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M-TECH in Name Digital Communication Engineering Seats 18 at RV College of Engineering
Bengaluru, Karnataka
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About the Specialization
What is {"name": "Digital Communication Engineering", "seats": 18} at RV College of Engineering Bengaluru?
This Digital Communication Engineering program at Rashtreeya Vidyalaya College of Engineering focuses on advanced concepts in digital signal processing, wireless communication, embedded systems, and RF design. It addresses the growing demand for skilled engineers in India''''s rapidly expanding telecom and data communication sectors, emphasizing both theoretical foundations and practical applications crucial for innovation in wireless technologies and IoT.
Who Should Apply?
This program is ideal for engineering graduates, particularly from ECE, ETE, and Telecommunication backgrounds, who aspire to specialize in the cutting-edge domains of digital communication. It also suits working professionals seeking to upskill in areas like 5G, IoT, and embedded communication systems, and those looking to contribute to India''''s digital infrastructure development.
Why Choose This Course?
Graduates of this program can expect to pursue rewarding careers in R&D, design, and deployment roles in India’s leading telecom companies (e.g., Jio, Airtel), semiconductor firms (e.g., Qualcomm, Intel), and defense organizations. Entry-level salaries typically range from INR 6-10 LPA, with significant growth potential. The program aligns with certifications in advanced networking and embedded systems.
Student Success Practices
Foundation Stage
Deep Dive into Core Principles- (Semester 1-2)
Focus on mastering fundamental concepts in advanced digital communication, signal processing, and wireless systems through textbooks, NPTEL courses, and active classroom participation. This strong base is crucial for understanding advanced topics and performing well in technical interviews for core engineering roles.
Tools & Resources
NPTEL courses, Standard textbooks, Peer study groups
Career Connection
Builds a strong theoretical foundation essential for technical interviews and advanced project work.
Hands-on Lab Competence- (Semester 1-2)
Actively engage in all lab sessions for Advanced Digital Communication and Embedded Systems. Utilize MATLAB, Simulink, and ARM development boards to practically implement theoretical concepts, strengthening problem-solving skills and creating a portfolio of practical projects essential for internships.
Tools & Resources
MATLAB, Simulink, ARM development boards, LabVIEW
Career Connection
Develops practical skills highly valued by industries for R&D and product development roles.
Peer Learning and Technical Clubs- (Semester 1-2)
Form study groups to discuss complex topics and participate in department technical clubs like IEEE or IETE. This fosters collaborative learning, enhances communication skills, and provides opportunities to work on small projects beyond the curriculum, which adds significant value to resumes.
Tools & Resources
IEEE/IETE student chapters, Online forums, Collaborative project platforms
Career Connection
Enhances teamwork, networking, and soft skills critical for corporate environments.
Intermediate Stage
Elective Specialization and Mini-Projects- (Semester 2-3)
Strategically choose electives that align with career interests (e.g., RF System Design, Error Control Coding, WSN). For each elective, undertake mini-projects or simulations beyond coursework to demonstrate expertise, which prepares students for focused roles in specific communication domains.
Tools & Resources
Advanced simulation software (e.g., HFSS, NS-2/NS-3), Industry reports, Research papers
Career Connection
Develops specialized skills for niche roles in communication, signal processing, and RF industries.
Industry Internship Experience- (Semester 2-3)
Secure a mandatory internship (22MIN210 and 22MDC33) in a relevant company (e.g., telecom operators, R&D centers, IoT startups). This provides invaluable exposure to industry practices, allows application of classroom knowledge, and often leads to pre-placement offers, accelerating career entry.
Tools & Resources
RVCE Placement Cell, Internship portals (e.g., Internshala), Professional networking platforms
Career Connection
Offers real-world experience, builds professional network, and is a direct pathway to placements.
Hackathons and Technical Competitions- (Semester 2-3)
Actively participate in national and institutional hackathons, coding challenges, or hardware design competitions related to communication or embedded systems. These platforms enhance problem-solving under pressure, expose students to new technologies, and showcase practical skills to potential employers.
Tools & Resources
Hackerearth, Devfolio, IEEE Xtreme
Career Connection
Demonstrates problem-solving abilities, innovation, and teamwork under pressure, attracting recruiters.
