icon Overview

The Department of Medical Electronics offers a 4 Year B.E Medical Electronics Programme which is affiliated to Anna University.  Medical Electronics is an integration of Environmental Science and Medicine with Engineering theories and Practices. Medical Electronics Engineers design and develop Instruments and Devices used to solve medical and physical fitness-related problems. Medical Electronics Engineering Technology is a broader field of study that appeals to aspirants desiring to be technological, and, at the same time, dedicate their careers to saving lives by helping physicians and nurses in their treatment process and patients as well who are suffering from various kinds of ailments.

icon Vision

To prepare the students with blended engineering and medical knowledge to develop various support systems using variety of technologies for healthcare applications

icon Mission

  • To promote education and research that blends Engineering and Medical Science
  • To impart education in the path of ethical and social responsibilities, to work effectively with diverse groups for the benefit of the society
  • To transform the students into professionally competent engineers through innovative, research, training, Internship and collaboration with industry, hospital, and academia

Programmes

  • B.E – Medical Electronics
Program Educational Objectives
PEO1: Foundation
To prepare graduates with strong foundation in Engineering, Science and Technology for a successful career in Medical Electronics Engineering.
 
PEO2: Analytical Skill
To identify opportunities and develop the level of competency in technical and communication skills to establish their excellence in professionalism.
 
PEO3: Leadership Skill
Engage in lifelong learning and contribute in the field of engineering research
 
PEO4: Employability Skill
To understand the ethics and global standards and to be sensitive to health challenges of the society.
Program Outcomes
1. Engineering Knowledge
Graduates will apply the knowledge of differential equations, vector calculus, random process, Technical skills, physics, chemistry, electron devices and electrical circuits.
 
2. Problem Analysis
Graduates will demonstrate an ability to identify, formulate and solve Electronics engineering problems.
 
3. Design/development of solutions
Graduates able to design a system to meet the specific needs within the realistic constraints such as social & economic, environment, ethics, health and safety.
 
4. Conduct investigations of complex problems
Graduates able to perform investigations using research based Knowledge and methods, design as well as conduct experiments, analyze and interpret the results to provide valid conclusions.
 
5. Modern Tool usage
Graduates able to select and apply appropriate techniques, resources for the design and analysis of the systems using modern EDA tools.
 
6. The Engineer and Society
Graduates will exhibit the impact of engineering solutions on the society and also will be aware of Contemporary issues.
 
7. Environment and Sustainability
Graduates able to understand the impact of professional engineering solutions in environmental issues for sustainable development.
 
8. Individual and Team work
Graduates able to apply the knowledge of professional and ethical responsibilities.
 
9. Communication
Graduates will demonstrate an ability to visualize and work on laboratory and multidisciplinary tasks.
 
10. Project management and finance
Graduates will be able to communicate effectively on complex engineering activities in both verbal and written form.
 
11. Lifelong learning
Graduates able to apply engineering and management principles in their own (or) team projects in multidisciplinary environment.
 
12. Engineering solutions
Graduates will develop confidence for self education and ability for lifelong learning to adopt technological changes.
Program Specific Outcomes
PSO1: Professional Skill Development
Able to understand the mathematical and physical foundations of medical electronics to analyze the various approaches for engineering problems in health care with modern engineering tools and technical skills in an faultless manner.
 
PSO2: Analytical Skill and Problem Solving Expertise
Analyze different techniques in Medical Images and Signal Processing domains with respect to Design, Research and to pursue higher studies with Lifelong learning.
 
PSO3: Project development skill
Able to meet desired needs within real constraints of need such as economic, environment, social, ethical, health and safety, manufacturing and sustainability.