M.Tech. in Electronics Engineering
Affiliated to | Duration | Academic Year | Intake | Exam Structure | Curriculum |
---|---|---|---|---|---|
University of Mumbai | 2 years, Full Time | 2 semesters each | 12 | Theory, Practical, Oral, Term Work | Sem I - IV |
Research Areas
The Faculty of the Department of Electronics Engineering are experts in numerous disciplines and are involved in following research areas:
- Image Processing
- VLSI (Very Large Scale Integration)
- Signal Processing
- Power Electronics
- Embedded System
- Control system
- Communication
- Antenna Design
Postgraduate Labs
- Research Lab
- Microprocessor Lab
Graduate Labs
Research Lab
The Research Lab in the Department of Electronics Engineering conducts research in numerous fields such as Antenna Design, Signal and Image Processing and in Applications of Drone Technology.
Program Overview
Electronics Engineering is concerned with the design, development, manufacture and application of electronic devices, circuits and systems. The ideas electronic engineers turn into reality gave us products or gadgets, like personal computers, mobile telephones, pacemakers, radio, television, industrial control and satellite communications systems.
One of the hottest topics in electronic technologies today is optoelectronics, which deals with hardware that converts electrical signals to visible infrared light or vice-versa. Examples are solar cells, LEDs (light-emitting diodes), fiber optics and lasers, which are integral components of everyday devices like compact disc players, supermarket barcode scanners and long distance systems.
Vision
- To produce highly qualified and motivated Electronics Engineers who can participate in technological development and research activities at national and international level
- To attract, develop and retain dedicated, excellent teachers, scholars and professionals from Electronics Engineering background who are committed to make a significant difference in the lives of their students and the community
Mission
- To develop professional engineers possessing fundamental knowledge of Electronics Engineering, ethical attitude and effective communication skills along with respect for environment through quality education, practical training and interaction with industries and social organization.
- To nurture creativity and critical thinking in applying electronics engineering skills to face the global challenges in technical arena and for research activities.
ME Dissertation Titles and Domain
Dissertation Title | Domain |
---|---|
Feature Extractions from Satellite Image | Image Processing |
Human Action Recognition Using Optical Flow Estimation | |
Video Classification Using Slow Feature Analysis and Neural Network | |
Latent Fingerprint Enhancement Using Sparse Representation | |
Optimal Co-operative Beamforming Design for MIMO Decode and Forward Relay Channel | Communication |
Error Detection and Data Recovery Architecture For Motion Estimating Testing Application | |
An Energy Optimized Path Selection & Dynamic Cluster Head Selection for Wireless Mesh Network | |
Performance Evaluation and Enhancement of Distributed Storage Area n/w using Network Coding | |
Patch Antenna Array for Range Extension of RFID Reader | Antenna Design |
Gain Improvement of Microstrip Antenna Using Dielectric Loading Technique | |
Stacked Gap Coupled Multiresonator Circular Microstrip Antenna | |
Mapping Multi-Domain Applications on to a Coarse Grained Reconfigurable Architecture for Integer & Floating Point Operations | VLSI |
Fault Diagnosis and Testing in Combinational Circuits | |
Design & Simulation of High Performance Multiplier | |
Z-source Based High Step-up Chopper for Photovoltaic Panel | Power Electronics |
Leakage Flux Monitoring for Early Detection of Damages in Electrical Machines | |
Low Order Harmonics Removal in Grid Connected PV Inverter | |
Design and Performance Optimization of Embedded Real Time System | Embedded Systems |
The Real Time Water Quality Monitoring System Based on IOT Platform | |
Sixth Sense Technology for Home Automation | |
Automated Design of Robust PID Controller Satisfying Stability and Sensitivity Constraints using Generic Algorithm | Control System |
Remote Parameters Monitoring using PIC16 & Labview |