IIT Bombay
- Exams: GATE
Degrees offered: B.A., B.E /B.Tech, B.Sc., B.Tech M.Tech, B.Tech MBA, BAS, BS
Biomedical Engineering programmes focus on the study of tissue engineering, molecular or systems-level biology, and physiology. Students learn about biomedical electronics along with the mathematical and analytical abilities needed to evaluate data. More than 270 colleges in the country provide biomedical engineering courses.
The study of bio-mechanics, cellular engineering, genetic engineering, orthopaedic surgery, bio-instrumentation, medical imaging, and bio-materials are among the other programme components. Candidates also learn about computer modelling of physiological systems and new therapeutic and surgical technologies during the course.
Particulars | Values |
---|---|
Branch Name | Biomedical Engineering |
Degree | |
Eligibility | UG: 4 years PG: 2 years |
Admission Process | Entrance Exam |
Entrance Exam | JEE Main, KEAM, GATE, CUET UG, TANCET, GUJCET, SRMJEEE |
Course Fees | Rs. 8,000 to Rs. 11.0 lakhs |
Average Salary | Rs. 4.0 LPA ( for Biomedical Engineers) |
Job Profiles | Biomedical Engineering, Clinical Engineering, Bioinstrumentation Engineers, Biotechnologists |
Recruiting Companies | Cipla, GE Healthcare, GlaxoSmithKline, Siemens Healthcare, Johnson & Johnson, Ranbaxy Laboratories, Glenmark Pharmaceuticals |
The topic of biomedical engineering is broad, specialisations enable candidates to concentrate on particular areas. These specialisations provide a detailed look at the fascinating field of engineering solutions for healthcare problems. These range from creating biocompatible materials for implants to creating surgical robots. Below are some similar specialisations which students can pursue:
Bio-mechanics | Bio-materials |
Bioinstrumentation | Tissue Engineering |
Medical Imaging | Biomedical Robots |
Biomedical Engineering courses are offered by many colleges and universities across the country. The admission is based on entrance examinations, and/or aptitude tests. Candidates are advised to carefully go through the eligibility requirements of the desired course. Mentioned below are the top Biomedical Engineering colleges in India.
Colleges | Fees |
---|---|
Rs. 3.33 Lakhs | |
Rs. 5.60 Lakhs | |
Rs. 7.44 Lakhs | |
Rs. 2.80 Lakhs | |
Rs. 55,600 | |
Rs. 1.07 Lakhs | |
Rs. 3.40 Lakhs | |
Rs. 2.19 Lakhs | |
Rs. 7.29 Lakhs | |
Rs. 1.89 Lakhs |
More than 200 private institutes offer Biomedical Engineering courses in India. Admission to these institutes is based on the entrance examination. Candidates are advised to meet the eligibility requirements before applying for admission. Mentioned below are the top private Biomedical Engineering colleges in India.
Colleges | Fees |
---|---|
Rs. 6.90 Lakhs | |
Rs. 9.60 Lakhs | |
Rs. 7.80 Lakhs | |
Rs. 17.21 Lakhs | |
Rs. 4.86 Lakhs | |
Rs. 10.84 Lakhs | |
Rs. 3.20 Lakhs | |
Rs. 13 Lakhs | |
Rs. 2 Lakhs | |
Rs. 11 Lakhs |
Around 60 government institutes in India offer Biomedical Engineering courses, with quality education and nominal fees. In the table below, we have listed some of the top government colleges offering Biomedical Engineering courses.
Colleges | Fees |
---|---|
- | |
- | |
Rs. 45,850 | |
Rs. 30,450 | |
Rs. 3.40 Lakhs | |
Rs. 28.400 | |
- | |
Rs. 9.06 Lakhs | |
Rs. 6,29 Lakhs | |
Rs. 55,380 |
The prerequisites for a Biomedical Engineering course vary based on the institution and degree of study. Students should ensure they meet the eligibility requirements before applying for admissions as different colleges may have varying requirements.
The undergraduate eligibility requirements depend on the institution. The eligibility requirements vary from one college to another. Mentioned below are the eligibility requirements for undergraduate courses in the field of Biomedical Engineering.
Candidates are required to have passed their 12th grade in the Science stream from a recognised board in India.
