Principles Of Applied Biomedical Instrumentation

Principles of Applied Biomedical Instrumentation

Author : L. A. Geddes

Publisher : John Wiley & Sons

Page : 994 pages

File Size : 40,88 MB

Release : 1991-01-08

Category : Medical

ISBN : 0471608998

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Book Description

Encyclopedia of Medical Devices and Instrumentation John G. Webster, Editor-in-Chief This comprehensive encyclopedia, the work of more than 400 contributors, includes 266 articles on devices and instrumentation that are currently or likely to be useful in medicine and biomedical engineering. The four volumes include 3,022 pages of text that concentrates on how technology assists the branches of medicine. The articles emphasize the contributions of engineering, physics, and computers to each of the general areas of medicine, and are designed not for peers, but rather for workers from related fields who wish to take a first look at what is important in the subject. Highly recommended for university biomedical engineering and medical reference collections, and for anyone with a science background or an interest in technology. Includes a 78-page index, cross-references, and high-quality diagrams, illustrations, and photographs. 1988 (0 471-82936-6) 4-Volume Set Introduction to Radiological Physics and Radiation Dosimetry Frank Herbert Attix provides complete and useful coverage of radiological physics. Unlike most treatments of the subject, it encompasses radiation dosimetry in general, rather than discussing only its applications in medical or health physics. The treatment flows logically from basics to more advanced topics. Coverage extends through radiation interactions to cavity theories and dosimetry of X-rays, charged particles, and neutrons. Several important subjects that have never been thoroughly analyzed in the literature are treated here in detail, such as charged-particle equilibrium, broad-beam attenuation and geometries, derivation of the Kramers X-ray spectrum, and the reciprocity theorem, which is also extended to the nonisotropic homogeneous case. 1986 (0 471-01146-0) 607 pp. Medical Physics John R. Cameron and James G. Skofronick This detailed text describes medical physics in a simple, straightforward manner. It discusses the physical principles involved in the control and functon of organs and organ systems such as the eyes, ears, lungs, heart, and circulatory system. There is also coverage of the application of mechanics, heat, light, sound, electricity, and magnetism to medicine, particularly of the various instruments used for the diagnosis and treatment of disease. 1978 (0 471-13131-8) 615 pp.





Principles of Applied Biomedical Instrumentation

Author : Leslie Alexander Geddes

Publisher : John Wiley & Sons

Page : 504 pages

File Size : 36,17 MB

Release : 1968

Category : Medical

ISBN :

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Book Description

This book provides information on the principles underlying the physical instruments used in biomedical science.





Principles of Biomedical Instrumentation and Measurement

Author : Richard Aston

Publisher : Prentice Hall

Page : 584 pages

File Size : 14,81 MB

Release : 1990

Category : Medical

ISBN :

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Book Description

A contemporary new text for preparing students to work with the complex patient-care equipment found in today's modern hospitals and clinics. It begins by presenting fundamental prerequisite concepts of electronic circuit theory, medical equipment history and physiological transducers, as well as a systematic approach to troubleshooting. The text then goes on to offer individual chapters on common and speciality medical equipment, both diagnostic and therapeutic. Self-contained, these chapters can be used in any order, to fit the instructor's class goals and syllabus.



Principles of Applied Biomedical Instrumentation

Author : Leslie Alexander Geddes

Publisher : Wiley-Interscience

Page : 648 pages

File Size : 32,63 MB

Release : 1975

Category : Medical

ISBN :

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Book Description

Encyclopedia of Medical Devices and Instrumentation John G. Webster, Editor-in-Chief This comprehensive encyclopedia, the work of more than 400 contributors, includes 266 articles on devices and instrumentation that are currently or likely to be useful in medicine and biomedical engineering. The four volumes include 3,022 pages of text that concentrates on how technology assists the branches of medicine. The articles emphasize the contributions of engineering, physics, and computers to each of the general areas of medicine, and are designed not for peers, but rather for workers from related fields who wish to take a first look at what is important in the subject. Highly recommended for university biomedical engineering and medical reference collections, and for anyone with a science background or an interest in technology. Includes a 78-page index, cross-references, and high-quality diagrams, illustrations, and photographs. 1988 (0 471-82936-6) 4-Volume Set Introduction to Radiological Physics and Radiation Dosimetry Frank Herbert Attix provides complete and useful coverage of radiological physics. Unlike most treatments of the subject, it encompasses radiation dosimetry in general, rather than discussing only its applications in medical or health physics. The treatment flows logically from basics to more advanced topics. Coverage extends through radiation interactions to cavity theories and dosimetry of X-rays, charged particles, and neutrons. Several important subjects that have never been thoroughly analyzed in the literature are treated here in detail, such as charged-particle equilibrium, broad-beam attenuation and geometries, derivation of the Kramers X-ray spectrum, and the reciprocity theorem, which is also extended to the nonisotropic homogeneous case. 1986 (0 471-01146-0) 607 pp. Medical Physics John R. Cameron and James G. Skofronick This detailed text describes medical physics in a simple, straightforward manner. It discusses the physical principles involved in the control and functon of organs and organ systems such as the eyes, ears, lungs, heart, and circulatory system. There is also coverage of the application of mechanics, heat, light, sound, electricity, and magnetism to medicine, particularly of the various instruments used for the diagnosis and treatment of disease. 1978 (0 471-13131-8) 615 pp.



