4 edition of Fundamentals of radar imaging found in the catalog.
Includes bibliographical references (p. 127-136) and index.
|Statement||Margaret Cheney, Brett Borden|
|Series||CBMS-NSF regional conference series in applied mathematics -- 79, CBMS-NSF regional conference series in applied mathematics -- 79.|
|Contributions||Borden, Brett, 1954-, Conference Board of the Mathematical Sciences, National Science Foundation (U.S.)|
|LC Classifications||TK6575 .C476 2009|
|The Physical Object|
|Pagination||xxiv, 140 p. :|
|Number of Pages||140|
|LC Control Number||2009022439|
This paper summarizes the fundamentals, challenges and recent advances of sparse regularization and CS-based radar imaging methods. Using a unified mathematical model, we derive the best estimator (i.e., the minimum variance unbiased estimator), the LS estimator, the Bayesian MAP estimator, matched filtering, regularization, and CS Cited by: 1. Abstract. Radar, and in particular imaging radar, has many and varied applications to security. Radar is a day/night all-weather sensor, and imaging radars carried by aircraft or satellites are routinely able to achieve highresolution images of target scenes, and to detect and classify stationary and moving targets at operational by:
An Introduction to Airborne Radar by Stimson: Introduction to Airborne Radar is the revision of the classic book privately published by Hughes Aircraft Company in Lavishly produced in full color, the book was quite unlike any commercially published radar book produced by the major technical publishers. Fundamentals of Radar Signal Processing Mark A. Richards Publisher's Note: Products purchased from Third Party sellers are not guaranteed by the publisher for quality, authenticity, or access to any online entitlements included with the most complete, current guide to the signal processing techniques essential to advanced radar systems.
Radar imaging and x-ray computed tomography (CT) are both based on inverting the Radon transform. Yet radar imaging can make images from as . Electronic books: Additional Physical Format: Print version: Cheney, Margaret, Fundamentals of radar imaging. Philadelphia: Society for Industrial and Applied Mathematics, © (DLC) (OCoLC) Material Type: Document, Internet resource: Document Type: Internet Resource, Computer File: All Authors / Contributors.
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Radar imaging is a mathematically rich subject with many interesting applications and a large variety of challenging, mathematical open problems. The goal of this book is to provide mathematicians with the background they need to work in the field, building on the foundation of the underlying partial differential by: The goal of this monograph is to fill that gap and to show how radar imaging arises from the fundamental partial differential equations.
The focus here is on showing the connection between the physics and the mathematics, and on supplying an intuitive mathematical understanding of the basic ideas.
Fundamentals of Radar Signal Processing - Kindle edition by Richards, Mark A. Download it once and read it on your Kindle device, PC, phones or tablets. Use features like bookmarks, note taking and highlighting while reading Fundamentals of Radar Signal Processing/5(13).
Fundamentals of Radar Imaging Volume 79 of CBMS-NSF Regional Conference Series in Applied Mathematics SIAM e-books: Authors: Margaret Cheney, Brett Borden: Publisher: SIAM, ISBN:. The Origin of Radar. Determining the Distance.
The Basic Requirements of a Radar System. Generators of Radio Frequency Radiation. The klystron amplifier. The cavity magnetron. Transmitting the Pulses.
A simple dipole. The parabolic reflector. Multiple-dipole-array antennae. Phased-array radar. Reception and Presentation. Doppler Radar. The. Fundamentals of Radar Imaging Margaret Cheney and Brett Borden CBMS-NSF Regional Conference Series in Applied Mathematics 79 Radar imaging is a mathematically rich subject with many interesting applications and a large variety of challenging, mathematical open problems.
The goal of this book is to provide. This new edition of Squire’s Fundamentals of Radiology describes and illustrates these new techniques to prepare medical students and other radiology learners to provide the most optimal and up-to-date imaging management for their patients. Not only are new diagnostic techniques outlined, such as the multidetector computed tomography diagnosis of pulmonary embolism and the diffusion-weighted magnetic-resonance imaging of stroke, but hundreds of new diagnostic images Cited by: Principles of Synthetic Aperture Radar Imaging: A System Simulation Approach is dedicated to the use, study, and development of SAR systems.
