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M-TECH-MASTER-OF-TECHNOLOGY-SIT-PUNE in Electronics And Telecommunication Engineering at Symbiosis International University (SIU)

Symbiosis International University, Pune, established in 1971, is a premier UGC-recognized Deemed University with an A++ NAAC grade. Spanning over 400 acres, it offers over 60 diverse UG, PG, and doctoral programs. Known for academic excellence and global recognition, it consistently ranks high in NIRF and boasts strong placements.

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Pune, Maharashtra

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About the Specialization

What is Electronics and Telecommunication Engineering at Symbiosis International University (SIU) Pune?

This Electronics and Telecommunication Engineering program at Symbiosis International University (SIT Pune) focuses on advanced concepts in communication systems, signal processing, VLSI, and embedded systems. It addresses the growing demands of India''''s rapidly evolving tech landscape, preparing students for cutting-edge roles in core electronics industries, R&D, and digital transformation initiatives. The program emphasizes both theoretical foundations and practical applications relevant to modern Indian technology.

Who Should Apply?

This program is ideal for B.E./B.Tech. graduates in E&TC, Electronics, Electrical, Instrumentation, Computer Engineering, IT, MCA, or M.Sc. (CS/Electronics) seeking to specialize further. It caters to fresh graduates aspiring for advanced research and development roles, as well as working professionals aiming to upskill for leadership positions in design, implementation, and management of complex electronic and communication systems within the Indian context.

Why Choose This Course?

Graduates of this program can expect to secure roles as R&D Engineers, System Designers, Embedded Software Developers, VLSI Design Engineers, and Telecommunication Specialists in India. Entry-level salaries typically range from INR 6-10 lakhs per annum, with experienced professionals earning upwards of INR 15-25 lakhs. The program fosters critical thinking and problem-solving, aligning with certifications in embedded systems, communication protocols, and VLSI design, crucial for career progression in Indian tech giants and startups.

Student Success Practices

Foundation Stage

Strengthen Core E&TC Fundamentals- (Semester 1-2)

Dedicate significant time to mastering advanced digital signal processing, VLSI design principles, and research methodologies. Utilize online platforms like NPTEL for in-depth course materials and Coursera for specialized certifications. Form study groups to discuss complex topics and solve problems collaboratively, laying a strong academic foundation.

Tools & Resources

NPTEL courses, Coursera/edX, MATLAB, Quartus/Xilinx Vivado (EDA tools)

Career Connection

A strong grasp of fundamentals is critical for cracking technical interviews for core engineering roles and excelling in advanced project work in India''''s semiconductor and telecom sectors.

Develop Lab & Simulation Proficiency- (Semester 1-2)

Actively participate in all lab sessions for Advanced DSP and VLSI Design. Go beyond assigned tasks by exploring additional experiments and simulations. Gain hands-on experience with industry-standard software like MATLAB, Simulink, and EDA tools for VLSI, enhancing practical skill sets crucial for Indian R&D jobs.

Tools & Resources

MATLAB/Simulink, Xilinx Vivado/Altera Quartus, LabVIEW, Hardware kits (e.g., FPGA boards)

Career Connection

Practical skills are highly valued by Indian employers. Proficiency in simulation and hardware implementation tools translates directly into readiness for design and testing roles.

Cultivate Research & IPR Acumen- (Semester 1-2)

Engage deeply with the ''''Research Methodology & IPR'''' course. Start reading research papers in your areas of interest and attend departmental research seminars. Understand intellectual property concepts by exploring Indian patent databases. This early exposure helps in identifying relevant project topics and understanding innovation, vital for future R&D roles in India.

Tools & Resources

Google Scholar, IEEE Xplore, Indian Patent Office website, Academic journals

Career Connection

Early research engagement prepares you for impactful dissertation work and equips you with skills for R&D positions, contributing to India''''s technological innovation.

Intermediate Stage

Specialize through Elective Choices- (Semester 2-3)

Carefully select electives (III, IV, V) based on your career aspirations, whether it''''s IoT, Nano Electronics, or Communication Networks. Deep dive into the chosen domain through additional courses, online specializations, and reading advanced textbooks. This targeted learning helps in building a unique profile relevant to niche Indian tech industries.

Tools & Resources

Specialized textbooks, Online courses (e.g., Udemy, Udacity), Industry whitepapers

Career Connection

Specialization makes you a more attractive candidate for specific roles and helps in establishing expertise, leading to better job opportunities and growth within a chosen field in India.

Undertake Industry-Relevant Projects- (Semester 2-3)

For Project Phase I and your Dissertation, choose topics that address current industry challenges or incorporate emerging technologies (e.g., 5G, AI/ML in E&TC, advanced embedded systems). Seek mentorship from faculty and potentially industry experts. Present your work at internal symposiums or student conferences to gain feedback.

Tools & Resources

GitHub for code collaboration, Project management tools, Simulation software (e.g., NS3 for networks)

Career Connection

Hands-on projects with industry relevance demonstrate problem-solving abilities and practical application of knowledge, highly valued by Indian recruiters for both internships and full-time roles.

