancient, problems of dominations, struggles, survival, values in conflict, greed and insane sadisms. To get some conceptual light on the social reality which seems immediately to be so complicated, a philosopher will need to learn from the historians of technology. A few years ago, the philosopher Elisabeth Straker concluded that "a his torical philosophy of technology [is required] since history - and history alone - provides all those concepts that form part of the repertoire of the philosoph ical analysis of technology". And she added that this goes far beyond the triviality that like other cultural achievements technology has its historical development. Now historical comprehension is no substitute for a logical methodology in the analysis of technological problems.
Annotation -- New Scientist.
An essential introduction to modern defense policy The U.S. military is one of the largest and most complex organizations in the world. How it spends its money, chooses tactics, and allocates its resources have enormous implications for national defense and the economy. The Science of War is the only comprehensive textbook on how to analyze and understand these and other essential problems in modern defense policy. Michael O'Hanlon provides undergraduate and graduate students with an accessible yet rigorous introduction to the subject. Drawing on a broad range of sources and his own considerable expertise as a defense analyst and teacher, he describes the analytic techniques the military uses in every crucial area of military science. O'Hanlon explains how the military budget works, how the military assesses and deploys new technology, develops strategy and fights wars, handles the logistics of stationing and moving troops and equipment around the world, and models and evaluates battlefield outcomes. His modeling techniques have been tested in Iraq and Afghanistan, including the methods he used to predict higher-than-anticipated troop fatalities in Iraq—controversial predictions that have since been vindicated. The Science of War is the definitive resource on warfare in the twenty-first century. Gives the best introduction to defense analysis available Covers defense budgeting Shows how to model and predict outcomes in war Explains military logistics, including overseas basing Examines key issues in military technology, including missile defense, space warfare, and nuclear-weapons testing Based on the author's graduate-level courses at Princeton, Columbia, and Georgetown universities