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Showing 1 - 6 of 6 matches in All Departments
The presentation and interpretation of visual information is essential to almost every activity in human life and most endeavors of modern technology. This book examines the current status of what is known (and not known) about human vision, how human observers interpret visual data, and how to present such data to facilitate their interpretation and use. Written by experts who are able to cross disciplinary boundaries, the book provides an educational pathway through several models of human vision; describes how the visual response is analyzed and quantified; presents current theories of how the human visual response is interpreted; discusses the cognitive responses of human observers; and examines such applications as space exploration, manufacturing, surveillance, earth and air sciences, and medicine. The book is intended for everyone with an undergraduate-level background in science or engineering with an interest in visual science. This second edition has been brought up to date throughout and contains a new chapter on "Virtual reality and augmented reality in medicine."
The presentation and interpretation of visual information is essential to almost every activity in human life and most endeavors of modern technology. This book examines the current status of what is known (and not known) about human vision, how human observers interpret visual data, and how to present such data to facilitate their interpretation and use. Written by experts who are able to cross disciplinary boundaries, the book provides an educational pathway through several models of human vision; describes how the visual response is analyzed and quantified; presents current theories of how the human visual response is interpreted; discusses the cognitive responses of human observers; and examines such applications as space exploration, manufacturing, surveillance, earth and air sciences, and medicine. The book is intended for everyone with an undergraduate-level background in science or engineering with an interest in visual science. This second edition has been brought up to date throughout and contains a new chapter on "Virtual reality and augmented reality in medicine."
The techniques and instrumentation of medical imaging have rapidly evolved over the course of the past few years. Medical Imaging Physics, the premier resource in its field, now in its fourth edition, has been revised to include novel and emerging imaging approaches in the same clear and understandable but thorough manner of the former editions. William Hendee and Russell Ritenour’s comprehensive text provides the tools necessary to be comfortable with the physical principles, technology concepts, equipment, and procedures used in diagnostic imaging, as well as to appreciate the technological capabilities and limitations of the discipline. Readers need not possess a background in physics. Broadly accessible, Medical Imaging Physics covers all aspects of image formation in modern medical imaging modalities, such as radiography, ultrasonography, computed tomography (CT), nuclear imaging, and magnetic resonance imaging. Other topics covered include:
Each chapter is composed of summaries, questions, and problems, as well as sidebars highlighting historical aspects and key facts and concepts; additionally, the Fourth Edition contains over 200 completely new figures. Physicians and residents in radiology and nuclear medicine, in addition to physicists, engineers, radiobiologists, and technologists working with diagnostic imaging technology, will find Medical Imaging Physics to be a vital addition to their professional libraries.
This is the fourth in our biennial series aimed at helping practicing medical physicists, technically-inclined physicians, and other interested professionals stay current in medical radiation science and technology. This volume covers 20 new and important topics in diagnostic imaging and radiation therapy. Recent developments in fluoroscopic imaging systems for interventional procedures are described by Barry Belanger, while Beth Schueler and Kenneth Fetterly update us on the latest in fluoroscopy acceptance testing and quality control. CT is also front and center in this volume as Thomas Flohr and Bernhard Schmidt describe the latest advances in CT; James Kofler describes the trade-offs among speed, resolution, and dose from various CT scan acquisition settings; and Robert Dixon and others cover new dosimetric concepts and measurement methods in CT.
This is the third in MPP's biennial series aimed at helping practicing medical physicists, technically-inclined physicians, and other interested professionals stay current in medical radiation science and technology. This volume covers 18 new and important topics in diagnostic imaging and radiation therapy. MRI gets strong treatment in this volume, with Jiachen Zhuo and Rao Gullapalli's chapter on MRI artifiacts paired with Eftychios Christoforou and Nikolaos Tsekos' chapter describing robotic systems for MRI-guided interventions. Quality control is also featured, including chapters by Evan Boote and Sandra Larson on ultrasound QC and a chapter on mammography QC by Douglas Pfeiffer. There is also a chapter with the latest on how medical and public health practicioners should respond to a major radiologic emergency.
This is the second in MPP's biennial series aimed at helping practicing medical physicists, technically-inclined physicians, and other interested professionals stay current in medical radiation science and technology. This volume covers 18 new and important topics in diagnostic imaging and radiation therapy. The book begins with updates on digital radiography, mammography, fluoroscopy, and MRI.
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