Virtual instrumentation is the use of customizable software and modular measurement hardware to design, test, measure and automate instruments virtually.
LabVIEW is a system design software with comprehensive tools needed to build any measurement or control application in dramatically less time and considered to be an ideal development environment for innovation, discovery, and accelerated results.
MODELLING, SIMULATION, AND ANALYSIS OF BIOMEDICAL SYSTEMS
Organized by
M. S. Ramaiah School of Advanced Studies
Date: 15th & 16th March 2013 ( Friday & Saturday)
Venue: M. S. Ramaiah School of Advanced Studies, Bengaluru-58
Preamble:
Signal and image processing techniques have enabled numerous vital technologies and applications. Biomedical system is one such domain where the interplay of concepts from multiple areas is critical.
The PhD student position concerns own research and education within the area of biomedical signal processing. This area is focused on the development of mathematical models and algorithms for the analysis of biomedical signals. The present research project deals with novel methods for compression and characterization of signals reflecting local electrical activity in the brain. Of particular interest is to analyze the propagation, causality, and dynamics of such signals. The research is pursued in collaboration with the Neuronano Research Center at Lund University, where one postdoctor is active and will co-supervise the PhD student.
Recently, I came across a effort by Biomedical Engineering students, they are IIIrd yr students in biomedical from watumull institute,Worli,Mumbai. Varun Venkatesh and his friend Aditya ekawade alongwith Prerak Dalal have designed the whole website, I dont know what syllabus they follow but they have indexed Biomedical Engineering notes which is really great.
About IamBiomed
www.iambiomed.com is a website for Biomed people by Biomed people.
We at ‘I am Biomed’ cater to the needs of a Biomedical Student.
Researchers at the Institute are developing models of different parts of the human body, which will ultimately build into a complete digital replica of a patient. Medical information, from details as simple as age and weight to more complex data taken from scans and x-rays, will be fed into the models to provide an overall picture of an individual patient’s condition, against which different treatments can then be tested.