B.Tech in Biomedical Engineering
Semester-wise syllabus for B.Tech in Biomedical Engineering
Year 1: Foundation in Science & Engineering
Semester 1
1. Mathematics-I
- Calculus, linear algebra, differential equations.
2. Physics-I
- Mechanics, thermodynamics, wave optics.
3. Chemistry/Introduction to Biology
- Basics of organic chemistry or cell biology.
4. Basics of Electrical & Electronics Engineering
- Circuits, sensors, operational amplifiers.
5. Engineering Graphics & CAD
- Technical drawing, SolidWorks for medical device design.
6. Lab-I
- Basic electronics circuits, pH/ECG sensor interfacing.
Semester 2
1. Mathematics-II
- Probability, statistics, Fourier transforms.
2. Anatomy & Physiology
- Human body systems, organ functions, medical terminology.
3. Programming in Python/C++
- Algorithms, data analysis for biomedical applications.
4. Biomaterials
- Properties of metals, polymers, ceramics in implants.
5. Lab-II
- Biomechanics experiments (stress-strain testing), biomaterial synthesis.
Year 2: Core Biomedical Engineering
Semester 3
1. Medical Instrumentation-I
- Biopotential electrodes, ECG, EEG, EMG systems.
2. Signals & Systems
- Time/frequency domain analysis, filtering techniques.
3. Biomechanics
- Kinematics, stress analysis in bones/joints, gait analysis.
4. Digital Electronics
- Microcontrollers (Arduino, Raspberry Pi), ADC/DAC.
5. Lab-III
- ECG circuit design, biomechanical modeling (MATLAB).
Semester 4
1. Medical Imaging Systems
- X-ray, MRI, CT, ultrasound, and PET imaging principles.
2. Biomedical Signal Processing
- Filtering, feature extraction, machine learning basics.
3. Biochemistry & Molecular Biology
- DNA, proteins, enzymes, metabolic pathways.
4. Biomedical Sensors
- Biosensors (glucose, pressure), wearable devices.
5. Lab-IV
- Image processing (Python/OpenCV), ultrasound phantom imaging.
Year 3: Advanced Specializations
Semester 5
1. Medical Instrumentation-II
- Ventilators, dialysis machines, surgical robotics.
2. Rehabilitation Engineering
- Prosthetics, exoskeletons, assistive technologies.
3. Biomedical Ethics & Regulations
- FDA/ISO standards, clinical trials, patient safety.
4. Elective-I
- Neural Engineering or Tissue Engineering.
5. Lab-V
- Prosthetic limb design, 3D bioprinting experiments.
Semester 6
1. Hospital Equipment Management
- Maintenance, calibration, safety protocols.
2. Biomedical Data Analytics
- AI/ML for diagnostics, predictive modeling.
3. Telemedicine & IoT in Healthcare
- Remote monitoring, wearable tech, cloud integration.
4. Elective-II
- Biomechatronics or Medical Robotics.
5. Lab-VI
- IoT-based health monitoring systems, AI-driven diagnostics.
6. Mini-Project
- Example: Designing a low-cost wearable glucose monitor.
Year 4: Industry Integration & Capstone Projects
Semester 7
1. Advanced Biomaterials
- Smart materials, drug delivery systems, scaffolds.
2. Clinical Engineering
- Healthcare technology management, risk assessment.
3. Elective-III
- AI in Medical Imaging or Nanomedicine.
4. Project Management
- Agile methods, FDA compliance, prototyping.
5. Lab-VII
- Medical device prototyping (3D printing), virtual reality in surgery.
6. Internship/Industrial Training
- Hospital rotations, med-tech companies (e.g., Siemens Healthineers, GE Healthcare).
Semester 8
1. Emerging Trends
- CRISPR, bioelectronics, brain-computer interfaces (BCI).
2. Entrepreneurship in Healthcare
- Startups, IPR, funding for medical innovations.
3. Capstone Project
- Example projects:
- AI-powered diagnostic tool for early cancer detection.
- Design of a smart prosthetic hand with haptic feedback.
4. Viva/Comprehensive Exam
- Assessment of biomedical engineering concepts.
Elective Options
- Neural Engineering: Brain-machine interfaces, neuroprosthetics.
- Tissue Engineering: Scaffold design, regenerative medicine.
- Medical Robotics: Surgical robots, robotic rehabilitation.
- Nanomedicine: Drug delivery, nanoscale diagnostics.
- Healthcare Informatics: EHR systems, big data analytics.
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