Department of Bio-Medical Engineering

Welcome to Bio-Medical Corner

About the Department

The Department of Biomedical Engineering was started in the year 2019-2020 and it is inter-disciplinary in nature which provides ample scope for students to study the Human System through electronics. Our faculty, staff and students are all important part of the team that provide distinctive opportunities for creative solutions to Biomedical Engineering research and design problems. We aim for excellence in under graduate education; meaningful and innovative research and service dedicated to advancing the field of Biomedical Engineering.

Biomedical Engineering is the application of Engineering principles and design concepts to medicine and biology. This field seeks to bridge the gap between Engineering and Medicine. It combines the design and problem solving skills of engineering with medical and biological sciences to improve healthcare diagnosis, monitoring and therapy.

The Biomedical area represents at most dynamic and leading research field and areas of innovation. It has a huge existing and emerging industrial base.

The Biomedical Engineering, one of the most fascinating fields in medical has a great future as it combines the knowledge of sophisticated technology with the biology of mankind in order to solve the physiological problems of human beings.


Students will become familiar with several labs, outfitted with all facilities over the course of their studies. The Laboratories involved in the curriculum are

  • Biomedical instrumentation
  • Diagnostic and therapeutic equipments
  • Biochemistry
  • Pathology and Microbiology
  • Human Physiology Lab
  • Digital Image Processing
  • Digital signal processing
  • Integrated circuits
  • Hospital Training Lab

Bioengineering or Biomedical / Biomedical Instrumentation Engineering involves developing new devices and procedures that solve medical and health-related problems by combining their recent advances knowledge in engineering, biology, and medicine to improves human health through cross-disciplinary activities that integrate the engineering sciences with the biomedical sciences and clinical practice. Biomedical engineers may spend their days designing electrical circuits and computer software for medical instrumentation. These instruments may range from large imaging systems such as conventional x-ray, computerized tomography and magnetic resonance imaging, to small implantable devices, such as pacemakers, cochlear implants, drug infusion pumps and some of the Prominent biomedical applications include the development of various diagnostic and therapeutic medical devices ranging from common imaging equipment such as MRIs and EEGs, regenerative tissue growth, pharmaceutical drugs and therapeutic biologicals. An evolutionary product is a new model of an existing product that adds new features, improves the technology, and reduces the cost of production. Recent progress of the Nano fibrous structure of chitosan and their biomedical applications in tissue engineering; drug delivery, wound dressing, and antimicrobial are also discussed in this review.