M.Tech Communication Systems
M.Tech. Communication Systems, a specialized Master’s Program in IOT & 5G, is envisioned to develop competent academic and research personnel in this fast advancing and high-in-demand area of Communication Systems. It comprises of Courses on RF systems, Smart Antennas, Optical networks, Satellite Communication, GPS, Communication networks, Signal processing, Embedded sensor networks, Computational Intelligence, Software Defined Radio (SDR), Internet of Things (IOT) to name a few, that prepares the students to address different issues in data compression, signal distortion & enhancement, MIMO antennas, Artificial Intelligence, LTE systems, OFDM, Cognitive Radio in wireless networks and Telecommunication systems.
The students get hands on training in design and simulation of Microwave devices and components using FEKO (EM simulation software) and fabrication using Eleven Lab (Fabrication unit). Signal processing using MATLAB and DSP processors and Optical Communication using OTDR, network evaluation using simulation software and advanced communication trainers develop technical skills in students and prepare them for the industry.
DURATION: 2 YEARS
Program Educational Objectives (PEOs)
PEO1: To enable students to identify technical problems of societal importance in areas of Communication Engineering including RF System Design, Signal Processing and Networking.
PEO2: To inculcate technical expertise and provide ample exposure to State-of-the-art tools to ensure that the students are Industry-ready.
PEO3: To instil high ethical standards, effective interpersonal skills and a sense of social concern.
Program Outcomes (POs)
PO1: An ability to independently carry out research /investigation and development work to solve practical problems.
PO2: An ability to write and present a substantial technical report/document.
PO3: Students should be able to demonstrate a degree of mastery over the area as per the specialization of the program. The mastery should be at a level higher than the requirements in the appropriate bachelor program.
PO4: An ability to have in-depth knowledge and capability to use industry standard tools over the area of specialization of the program.
Hardware Equipment
- Software Defined Radio: NI USRP 2922 (400 MHz-4.4 GHz)
- Antenna Training System (S-band)
- Tektronix RF Vector Signal Generator (DC–4 GHz)
- Tektronix RSA306B Spectrum Analyzer (9 KHz-6.2 GHz)
- Field Fox Vector Network Analyzer (~18 GHz)
- Fabrication unit: Eleven lab
Software Tools
- Antenna Simulator FEKO + WINPROP
- COMSOL Multiphysics
- Network Simulator (NS-2)
- NI myRIO kit – for Image Processing Applications
- AWR Microwave Office Axiem/Analyst/Visual System Simulator
- LabView- Communication System Design Suite
- Signal Vue Software-EMI/EMC, Spectral Analysis
Resource & Facility- DRDO funded research lab with ANSYS HFSS & Network Analyzer
- AICTE-funded RF Lab with MIMO-SDR platform
- IOT Centre
- Signal Processing lab using MATLAB and DSP Processors
CBCS Courses
Subjects offered are as follows:
RF SYSTEM DESIGN | SIGNAL PROCESSING | NETWORKS |
---|---|---|
MIMO Systems | DSP Architecture | Communication Network Routing Algorithms |
Global Positioning Systems | Advanced Digital Image Processing | Wireless Sensor Networks |
Software Defined Radio | Pattern Recognition and Machine Learning | High Performance Networks |
Cognitive Radio | Statistical Information Processing | Advanced Communication Networks |
RF and Microwave Circuit Design | Advanced Digital Signal Processing | Optical Networks and Photonic Switching |
Modern Radar Systems | Advanced Digital Signal Processing Lab | Advanced Communication Networks Lab |