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Examines the control engineering aspects of guided weapon systems with a treatment of the use of multi-loop closed loop control theory. Includes an account of the design of optimal servos, autopilots, target trackers, & control instrumentation.
Airborne Vehicle Guidance and Control Systems is a broad and wide- angled engineering and technological area for research, and continues to be important not only in military defense systems but also in industrial process control and in commercial transportation networks such as various Global Positioning Systems (GPS). The book fills a long-standing gap in the literature. The author is retired from the Air Force Institute and received the Air Force's Outstanding Civilian Career Service Award.
Indhold: The Performance of Target Trackers; Missile Servos; Missile Control Methods; Aerodynamic Derivatives and Aerodynamic Transfer Functions; Missile Instruments; Autopilot Design; Line of Sight Guidance Loops; Homing Heads and some Associated Stability Problems; Proportional Navigation and Homing Guidance Loops; Wiener Filter Theory Applied to Guidance Loops Design; Modern Control Theory Applied to Guidance Loop Design; Kalman Filters.
Stringent demands on modern guided weapon systems require new approaches to guidance, control, and estimation. There are requirements for pinpoint accuracy, low cost per round, easy upgrade paths, enhanced performance in counter-measure environments, and the ability to track low-observable targets. Advances in Missile Guidance, Control, and Estimat
Over the past half century, guided weapons have developed faster than any other form of weapon system, and they now exert a major influence on international politics, strategy, and tactics. Guided Weapons explains the technology and development of such systems and their use on the battlefield against armored vehicles, ground targets, and aircraft. This new edition has been fully revised and updated to include all recent advances in the field, with particular emphasis on fiber-optic guidance.
Design of Guidance and Control Systems for Tactical Missiles presents a modern, comprehensive study of the latest design methods for tactical missile guidance and control. It analyzes autopilot designs, seeker system designs, guidance laws and theories, and the internal and external disturbances affecting the performance factors of missile guidance control systems. The text combines detailed examination of key theories with practical coverage of methods for advanced missile guidance control systems. It is valuable content for professors and graduate-level students in missile guidance and control, as well as engineers and researchers who work in the area of tactical missile guidance and control.
Underground facilities are used extensively by many nations to conceal and protect strategic military functions and weapons' stockpiles. Because of their depth and hardened status, however, many of these strategic hard and deeply buried targets could only be put at risk by conventional or nuclear earth penetrating weapons (EPW). Recently, an engineering feasibility study, the robust nuclear earth penetrator program, was started by DOE and DOD to determine if a more effective EPW could be designed using major components of existing nuclear weapons. This activity has created some controversy about, among other things, the level of collateral damage that would ensue if such a weapon were used. To help clarify this issue, the Congress, in P.L. 107-314, directed the Secretary of Defense to request from the NRC a study of the anticipated health and environmental effects of nuclear earth-penetrators and other weapons and the effect of both conventional and nuclear weapons against the storage of biological and chemical weapons. This report provides the results of those analyses. Based on detailed numerical calculations, the report presents a series of findings comparing the effectiveness and expected collateral damage of nuclear EPW and surface nuclear weapons under a variety of conditions.