Biomedical Engineering

Document Title Category Description
Biomedical and Clinical Natural Language Processing, Ozlem Uzuner, Meliha...
Applications focus on making information hidden in vast amounts of clinical data available in biomedical literature and clinical records more accessible to improve biomedical research and patient care.
Time Frequency Analysis and Wavelet Transform Tutorial, Chia-Jung Chang
Biomedical related research requires lots of mathematical and engineering techniques to analyze data. Among the subfields, electrophysiological research plays the core role. In this tutorial, several tools are examined, including electrocardiogram, and electroencephalogram.
Designing a Career in Biomedical Engineering
The field of biomedical engineering encompasses those people with formal degrees in biomedical engineering as well as those with degrees in other engineering disciplines who, through coursework or through experience, have gained mastery over one or more areas of biomedical inquiry and application.
Nanotechnology in BioMedical Sciences
Nanotechnology is rapidly expanding into the biomedical field. At the Institute for Lasers, Photonics and Biophotonics, research in nanotechnology has focused on the development of multifunctional nano-sized particles we have termed as nanoclinics.
Statistical Modeling for Biomedical Researchers - A Simple Introduction to the...
This text will enable biomedical researchers to use a number of advanced statistical methods that have proven valuable in medical research. It is intended for people who have had an introductory course in biostatistics.
Biomedical Engineering
Electrical activity of excitable cells - Excitable cells are those that can be stimulated to create a tiny electric current. The color photo (courtesy of Julie H. Sandell and Richard H. Masland) is of a single interneuron in the retina of a rabbit.
Bioelectric Phenomena
The application of engineering principles and technology to medicine and biology has had an increasing influence on the practice of medicine. The most visible of these contributions is in the form of medical devices.
Biomedical Engineering Education and Technology Transfer, Narender P. Reddy
Technology transfer, to a large extent, depends on identification and conceptualization of potential applications. Often, problems in medical disciplines are ignored due to the lack of proper communication between the physician and the engineer.
Biomedical Electronics, Ken Meissner
Device including instrument, tool, machine or implant for monitoring or sensing, diagnostics, or therapeutics or surgery. A device that measures physiological parameter(s) such as pressure, flow, pulse, analyte concentration, or temperature.
Biomedical Image Analysis: Tracking, Scott T. Acton and Nilanjan Ray
In biological and medical imaging applications, tracking objects in motion is a critical task. This book describes the state-of-the-art in biomedical tracking techniques. We begin by detailing methods for tracking using active contours, which have been highly successful in biomedical applications.
Advanced Biomedical Engineering, Gaetano D. Gargiulo and Alistair McEwan
The field of biomedical engineering has expanded markedly in the past few years; finally it is possible to recognize biomedical engineering as a field on its own.
Biomedical Therapy - Common Disorders of the Ear, Nose, and Throat
Disorders of the ear, nose, and throat (ENT) are the cause of many patient visits to a primary care physician.
Issues in Biomedical Engineering Research and Application, Q. Ashton Acton
This publication is designed to provide accurate and authoritative information in regard to the subject matter covered. It is sold with the understanding that the publisher is not engaged in rendering professional services.
Biomedical Instrumentation - Application and Design
Throughout the book, we emphasize design. A scientist or engineer who has some background in electronics and instrumentation will glean enough information, in many of the areas we addresses, to be able to design medical instruments.
Biomedical Engineering, Marcus Pandy
Design products and procedures that solve medical problems. These include artificial organs, prostheses, instrumentation, medical information systems, and health management and care delivery systems.Biomedical Engineer design the equipment used to analyse the blood.
Use of Animals in Biomedical Research
Animals have been used in experiments for at least 2,000 years, with the first reference made in the third century b.c. in Alexandria, Egypt, when the philosopher and scientist Erisistratus used animals to study body functions.
Emerging Biomedical Sensing Technologies and Their Applications, Gerard L. Coté...
Recent progress in biomedical sensing technologies has resulted in the development of several novel sensor products and new applications. Modern biomedical sensors developed with advanced microfabrication and signal processing techniques are becoming inexpensive, accurate, and reliable.
Biomedical Applications of Graphene
Graphene exhibits unique 2-D structure and exceptional phyiscal and chemical properties that lead to many potential applications. Among various applications, biomedical applications of graphene have attracted ever-increasing interests over the last three years.
Biomedical Image Analysis: Tracking, Scott T. Acton and Nilanjan Ray
In biological and medical imaging applications, tracking objects in motion is a critical task. This book describes the state-of-the-art in biomedical tracking techniques. We begin by detailing methods for tracking using active contours, which have been highly successful in biomedical applications.
A Project Report On Patient Monitoring System, K. Krishna Ganesh and H.R. Ranjan
Our project is a working model which incorporates sensors to measure parameters like body temperature, heart beat rate, respiratory rate and ECG;.

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