They must score a minimum aggregate of 50 per cent or more in class 12.
They are also required to score a valid aggregate score in the entrance exam to be eligible for admission.
There may be a relaxation in aggregate score percentage for candidates belonging to the SC/ST caste.
Aspiring candidates need to take a certain entrance exam to start with their Bachelor's programme journey. It is the first step as per the procedure and students need to qualify it to go to their desired college.
Exam Name | Level | Conducting Body | Exam Schedule |
---|---|---|---|
National | NTA | ||
National | IITs | ||
KEAM | State | Commissioner for Entrance Examinations | - |
KCET | State | Karnataka Examinations Authority | - |
Colleges have specific eligibility requirements and these requirements vary from one institution to another. Candidates generally need to have a Bachelor’s degree in a relevant branch from a recognised university. We have mentioned generic postgraduate eligibility requirements for Biomedical Engineering below.
Candidates must have a B.E/B. Tech in Biomedical Engineering or a related discipline from a recognised institute.
They must score a minimum aggregate score of 60 per cent in their Bachelor’s degree.
Students are also required to appear for the GATE entrance examination and meet the cutoff specified by the institute for admissions.
Aspiring candidates need to give a certain entrance exam to start their postgraduate programme journey. It is the initial step as per the procedure and students need to qualify it to go to their desired college.
Exam Name | Level | Conducting Body | Exam Schedule |
---|---|---|---|
National | IISc and IITs | ||
State | Karnataka Examinations Authority | - | |
State | Anna University | ||
State | Gujarat Secondary and Higher Secondary Education Board |
Degrees in biomedical engineering are recognised all around the world. Exciting professions in biomedical engineering are available in India and abroad. India's expanding healthcare industry necessitates creative solutions, and government funding for research is provided. Established industries in other countries are working on cutting-edge technology.
Every day new ways are devised to do blood tests, and screening for infectious diseases, and genetics. To overcome these, bio-engineers are involved in the designing and construction of devices such as cardiac pacemakers, defibrillators, artificial kidneys, blood oxygenators, prosthetic hearts, and joints.
Minimum Fees | Maximum Fees | |||
---|---|---|---|---|
Private | Government | Private | Government | |
UG | ||||
PG | ||||
DOCTORAL | ||||
DIPLOMA |
The course curriculum of Biomedical Engineering at the undergraduate level includes many subjects such as Engineering Chemistry, Environment and Ecology, and Elements of Electronics Engineering. Mentioned below is the syllabus of JIS College of Engineering for their B.Tech Biomedical Engineering course.
Semester 1 | |
Theory | |
Professional Communication | Engineering Mechanics |
Mathematics-I | Basic Electrical Engineering |
Engineering Chemistry | - |
Practical | |
Students Project Presentation Laboratory | Basic Electrical Engineering Laboratory |
Engineering Chemistry Practical | Extra Curricular Activities (NSS/NCC) |
Engineering Graphics | - |
Semester 2 | |
Theory | |
Mathematics-II | Elements of Electronics Engineering |
Physics-I | Introduction to Programming |
Environment and Ecology | - |
Practical | |
Physics-I Lab | Value and Ethics in Profession |
Workshop Practice | Elements of Electronics Engineering Laboratory |
Introduction to Programming Laboratory | - |
Semester 3 | |
Theory | |
Biomathematics and Biostatistics | Circuit Theory and Networks |
Physics-II | Analog Electronic Circuits |
Engineering Physiology and Anatomy | - |
Practical | |
Physics-II Laboratory | Analog Electronic Circuits Laboratory |
Engineering Physiology and Anatomy Laboratory | Personality Development Laboratory |
Circuits and Networks Laboratory | - |
Semester 4 | |
Theory | |
Biomechanics | Object Oriented Programming using C++ |
Biophysical Signals and Systems | Biomaterials |
Digital Electronics and Integrated Circuits | Engineering Economics and Management |
Practical | |
Biomaterials and Biomechanics Laboratory | Digital Electronics and Integrated Circuits Laboratory |
Biophysical Signals and Systems Laboratory | Programming Practices Laboratory |
Semester 5 | |
Theory | |