Network and Seek Internships- (Semester 2-3)

Actively network with alumni and industry professionals through university events, LinkedIn, and professional bodies like IEEE. Pursue internships during semester breaks at telecom companies, semiconductor firms, or embedded system developers in India. This provides invaluable industry exposure and potential pre-placement offers.

Tools & Resources

LinkedIn, IEEE student chapter activities, Career Fairs, University''''s placement cell

Career Connection

Internships are crucial for gaining real-world experience, building professional contacts, and often lead to full-time employment opportunities in Indian companies.

Advanced Stage

Excel in Dissertation & Research Publication- (Semester 3-4)

Devote maximum effort to Dissertation Phase II and III, aiming for a novel contribution. Work closely with your supervisor, meticulously documenting your progress and findings. Strive to publish your research in peer-reviewed journals or present at national/international conferences, which significantly enhances your academic and professional profile in India.

Tools & Resources

LaTeX for thesis writing, Plagiarism checker tools, Research publication platforms

Career Connection

A strong dissertation and publications demonstrate advanced research capabilities, which are highly desirable for R&D roles, academic positions, and even competitive roles in product development.

Master Interview & Placement Skills- (Semester 3-4)

Engage in rigorous placement preparation, including mock interviews, group discussions, and aptitude test practice. Focus on technical concepts from core E&TC subjects and behavioral skills. Utilize the university''''s career services for resume building and interview coaching, tailored to the Indian job market.

Tools & Resources

Online aptitude platforms, Interview preparation guides, University career services

Career Connection

Effective interview and placement skills are essential for converting academic achievements into successful career opportunities at top Indian tech firms.

Build a Professional Portfolio- (Semester 3-4)

Compile a comprehensive portfolio showcasing your projects, lab work, research papers, and any certifications. This could be a personal website or a professional online repository. A strong portfolio effectively communicates your technical abilities and experience to potential employers, especially when applying for specialized roles in India''''s tech industry.

Tools & Resources

GitHub/GitLab, Personal website platforms (e.g., WordPress, Google Sites), LinkedIn Profile

Career Connection

A well-curated portfolio acts as a tangible proof of your skills, making your application stand out and increasing your chances of securing desired roles in the competitive Indian market.

Program Structure and Curriculum

Eligibility:

  • Candidate must be a B.E./B.Tech. in Electronics Engineering/ Electronics & Telecommunication Engineering/ Electrical Engineering/ Instrumentation Engineering/ Computer Engineering/ Information Technology or MCA or M.Sc. (Computer Science/ Electronics) from any Statutory University with minimum of 50% marks (45% for SC/ST candidates).

Duration: 2 years / 4 semesters

Credits: 80 Credits

Assessment: Internal: 60%, External: 40%

Semester-wise Curriculum Table

Semester 1

Subject CodeSubject NameSubject TypeCreditsKey Topics
MTC-1.1Advanced Digital Signal ProcessingCore4Discrete Time Signals & Systems, DTFT, DFT & FFT, IIR Filter Design, FIR Filter Design, Adaptive Filters, Multirate DSP
MTC-1.2Research Methodology & IPRCore3Research problem identification, Research design strategies, Data collection & analysis, Report writing & presentation, Intellectual Property Rights, Patents and copyrights
MTC-1.3VLSI Technology & DesignCore4Introduction to VLSI, MOS Transistor characteristics, CMOS Inverter design, Combinational Logic Circuits, Sequential Logic Circuits, Design for Testability, FPGA based design
MTP-1.1Advanced Digital Signal Processing LabLab2MATLAB/Simulink experiments, Signal processing algorithms, Filter design implementation, DSP hardware interface
MTP-1.2VLSI Design LabLab2EDA tools for VLSI design, Verilog/VHDL based design, Simulation & Synthesis, FPGA implementation
MTC-1.4Elective-IElective Slot4Choice from Elective Group A, specific topics vary based on selection
MTC-1.5Elective-IIElective Slot4Choice from Elective Group A, specific topics vary based on selection
Image and Video Processing (Elective Group A Option)Elective Option4Image Transforms, Image Enhancement, Segmentation techniques, Feature Extraction, Video Compression Standards
Internet of Things (Elective Group A Option)Elective Option4IoT Architecture & Layers, Sensors, Actuators & Microcontrollers, Communication Protocols (MQTT, CoAP), Data Analytics in IoT, IoT Security & Privacy, Cloud platforms for IoT
MEMS & NEMS (Elective Group A Option)Elective Option4Microfabrication techniques, MEMS Sensor principles, Actuators design, Microfluidics applications, Nanotechnology fundamentals, NEMS devices & applications
Advanced Antenna Theory (Elective Group A Option)Elective Option4Radiation Principles, Array Antennas, Microstrip Antennas, MIMO Antenna Systems, Smart Antennas, Antenna Measurement Techniques
Biomedical Instrumentation (Elective Group A Option)Elective Option4Bio-potential Electrodes, Medical Transducers & Sensors, Diagnostic equipment (ECG, EEG), Therapeutic devices, Medical Imaging Systems, Biomedical Signal Processing
Optimization Techniques (Elective Group A Option)Elective Option4Linear Programming, Non-linear Programming, Integer Programming, Genetic Algorithms, Neural Network Optimization, Multi-objective Optimization