The book focuses on image formation or focusing, treats platform motion and image focusing, and is suitable for students, radar engineers, and microwave remote sensing : CRC Press.
Fundamentals of Medical Imaging, second edition, is an invaluable technical introduction to each imaging modality, explaining the mathematical and physical principles and giving a clear understanding of how images are obtained and by: Radar Functions • Normal radar functions: 1.
range (from pulse delay) 2. velocity (from Doppler frequency shift) 3. angular direction (from antenna pointing) • Signature analysis and inverse scattering: 4. target size (from magnitude of return) 5. target shape and components (return as a function of direction) 6. moving parts (modulation of the return)File Size: 2MB.
After providing the fundamentals for ISAR imaging, the book gives the detailed imaging procedures for ISAR imaging with associated MATLAB functions and codes. To enhance the image quality in ISAR imaging, several imaging tricks and fine-tuning procedures such as zero-padding and windowing are also presented.
In this chapter, we study the radar ambiguity function χ (ν, τ), which was defined by (). We note that the ambiguity function, and thus the accuracy with which we can estimate target range and velocity, is determined by the transmitted waveform s. In this chapter we study this relationship.
Basic Properties. Radar imaging is a mathematically rich subject with many interesting applications and a large variety of challenging, mathematical open problems. The goal of this book is to /5(2). The word ‘fundamentals’ in the title has meaning for this book.
There will be no attempt to delve into the fine technical details of the construction of specific devices but rather the book aims to give an understanding of the principles behind the imaging process and a general account of how those principles are utilized.
"Radar imaging is a mathematically rich subject with many interesting applications and a large variety of challenging, mathematical open problems. The goal of this book is to provide mathematicians with the background they need to work in the field, building on the foundation of the underlying partial differential equations.
Many of the very challenging problems connected with radar imaging have already been solved, at least in the case when narrow antenna beams can be used.
In this chapter, we look briefly at some of the techniques that have been developed. Motion Compensation. There are many interesting problems related to the design of radar waveforms for various purposes.
Problems in Coding. The coding theory problems typically deal with finding digital waveforms with desirable correlation properties. Many of these problems involve parts of mathematics that have not traditionally been regarded as “applied.”.
The most complete, current guide to the signal processing techniques essential to advanced radar systems Fully updated and expanded, Fundamentals of Radar Signal Processing, Second Edition, offers comprehensive coverage of the basic digital signal processing techniques and technologies on which virtually all modern radar systems rely, including target /5.
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Fundamentals of Radar Imaging > /ch2 Fundamentals of Radar Imaging Manage this Chapter. Add to my favorites. Through courses taught internally at the Institute for Defense Analysis, Dr.
Roger Sullivan has devised a book that brings readers fully up to speed on the most essential quantitative aspects of general radar in order to introduce study of the most exciting and relevant applications to radar imaging and advanced concepts: Synthetic Aperture Radar (4 chapters), Space-time Cited by:.
Book description: This rigorous text provides in-depth coverage of radar signal processing from a DSP perspective, filling a gap in the literature. There are a number of good books on general radar systems: Skolnik and Nathanson are the most popular.
There are also good monographs on advanced and specialty topics like synthetic aperture imaging.Safely perform and accurately interpret pediatric imaging studies with this concise, highly illustrated resource!
Written by Lane F. Donnelly, MD, Fundamentals of Pediatric Imaging, 2nd Edition, covers the essential concepts residents and practitioners need to know, laying a solid foundation for understanding the basics and making accurate radiologic diagnoses/5(10).About the Book Fundamentals of Radar Signal Processing (FRSP) provides in-depth coverage of fundamental topics in radar signal processing from a digital signal processing perspective.
The techniques of linear systems, filtering, sampling, and Fourier analysis techniques and interpretations are used throughout to provide a modern and unified tutorial approach.