Biomedical Instrumentation | Biomedical Digital Signal Processing |
Biosensors and Transducers | Medical Imaging Techniques |
Electives (Theory) | |
Control Engineering | Data Structure and Algorithm |
Biophysics and Biochemistry | Soft-computing |
Modelling of Physiological Systems | VLSI and Embedded System |
Practical | |
Biomedical Instrumentation Laboratory | Biosensors and Transducers Laboratory |
Biomedical Digital Signal Processing Laboratory | - |
Electives (Practical) | |
Data Structure and Algorithm Laboratory | Soft-computing Laboratory |
VLSI and Embedded System Laboratory | - |
Semester 6 | |
Theory | |
Analytical and Diagnostic Equipment | Microprocessors and Microcontrollers |
Advanced Imaging Systems | - |
Electives (Theory) | |
Communication Systems | Bionanotechnology |
Tissue Engineering | Electrical and Electronic Measurement and Instrumentation |
Fuzzy Control and Systems | Software Engineering |
Practical | |
Biomedical Equipments Laboratory | Microprocessors and Microcontrollers Laboratory |
Electives (Practical) | |
Communication Systems Laboratory | Bionanotechnology Laboratory |
Tissue Engineering Laboratory | Group Discussion and Seminar |
Semester 7 | |
Theory | |
Therapeutic Equipment | Medical Image Processing |
Artificial Organ and Rehabilitation Engineering | Industrial Training |
Electives (Theory) | |
Biological Control Systems | Biotelemetry and Telemedicine |
BioMEMs | Engineering System Modeling and Simulation |
Medical Robotics and Automation | Lasers and Optics in Medicine |
Practical | |
Medical Instruments and Systems Laboratory | Medical Image Processing Laboratory |
Project Part-I | - |
Semester 8 | |
Theory | |
Design Concept and Maintenance of Biomedical Instruments | Hospital Engineering and Management |
Biomedical Hazards and Safety | - |
Electives (Theory) | |
Radiotherapy and Nuclear Medicine | Bioinformatics |
Body Area Networks | - |
Practical | |
Seminar | Project Part-II |
Grand Viva | - |
The syllabus of Biomedical Engineering in the postgraduate course includes subjects such as Biomedical Sensors and Data Acquisition Techniques, Bio-Processing, and Medical Image Processing. Mentioned below is the syllabus as per the Vellore Institute of Technology syllabus.
University Core | Programme Core |
Advanced Statistical Methods | Anatomy & Physiology (Bridge Course) |
Technical English I and Technical English II | Basic Electronics & Measurements (Bridge Course) |
Soft skills | Biomedical Sensors and Data Acquisition Techniques |
SET Project-I | Bio-signal Processing and Analysis |
SET Project-II | Embedded Systems and IoT for Biomedical Applications |
Master's Thesis | Medical Image Processing |
- | Biomedical Equipment |
With the increasing emphasis on healthcare and technology, the demand for skilled biomedical engineers is expected to grow. The field of Biomedical Engineering is attractive and promising for professionals. Mentioned below are the top career options in the field of Biomedical Engineering and their job roles.
Job Profiles | Job Description |
---|---|
Biomedical Engineers | Biomedical Engineers are professionals who design medical devices and equipment. They are problem solvers who use biology and medicine to apply engineering concepts, coming up with creative ways to enhance diagnosis and treatment. |
Clinical Engineers | Clinical engineers are professionals who are in charge of managing and ensuring the proper functioning of medical equipment within healthcare institutions. Their role is crucial in guaranteeing that all devices are operational and safe for use by both patients and healthcare practitioners. |
Biomechanical Engineers | Biomechanical engineers are specialists in understanding the mechanical aspects of the human body. Their work often involves the creation of prosthetic limbs or orthopaedic devices. |
Bioinstrumentation Engineers | Bioinstrumentation engineers see the design and maintenance of biomedical equipment. It is essential for identifying, managing, and keeping an eye on several medical disorders. |
The field of Biomedical Engineering is witnessing a surge in innovation, these advancements are revolutionising healthcare and treatment methods. Mentioned below are the upcoming trends and topics in the field of Biomedical Engineering.
Biomedical Engineering graduates can work in various industries such as Medical Industry, Research and Development, Manufacturing, Universities, and Information Technology.