Semester 2

Subject CodeSubject NameSubject TypeCreditsKey Topics
MTC-2.1Advanced Communication SystemsCore4Digital Communication fundamentals, Wireless Communication principles, MIMO systems & diversity, OFDM techniques, Cognitive Radio, Satellite Communication Systems
MTC-2.2Embedded System DesignCore4Introduction to Embedded Systems, ARM Processor Architecture, Real Time Operating Systems (RTOS), Device Drivers development, Embedded Networking protocols, Embedded System Security
MTP-2.1Advanced Communication LabLab2MATLAB/LabVIEW experiments, Modulation/demodulation schemes, Channel coding, Wireless link simulation, Network protocols analysis
MTP-2.2Embedded System Design LabLab2Microcontroller/Processor interfacing, RTOS implementation on embedded boards, Sensor & Actuator integration, Embedded software debugging
MTC-2.3Elective-IIIElective Slot4Choice from Elective Group B, specific topics vary based on selection
MTC-2.4Elective-IVElective Slot4Choice from Elective Group B, specific topics vary based on selection
MTR-2.1Project Phase I / Mini ProjectProject3Problem identification, Literature Survey, Project Planning & scheduling, Preliminary design & analysis, Report preparation
High Speed Communication Networks (Elective Group B Option)Elective Option4Optical Networks, Asynchronous Transfer Mode (ATM), Broadband technologies, IP Routing protocols, Quality of Service (QoS) in networks
Wireless Sensor Networks (Elective Group B Option)Elective Option4WSN Network Architecture, Communication Protocols for WSN, Routing in WSN, Localization techniques, WSN Security, Applications of WSN
Nano Electronics (Elective Group B Option)Elective Option4Quantum Mechanics fundamentals, Nanomaterials & Nanostructures, Nano-devices fabrication, Spintronics, Molecular Electronics, Quantum Computing basics
Electromagnetic Interference & Compatibility (Elective Group B Option)Elective Option4EMI Sources & coupling paths, EMC principles, Shielding & Grounding techniques, Filtering in EMI/EMC, EMC Standards & Regulations, Testing for EMI/EMC
RF and Microwave Circuit Design (Elective Group B Option)Elective Option4Transmission Line Theory, S-parameters & Network Analysis, RF Amplifier Design, Oscillator Design, Mixer Design, Matching Networks
Real Time Operating Systems (Elective Group B Option)Elective Option4RTOS Concepts & Kernel, Task Management & Scheduling, Inter-process Communication (IPC), Memory Management in RTOS, Synchronization techniques, RTOS for embedded applications

Semester 3

Subject CodeSubject NameSubject TypeCreditsKey Topics
MTC-3.1Dissertation Phase IIProject10Detailed Design & Development, Implementation of proposed solution, Testing & Validation, Data Analysis & Interpretation, Mid-term project review
MTC-3.2Elective-VElective Slot4Choice from Elective Group C, specific topics vary based on selection
Soft Computing (Elective Group C Option)Elective Option4Fuzzy Logic & Systems, Neural Networks architectures, Genetic Algorithms & Optimization, Hybrid Systems (Neuro-Fuzzy), Machine Learning basics, Pattern Recognition
Mobile Computing (Elective Group C Option)Elective Option4Mobile Operating Systems, Wireless Technologies (GSM, 3G, 4G, 5G), Mobile Security challenges, Location Based Services (LBS), Mobile Application Development, Cloud Computing for mobile
Satellite Communication and Navigation Systems (Elective Group C Option)Elective Option4Orbital Mechanics & Launchers, Satellite Link Design, Multiple Access Techniques (FDMA, TDMA, CDMA), Global Positioning System (GPS), GLONASS, Galileo, BeiDou, Satellite Applications
Embedded System for IoT (Elective Group C Option)Elective Option4IoT Devices & Microcontrollers, Connectivity options (Wi-Fi, BLE, LoRa), IoT Protocols (MQTT, CoAP), Cloud Integration for IoT, Edge Computing in IoT, Security for IoT devices
Cryptography and Network Security (Elective Group C Option)Elective Option4Symmetric Key Cryptography, Asymmetric Key Cryptography, Hashing & Digital Signatures, Firewalls & Intrusion Detection Systems, Virtual Private Networks (VPN), Network Security Protocols
Wearable Electronics (Elective Group C Option)Elective Option4Wearable Sensors & Actuators, Flexible & Stretchable Electronics, Low Power Design for Wearables, Wireless Communication for Wearables, Data Processing & Analytics, Applications of Wearable Devices

Semester 4

Subject CodeSubject NameSubject TypeCreditsKey Topics
MTC-4.1Dissertation Phase IIIProject10Comprehensive Thesis Writing, Research Findings & Discussion, Presentation & Defense, Viva-Voce Examination, Contribution to knowledge
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