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but this new edition now includes the fundamentals of electronic warfare (EW) as well. Thisbook distills the very complex, rich technologies of radar and EW into its fundamentals, tyingthem to the laws of nature on one end and to the most modern and complex systems on theother.This should be the first book selected to provide a solid foundation in both radar and electronicwarfare. Readers with a technical or business degree should be well prepared to understandthe vast majority of concepts in this book as they are mathematically represented using algebra.Some concepts use trigonometry and a very select few use calculus. It is written specifically forthose with little or no knowledge of radar and EW technologies.
This classic volume, one of the best textbooks of electromagnetic field theory and RF circuits, is reprinted here for the first time since its original publication in 1962. Hailed for its clear and concise explanation of antenna, transmission lines and RF networks from the perspective of electromagnetic field theory, this edition is highly recommended for graduate students and engineers who deal with RF energy. Short chapters make the text particularly useful for self-study and as a reference tool for those seeking fast and easy access to the subject of RF energy; a knowledge of calculus is not presupposed. Contents include: Electrical Networks; Transmission Lines; Radio Antennas; Radio Transmitters; Answers to Problems; and Index.
Key Features Theory of diffraction at black bodies introduces the Shadow Radiation, a fundamental component of the scattered field. RCS of finite bodies of revolution-cones, paraboloids, etc. -models of construction elements for aircraft and missiles. Scheme for measurement of that part of a scattered field which is radiated by the diffraction (so-called nonuniform) currents induced on scattering objects. Development of the parabolic equation method for investigation of edge-diffraction. New exact and asymptotic solutions in the strip diffraction problems, including scattering at an open resonator.
Radar Principles for the Non-specialist, 3rd Edition continues its popular tradition: to distil the very complex technology of radar into its fundamentals, tying them to the laws of nature on one end and to the most modern and complex systems on the other.
This is a professional level, introductory text on antenna principles, design, analysis, and measurements. It is especially suitable for persons who wish to improve their knowledge of antenna principles, concept design, performance analyses, and measurements.
This book is a concise yet complete treatment of the relationship between mission-level requirements and specific hardware and software requirements and capabilities. Although focusing on surface-based radars, the material is general enough to serve as a useful addition to books currently available for this purpose.
The Pocket Radar Guide is a concise collection of key radar facts and important radar data that provides the reader with necessary radar information when they are away from the office or references.
The Electronic Warfare Pocket Guide is the perfect companion for any user that needs to access key definitions, concepts, and equations for their work in the field, lab, or even in military theater of operations.
This book covers 'basic designs' in more detail than books that skip important electrical properties and implementation aspects. Numerous additions make the concepts even clearer. New cavity model analysis equations of circular polarization bandwidth, axial ratio bandwidth and power fraction bandwidth have been included.
This book updates and extends bistatic and multistatic radar developments since the publication of Willis' Bistatic Radar in 1991. New and recently declassified military applications are documented, civil applications are detailed including commercial and scientific systems.
The definitive book on bistatic radar provides a history of bistatic systems and alerts potential designers to non-working applications and dead-ends. While reviewing basic concepts and definitions, the text explains mathematical development of relationships such as geometry, Ovals of Cassini, dynamic range, isorange and isodoppler contours, and clutter doppler spread.
This book is a treatise on EW receivers that is relevant to you if you are just looking for a top-level insight into EW receivers or need to know the intricate details of cause and effect behavior in EW receiver theory and design.
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