Salary in Biomedical Engineering, like any other domain, depends on work experience, location, job role, and skills and experience of the candidate. Companies are on the lookout for skilled Biomedical Engineering graduates in both private and public sectors. The salary will keep on increasing as the candidate gains more experience.
Job Profiles | Average Salary |
---|---|
Biomedical Engineers | Rs. 3.4 LPA |
Clinical Engineers | Rs. 3.6 LPA |
Bioinstrumentation Engineers | Rs. 4.94 LPA |
Bio-technologists | Rs. 2.9 LPA |
Source: Ambition Box
Aspirants who are desirous of working in the Biomedical Engineering field must have certain skills in addition to the minimum education qualification. Some of the crucial skills that applicants must have are listed below:
The curriculum for Biomedical Engineering is an interdisciplinary area that combines basic science, mathematics, and engineering principles. The curriculum equips students with the knowledge and skills necessary to handle and analyse medical data. This includes imaging and enhancement techniques, and the refinement of the analytical and quantitative skills necessary to comprehend biomedical electronics.
The programme components include the study of bio-materials, bio-mechanics, cellular engineering, genetic engineering, orthopaedic surgery, bio-instrumentation, and medical imaging. During the course, candidates also learn about innovative surgical and therapeutic technologies as well as computer modelling of physiological systems.
Answer :
Programmes offered range from undergraduate to postgraduate level. Examples of Biomedical Engineering courses offered include BSc in Biomedical Engineering and MSc in Biomedical Engineering.
Answer :
Biomedical engineering integrates engineering principles with biological and medical sciences. It focuses on creating cutting-edge answers to problems in healthcare, like prosthetic limbs, medical equipment, and diagnostic instruments.
Answer :
Skills developed by pursuing a biomedical engineering course include Engineering skills, Biological and medical sciences, Analytical and problem-solving skills, Communication skills, and Research skills.
Answer :
Students can make a career in Medical Device Design and Development, Biomaterials Science, Biomedical Imaging, Biomechanics, and Biomedical Research.
Answer :
Basic requirements include completion of high school with strong performance in science and mathematics and completing the entrance exam with qualifying scores.
Hello reader,
Here are a few courses in which you can pursue masters after obtaining the degree in electronics and instrumentation engineering -->
1) M.E/M.tech - embedded systems
2) M.E/M.tech - Electronics and electrical engineering itself
3) M.E/M.tech - robotics and automation
4) M.E/M.tech - power systems
5) M.E/M.tech - communication engineering
6) M.E/M.tech - CS/IT, signal processing
Hello there,
Here you can find the old question papers of GATE for your preparations.
Click on the link given below for finding the question papers of GATE :
GATE Previous Year Question Paper - Donwload Free PDF (careers360.com)
Yes, a PhD in Biomedical Engineering is possible after a B.E. in Biomedical Engineering and an MBA in Hospital Management.PhD programs in Biomedical Engineering typically focus on research in a specific area of the field like biomaterials, biomechanics, or medical imaging. Your coursework in the MBA program might not directly apply to these research areas.
Reach out to professors at universities with biomedical engineering PhD programs that align with your interests. Discuss your background and career goals to see if they will be willing to mentor you.
Look for research assistant positions or independent research projects that can help you gain experience and potentially lead to publications.
https://engineering.careers360.com/download/ebooks/gate-syllabus-for-biomedical-engineering
GATE 2024 Exam is scheduled to be held on February 3,4,10,and 11. GATE Exam syllabus 2024 pdf includes important topics and chapters to cover for exam. It will be better to cover all the topics for the GATE exam syllabus to score well in Graduate Aptitude Test in engineering 2024. Along with syllabus make sure to check GATE Exam pattern also.
Each GATE paper has one section of General Aptitude for 15 marks. General Aptitude is the common and major Section. GATE General Aptitude syllabus contains Verbal Aptitude, Quantitative Aptitude, Analytical Aptitude, and Spatial Aptitude.
Check topic wise weightage for Instrumentation Engineering using the link below.
https://engineering.careers360.com/articles/gate-syllabus#toc_1
For further information and to download the pdf of GATE 2024 Exam syllabus pdfs click on the link below.
https://gate2024.iisc.ac.in/papers-and-syllabus/
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