Eine konsistente Behandlung der Technologie moderner Navigationssysteme - für den Entwicklungsingenieur ebenso wie für den Betreiber existierender Anlagen. Der Autor, ein erfahrener Praktiker, geht in dieser zweiten, aktualisierten Auflage auch auf neueste Entwicklungen in Theorie, Hard- und Software ein, wie sie beispielsweise in Satellitensystemen, elektronischen Fahrzeugsteuerungen und Landesystemen Anwendung finden.
Butterworth-Heinemann’s Aircraft Engineering Principles and Practice Series provides students, apprentices and practicing aerospace professionals with the definitive resources to advance their aircraft engineering maintenance studies and career. This book provides an introduction to the principles of communications and navigation systems. It is written for anyone pursuing a career in aircraft maintenance engineering or a related aerospace engineering discipline, and in particular will be suitable for those studying for licensed aircraft maintenance engineer status. The book systematically addresses the relevant sections (ATA chapters 23/34) of modules 11 and 13 of part-66 of the EASA syllabus. It is ideal for anyone studying as part of an EASA and FAR-147 approved course in aerospace engineering.
Annotation Beginning with the basic principles of navigation, "Integrated Navigation and Guidance Systems takes a step beyond introductions with a concise look at the flight applications of inertial navigation systems integrated with Global Positioning System (GPS) satellite systems. Written at the senior engineering college level, the textbook takes a tutorial approach, weaving interrelated disciplines together with interactive computer exercises and AINSBOOK software for error analysis and Kalman filter simulation. Get a "technical jump start" with a look at traditional navigation radio aids, inertial guidance systems, and Kalman filters. Launch into GPS applications to navigation, precision approach and landing, attitude control, and air traffic control. More than 100 figures, photos, and tables add to the textbook's value.
Introduction to Avionic Systems, Second Edition explains the principles and theory of modern avionic systems and how they are implemented with current technology for both civil and military aircraft. The systems are analysed mathematically, where appropriate, so that the design and performance can be understood. The book covers displays and man-machine interaction, aerodynamics and aircraft control, fly-by-wire flight control, inertial sensors and attitude derivation, navigation systems, air data and air data systems, autopilots and flight management systems, avionic systems integration and unmanned air vehicles. About the Author. Dick Collinson has had "hands-on" experience of most of the systems covered in this book and, as Manager of the Flight Automation Research Laboratory of GEC-Marconi Avionics Ltd. (now part of BAE Systems Ltd.), led the avionics research activities for the company at Rochester, Kent for many years. He was awarded the Silver Medal of the Royal Aeronautical Society in 1989 for his contribution to avionic systems research and development.
This work describes the historical evolution of a critical aspect of aerospace technology—avionics and navigation systems. This history is important to understanding current and future issues associated with aeronautics, space-flight development, and flight management, because avionics is crucial to commerical air traffic control and space flight. Samuel Fishbein provides a historical overview of aviation electronics and instrumentation, the evolution of automated systems and their integration, and the role of the pilot in this environment. In addition, he reviews the major elements comprising the flight management system and the evolution and operation of these instruments, discussing why the instrument panel is configured the way it is, and how ground and space-based components of the systems have influenced the design of airplane components.
This text and practical reference for all personnel involved in avionics and weapons system evaluation and testing, in the air and on the ground. Compiled from 25 years of experience and methods from the National Test Pilot School in Mojave, California, this book has been reviewed by a dozen voluntary experts from the military and industry to ensure all critical components are properly covered. It includes "war stories" from actual evaluations and exercises at the end of each chapter, providing instructors with the ability to reinforce critical concepts. This second edition has been updated and expanded by three chapters to include UAV technology, operational test and evaluation and night vision systems and helmet mounted displays and the chapter exercises have also been expanded and revised.
Inertial navigation is widely used for the guidance of aircraft, missiles ships and land vehicles, as well as in a number of novel applications such as surveying underground pipelines in drilling operations. This book discusses the physical principles of inertial navigation, the associated growth of errors and their compensation. It draws current technological developments, provides an indication of potential future trends and covers a broad range of applications. New chapters on MEMS (microelectromechanical systems) technology and inertial system applications are included.
Aerospace Avionics Systems: A Modern Synthesis is the first new textbook on inertial navigation since the mid-1970s. This far-reaching, up-to-date, and heavily illustrated volume meets the needs of first-year graduate students in aeronautical engineering as well as the demands of professionals requiring current information. The well-respected author presents a balanced combination of theory and up-to-date practice and application in inertial navigation, devoting the largest amount of space to topics that will be useful to most readers or that are not adequately or clearly treated elsewhere in the technical literature.
