THE ROLE OF COMPUTER IN BIOMEDICAL ENGINEERING
The primary aims of the Journal are to provide a means of communicating the advances being made in the areas of biomedical engineering and to stimulate interest in the continually emerging computer based technologies which are being applied in these multidisciplinary subjects. The Journal will also provide a focus for the importance of integrating the disciplines of engineering with medical technology and clinical expertise. Such integration will have a major impact on health care in the future.
High quality research articles form the main body of the Journal. These contributed papers will cover both the engineering and clinical aspects of computer methods in biomedical engineering. Topics covered include the mechanical response of bone and bone/tissue/implant analysis, tissue mechanics, mechanic Biology, modeling of biomaterials, material identification, human body impact, motion analysis, kinesiology, mechanic transduction, computer assisted surgery, surgical simulation, computer animation, computational and systems biology and medical imaging. Dental mechanics, bio-fluids, cardiovascular mechanics, soft-tissue modeling and joint/ligament mechanics are also topics of primary importance. As well as providing a forum where advances in these complex areas can be published and discussed in open academic debate, the Journal also contains special issues and feature articles, technical notes and reviews, and short communications.
The use of computers to improve biomedical image quality:
Pictorial data have long been an important source of information in medicine and biology, but until quite recently, little use has been made of computers to process this data. Perhaps the major obstacle to such development was the difficulty of getting pictures into and out of the computer. The character recognition systems developed in the fifty's were in general not applicable to biomedical image problems because of the restrictive nature of the input devices. High resolution image scanners with the ability to detect multiple shades of grey were required and while such devices became available in the early sixties, it was difficult to find biomedical applications that would justify their cost which was frequently in the half million dollar range.
biomedical based projects
Software Engineering is very important as most of the world is moving to computers. IT is the future of the world.
high-technology industry
It Doesn't suck, i love building computers and soo on.. u make heaps of money out of it :)
Most people who have a job working with computers have a degree in computer science or software engineering. software engineers use math and computer science to create and design software for our computers.
Biomedical engineering is a blooming branch of engineering which is a bridge between medical and engineering fields.people who study Biomedical engineering learn the basics of both medical and engineering.They deal with electronics and communication subjects. The role of a biomedical engineer is becoming more demanding due to the advent of new technologies.Artificial limb,Artificial heart,biometrics etc,. are some o the practical applications of biomedical engineering.BMES ia an international society dedicated to the Biomedical engineers.
a biomedical enndfg
hi its BM for biomedical engineering and BY for biomedical engineering(ss)
One good place you can find job listings in biomedical engineering would be at the Engineer Jobs website, and then go to the biomedical engineering section.
Weldon School of Biomedical Engineering was created in 2004.
If you are in a good position, I would recommend that you do a major in biomedical engineering from the start just for continuity.
Biomedical engineering assignment help uses the techniques and applications of engineering in the medical and biology field in order to achieve the best score.
Msc in biomedical instrumentation : the right choice of instruments required for the design of the medical devices from the wide range of electronics & instrumentation family. The maintenance & troubleshoot of the equipments preventive & breakdown biomedical engineering has given an existence to biomedical instrumentation as one of its specialization. Since biomedical engineering is on a wider platform & is at medical to technology interface like human touch
Alfred E. Mann Institute for Biomedical Engineering was created in 1998.
Biomedical Engineering blends traditional engineering techniques with biological sciences and medicine to improve the quality of human health and life. Biomedical engineers may work in hospitals, universities, industry and laboratories.
Most engineers in this specialty need a sound background in another engineering specialty, such as mechanical or electronics engineering, in addition to specialized biomedical training. Some specialties within biomedical engineering include biomaterials, biomechanics, medical imaging, rehabilitation engineering, and orthopedic engineering. Viper1 Anwser- At least an Associate degree in biomedical or electrical engineering is a prerequisite for a Biomedical Technician program. Biomedical engineer install, calibrate, and troubleshoot a wide range of sophisticated medical devices such as patient monitors, electrosurgical kits, and laser equipment etc.
Stanford and the University of California both have biomedical engineering degrees and both are located in California. Both of these schools rank in the top 10 schools for biomedical engineering in the United States.