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M.Tech. in Electronics & Instrumentation Specialization in Biomedical Engineering
M.Tech. EISBE
School of Engineering & Technology
APPLY ONLINE-
Duration
2 Years
-
Eligibility
Min 55% Aggregate in B. Tech.
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Selection Procedure
PI
Program Outcomes
Advanced Knowledge of Biomedical Engineering
Develop a comprehensive understanding of advanced principles in biomedical engineering, including bioinstrumentation, biomaterials, biomechanics, medical imaging, and biotechnology.
Problem Solving and Innovation
Apply advanced engineering principles and biological sciences to identify, analyze, and solve complex biomedical problems, leading to innovations in healthcare technologies and solutions.
Research and Development
Conduct original research in biomedical engineering, demonstrating competence in designing experiments, analyzing data, and interpreting results to advance the field of biomedical technology and healthcare.
Multidisciplinary Integration
Integrate knowledge from various disciplines such as electronics, mechanical engineering, computer science, and life sciences to address complex biomedical engineering challenges effectively.
Proficiency in Modern Tools and Techniques
Utilize modern tools, techniques, and software relevant to biomedical engineering, including signal processing, image analysis, machine learning, and data science, to develop efficient and accurate solutions.
Ethics and Professional Responsibility
Exhibit ethical responsibility and integrity in all professional activities, with an understanding of the regulatory, social, and environmental impacts of biomedical engineering solutions.
Healthcare Systems Understanding
Gain insight into healthcare delivery systems, policies, and regulatory issues, preparing for effective communication and collaboration within healthcare environments and institutions.
Project Management and Leadership
Demonstrate leadership and project management skills, with the ability to plan, execute, and oversee biomedical engineering projects, considering resource constraints and team dynamics.
Lifelong Learning
Commit to lifelong learning and professional development to keep pace with advancements in biomedical engineering, technology, and healthcare practices.
Impact of Engineering Solutions
Understand and evaluate the global, economic, environmental, and societal impacts of biomedical engineering solutions, particularly in the context of improving human health and quality of life.
Career Paths
Field Engineer
Marketing and Product Specialist
(Ph.D) Research-focused Careers
Entrepreneurship and Innovation
Curriculum
| Course Category | Paper Title | Credits |
|---|---|---|
| Core | Advanced Biomechanics | 4 |
| Core | Biomaterials and Nanomedicine | 4 |
| Core | Bio-instrumentation | 4 |
| DSE | Human Anatomy and Physiology | 4 |
| Core | Biomedical Computing | |
| Core | Bio-instrumentation Lab | 1.5 |
| Core | Seminar | 1.5 |
| GE | General Elective | 2 |
| Total | 21 |
| Course Category | Paper Title | Credits |
|---|---|---|
| Core | Biomedical Imaging | 4 |
| Core | Rehabilitation Engineering | 4 |
| Core | Biosensors and Transducer | 4 |
| DSE | IPR and Biomedical Ethics | 4 |
| Medical Imaging Techniques | ||
| Core | Seminar | 1.5 |
| Core | Biomedical Calibration Lab | 1.5 |
| GE | General Elective | 2 |
| Total | 21 |
| Course Category | Paper Title | Credits |
|---|---|---|
| Core | Bio MEMS and Embedded System | 4 |
| Core | Biomedical Signal Processing | 4 |
| Core | Pre Dissertation | 4 |
| Core | Minor Project | 2 |
| Total | 14 |
| Course Category | Paper Title | Credits |
|---|---|---|
| Dissertation |
|
16 |
| Total | 16 |
Tuition Fee
₹
Note
*Lab & Library fee will be charged separately
#Program Proposed from Session 2026-27
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Frequently Asked Questions
Students from different engineering or science backgrounds might ask if they need specific prerequisites or a solid foundation in biology or electrical engineering.
The course has numerous applications worldwide in prevention of diseases, therapy and rehabilitation. It is mostly concerned with medical devices, therapies, diagnostic devices and in treating cancerous diseases. This course includes components from other disciplines such as bio-materials, bio-instrumentation, bio-mechanics, imaging, orthopaedic surgery, genetic engineering, and others.
The core subjects covered in an M.Tech in Biomedical Engineering curriculum provide a comprehensive foundation in both engineering and medical sciences, focusing on the application of engineering principles to healthcare and biological systems.
The M.Tech in Biomedical Engineering curriculum often includes industry-oriented applications that prepare students for practical roles in the biomedical field. Here are some industry-oriented applications typically covered during the program:
- Medical Device Design and Development
- Biomedical Imaging and Image Analysis
- Clinical Data Analytics and Artificial Intelligence (AI)
- Bioinstrumentation and Sensor Technology
- Rehabilitation Engineering and Assistive Technologies
- Tissue Engineering and Regenerative Medicine
- Medical Robotics and Automation
- Healthcare Information Systems and Digital Health
- Biomechanics and Orthopedic Applications
- Drug Delivery Systems and Pharmacokinetics
- Quality Control and Regulatory Compliance
- Clinical Trials and Biomedical Research
The programs with strong research in areas like neural engineering, tissue engineering, rehabilitation engineering, or medical robotics.
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