The significance of M.Sc. program in Biomedical Engineering cannot be overstated as they contribute significantly to the enhancement of healthcare. Within these programs, individuals explore the realm of utilizing engineering principles to address medical challenges. Their focus spans from the development of innovative medical devices to enhancing imaging technologies and crafting synthetic anatomical components. Through the integration of engineering and biological sciences, they pioneer early disease detection methods, refine treatment approaches, and proactively strive toward disease prevention. Consequently, graduates emerge as pivotal contributors to the advancement of medical care, fostering substantial improvements in patient well-being globally.
M.Sc. Biomedical Engineering
Outline
Path 1
A student needs to earn 30 credit hours from coursework, i.e. 10 courses each of 3 credit hours.
Path 2
A student needs to earn 24 credit hours from coursework i.e. 8 courses each of 3 credit hours along with 6 credit hours of thesis. Student needs to study three core courses, three elective courses from Electrical Engineering department and four courses from the list of approved elective courses from other faculties/departments of the university. Approval from Head of the Electrical Engineering Department and the concerned Deans is required to take courses from other faculties/departments.
List of Core Courses
A student needs to study at least 3 out of 6 core courses.
- Digital Signal Processing for Biomedical Applications
- Medical Image Processing
- Research Methodology
- Stochastic Processes
- Modeling and Simulation
- Biomedical Sensors
Road Map
Courses from the Electrical Engineering Department
- S.No Course Code Course Title
- 1EE5xxxMicro-electromechanical system
- 2EE6503Internet of Things
- 3EE5xxxRadiology in Biomedical Engineering
- 4EE5xxxEmbedded Systems & Applications
- 5EE5xxxMedical Microsystems
- 6EE5xxxTelemedicine System
- 7EE6xxxAdvanced Medical Imaging
- 8EE6xxxAdvanced Biomedical Instrumentation
- 9EE6xxxAdvanced Biomaterials
- 10EE7xxxSelected Topics in Biomedical Engineering
- 11EE7253Industry 4.0
- 12EE6xxxPower Systems for Biomedical Engineering
- 13EE7xxxAdvanced Biomechanics
- 14EE7xxxReliability Engineering
- 15EE6xxxMedical Informatics
- 16EE6xxxHyperthermia and Radiation Therapy for Cancer Treatment
- 17EE5213Grapy Theory and Network Optimization
- 18EE6xxxCyber Security
Courses from Other Faculties
- S.No Course Code Course Title
- 1PHPT6013Biostatistics
- 2ME5013Engineering Project Management
- 3ME6253Total Quality Management
- 4ME6xxxReliability and Quality Engineering
- 5ME6903Data Modelling and Machine Learning
- 6CSNS5523Advanced Computer Architecture
- 7CSNS5513Advanced Operating Systems
- 8DSSM5103Statistical and Mathematical Methods for Data Science
- 9DSAI5303Machine Learning
- 10DSDS5213Big Data Analytics
- 11DSAI6313Deep Learning
- 12DSAI6323Natural Language Processing
- 13DSDS6233Distributed Data Processing
- 14SESE5123Advanced Human-Computer Interaction
- 15SEST6653Reliability Engineering
- 16SEST5623Agent Based Modeling
- 17SEAD6433Artificial Intelligence
- 18SEAD5443Data Science
- 19SEAD6493Computer Vision
- 20SENS6523Advanced Computer Networks
- 21SEAD6483Advanced Image Processing
- 22DSDS5203Tools and Techniques in Data Science
- 23BAIT7473Digital Innovation and Transformation
- 24BAIT7413Data Analytics
- 25BAAF7243Fintech Strategies and Innovations in Business
- 26BAIT7423Advanced Business Analytics
- 27BAIT7433Big Data Analytics
- 28BAIT7443Business Intelligence
- 29BAIT7453Management Information System
- 30BAMG7573Production and Operation Management
- 31BAMG7603Techno Entrepreneurship
- 32BAMG7683Entrepreneurship & New Venture
- 33BAMG7823Innovation Strategy and Management
- 34BC50Bioinformatics
- 35BT5313Nano-Biotechnology
- 36BT5333Health Biotechnology
- 37BT5363Industrial Biotechnology
- 38BT5013Environmental Biology
- 39BT5373Advances in Biotechnology
- 40PH7023Advanced Plasma Physics
- 41PH7103Advanced Quantum Mechanics
- 42PH7303Materials Science
- 43PH7403Advance Computational Physics
- 44PH7323Nanostructures and Nanotechnology
- 45PH7313Accelerator Techniques of Materials
- 46PH7073Accelerator and Detector Physics
- 47PH7603Advance Lasers and Techniques
- 48PH7613Applied Optics
- 49PH7343Semiconductors Physics
- 50MT72093Mathematical Modeling
- 51MT7473Fuzzy Set Theory and its Applications
- 52MT625Theory of Optimization/Optimization Theory
- 53MT726Advanced Theory of Optimization/ Advanced Optimization Theory
- 54MT724Mathematical Modeling and Simulation
- 55MT714Mathematical Biology
Admission Criteria
- A minimum of 16 years of education leading to BS / BE / B.Sc. in Biomedical, Electrical, Electronics, Telecommunications, Power, Computer, Computer Sciences, Mechanical, Mechatronics or equivalent. Students with 16 years of education in Science and Technology are also eligible to apply.
- Minimum 2.00/4.00 CGPA or 50% marks in annual system
- UCP Admission Test/HEC Approved Test
Prospects
- Healthcare Industry: Work in hospitals, clinics, and medical device companies to develop, implement, and maintain medical equipment and systems.
- Research and Development: Contribute to groundbreaking research in biomedical engineering, leading to advancements in diagnostics, therapeutics, and medical devices
- Biotechnology and Pharmaceutical Companies: Develop innovative medical products and therapies, from drug delivery systems to tissue engineering
- Academia and Education: Teach and conduct research at universities and colleges, inspiring future generations of biomedical engineers.
- Government and Regulatory Agencies: Shape healthcare policies and regulations, ensuring the safety and efficacy of medical technologies.
Fee Structure
M.Sc. Biomedical Engineering
- Sr. No. COURSE NAME FEE PER CREDIT HOUR Total Fee
- 1M.Sc. Biomedical Engineering14,300454,000