Principles of Biomedical Instrumentation

Author : Andrew G. Webb

Publisher : Cambridge University Press

Page : 345 pages

File Size : 21,8 MB

Release : 2018-01-11

Category : Medical

ISBN : 110711313X

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Book Description

An up-to-date undergraduate text integrating microfabrication techniques, sensors and digital signal processing with clinical applications.



Principles of Transducers & Biomedical Instrumentation

Author : Sachan

Publisher : Independently Published

Page : 381 pages

File Size : 38,80 MB

Release : 2019-08-31

Category :

ISBN : 9781689704465

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Book Description

In recent years, Principles of Transducers & Biomedical Instrumentation are being used extensively in sensor, Electronics measurements and Instrumentation and signal processing research and many other things. This rapid progress in Electronic Measurement & Instrumentation has created an increasing demand for trained Electronics Engineering personnel. This book is intended for the undergraduate and postgraduate students specializing in Electronics Engineering. It will also serve as reference material for engineers employed in industry. The fundamental concepts and principles behind electronics engineering are explained in a simple, easy- to- understand manner. Each chapter contains a large number of solved example or problem which will help the students in problem solving and designing of Electronic Measurement & Instrumentation. This text book is organized into six chapters. Chapter 0: Biomedical Engineers Who Shaped the Medical Equipment Chapter 1: Transducers and Its ApplicationsChapter -2: Sensors and Its ApplicationsChapter-3: Basics of Operational Amplifier & Instrumentation AmplifierChapter-4: Telemetry & Data Acquisition System Chapter-5: Intelligent Instruments Using Microcontroller and Its ApplicationsChapter-6: Biomedical InstrumentationThe book Principles of Transducers & Biomedical Instrumentation is written to cater to the needs of the undergraduate courses in the discipline of Electronics & Communication Engineering, Electronics & Instrumentation Engineering, Electrical & Electronics Engineering, Instrumentation and Control Engineering and postgraduate students specializing in Electronics, Control Engineering. It will also serve as reference material for engineers employed in industry. The fundamental concepts and principles behind Electronic Measurement & Instrumentation are explained in a simple, easy- to- understand manner. Salient Features*Detailed coverage of Instrumentation, Measurement, Transducers and It's Applications and Sensors & It's Applications*Detailed coverage of Basics of Operational Amplifier & Instrumentation Amplifier, Telemetry & Data Acquisition System, Intelligent Instruments Using Microcontroller & Its Applications and Biomedical Instrumentation*Each chapter contains a large number of solved example or objective type's problem which will help the students in problem solving and designing of Electronic Measurement & Instrumentation system. *Clear perception of the various problems with a large number of neat, well drawn and illustrative diagrams. *Simple Language, easy- to- understand manner. I do hope that the text book in the present form will meet the requirement of the students doing graduation in Electronics & Communication Engineering, Mechanical Engineering, Electronics & Instrumentation Engineering and Electrical & Electronics Engineering. I shall appreciate any suggestions from students and faculty members alike so that we can strive to make the text book more useful in the edition to come.



Virtual Bio-Instrumentation

Author : Jon B. Olansen

Publisher : Pearson Education

Page : 632 pages

File Size : 39,40 MB

Release : 2001-12-18

Category : Technology & Engineering

ISBN : 013244156X

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Book Description

This is the eBook version of the print title. The eBook edition does not provide access to the content of the CD ROMs that accompanies the print book. Bringing the power of virtual instrumentation to the biomedical community. Applications across diverse medical specialties Detailed design guides for LabVIEW and BioBench applications Hands-on problem-solving throughout the book Laboratory, clinical, and healthcare applications Numerous VI's with source code, plus several demos, are available on the book's web site Virtual instrumentation allows medical researchers and practitioners to combine the traditional diagnostic tools with advanced technologies such as databases, Active X, and the Internet. In both laboratory and clinical environments, users can interact with a wealth of disparate systems, facilitating better, faster, and more informed decision making. Virtual Bio-Instrumentation: Biomedical, Clinical, and Healthcare Applications in LabVIEW is the first book of its kind to apply VI technology to the biomedical field. Hands-on problems throughout the book demonstrate immediate practical uses Examples cover a variety of medical specialties Detailed design instructions give the inside view of LabVIEW and BioBench applications Both students and practicing professionals will appreciate the practical applications offered for modeling fundamental physiology, advanced systems analysis, medical device development and testing, and even hospital management and clinical engineering scenarios.



An Introduction to Biomedical Instrumentation

Author : D. J. Dewhurst

Publisher : Elsevier

Page : 276 pages

File Size : 43,19 MB

Release : 2014-05-18

Category : Health & Fitness

ISBN : 1483187527

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Book Description

An Introduction to Biomedical Instrumentation presents a course of study and applications covering the basic principles of medical and biological instrumentation, as well as the typical features of its design and construction. The book aims to aid not only the cognitive domain of the readers, but also their psychomotor domain as well. Aside from the seminar topics provided, which are divided into 27 chapters, the book complements these topics with practical applications of the discussions. Figures and mathematical formulas are also given. Major topics discussed include the construction, handling, and utilization of the instruments; current, voltage, resistance, and meters; diodes and transistors; power supply; and storage and processing of data. The text will be invaluable to medical electronics students who need a reference material to help them learn how to use competently and confidently the equipment that are important in their field.