Students will be able to apply the principles of electronic circuits and devices to the use and design of instrumentation in the biomedical area. They will have gained a basic knowledge of the operating principles of electrical and other transducers, analog and digital instrumentation, applied signal acquisition and processing, electrical safety in the medical environment, electrical properties of nerve and muscle physiology; and instrumentation used in cardiopulmonary, neurological, surgical, and rehabilitation areas of medicine.
Lecture 1 – Introduction
Lecture 2 – Sensor Models
This is a preview of Lecture Notes on Biomedical Instrumentation and Design. Read the full post (286 words, 2 images, estimated 1:09 mins reading time)
Students can refer this post to start working on their projects. Students can take ideas and start the project
Biomedical electronics research is being driven by the aging “baby-boomer” population and their medical needs. This phenomenon is spurring fast development of new biotechnologies and need for access to innovative means of medical diagnosis and treatment in preventive medicine. Subsequently, the technologies of implants and advanced wireless electronic media will help alleviate rising medical costs in today’s society and extend the average longevity with a quality life in our later years.
This is a preview of Innovations in Medical Sensors for Biomedical Electronics Applications in Healthcare. Read the full post (3219 words, 9 images, estimated 12:53 mins reading time)