Advanced Stage
Project-Driven Innovation- (Semester 3-4)
Dedicate significant effort to the M.Tech Project Work (Phase I & II). Choose a challenging research problem, conduct thorough literature review, implement a robust solution, and aim for publication in conferences or journals. A strong project forms the cornerstone of a competitive profile for R&D or higher studies.
Tools & Resources
Research databases (IEEE Xplore, Scopus), Project management tools, Thesis writing guides
Career Connection
Showcases research aptitude, problem-solving skills, and deep domain knowledge for R&D roles and academia.
Networking and Career Fairs- (Semester 3-4)
Actively attend campus recruitment drives, industry workshops, and alumni networking events. Prepare well-structured resumes and practice interview skills, focusing on specific job profiles in digital communication, embedded systems, or RF engineering. Leverage connections for career guidance and opportunities.
Tools & Resources
LinkedIn, RVCE Alumni Network, Mock interview platforms
Career Connection
Maximizes placement opportunities by direct engagement with potential employers and industry mentors.
Continuous Skill Upgrade- (Semester 3-4)
Stay updated with the latest advancements in digital communication, such as 5G evolution, AI/ML in communications, and new IoT protocols. Utilize online learning platforms (Coursera, edX) for specialized certifications and explore advanced tools like SDR platforms (e.g., USRP) to maintain a competitive edge in the rapidly evolving tech landscape.
Tools & Resources
Coursera, edX, Udemy, SDR platforms (USRP), Industry webinars
Career Connection
Ensures graduates remain relevant and adaptable to changing industry demands, fostering long-term career growth.
Program Structure and Curriculum
Eligibility:
- Bachelor''''s Degree in Engineering / Technology with 50% aggregate marks (45% for SC/ST/Category-I) and valid PGCET (KEA) / GATE examination score.
Duration: 2 years / 4 semesters
Credits: 86 Credits
Assessment: Internal: 50%, External: 50%
Semester-wise Curriculum Table
Semester 1
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| 22MDC11 | Advanced Digital Communication | Core | 4 | Digital Modulation Techniques, Baseband Communication, Channel Capacity and Coding, Spread Spectrum Communication, OFDM Systems, MIMO Systems |
| 22MDC12 | Advanced Digital Signal Processing | Core | 4 | Discrete Fourier Transform, Fast Fourier Transform Algorithms, FIR Filter Design, IIR Filter Design, Multi-rate Digital Signal Processing, Adaptive Filters |
| 22MDC13 | Advanced Embedded System Design | Core | 4 | Embedded Processors (ARM Cortex), Real-Time Operating Systems (RTOS), Inter-Process Communication, Device Drivers, Embedded Networking, Design Methodologies |
| 22MDC14 | Advanced Wireless Communication | Core | 4 | Wireless Channel Characteristics, Fading and Diversity, MIMO Systems, OFDM Principles, Cellular Concepts, 5G and Beyond |
| 22MDCE15 | Advanced Antenna Theory (Program Elective – 1) | Elective | 3 | Antenna Fundamentals, Radiation Mechanisms, Linear Wire Antennas, Antenna Arrays, Microstrip Antennas, Smart Antennas |
| 22MDCL16 | Advanced Digital Communication Lab | Lab | 2 | Digital Modulation/Demodulation, Error Control Coding, Spread Spectrum Techniques, OFDM Transceiver, SDR Implementation, Channel Simulation |
| 22MDCL17 | Advanced Embedded System Design Lab | Lab | 2 | ARM Microcontroller Programming, RTOS Task Management, Sensor/Actuator Interfacing, Communication Protocols (UART, SPI, I2C), Embedded System Debugging |
| 22MHS18 | Research Methodology and IPR | Core | 1 | Research Problem Identification, Literature Review, Research Design, Data Collection and Analysis, Report Writing, Intellectual Property Rights |
Semester 2
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| 22MDC21 | Error Control Coding | Core | 4 | Linear Block Codes, Cyclic Codes, BCH Codes, Reed-Solomon Codes, Convolutional Codes, Turbo Codes, LDPC Codes |
| 22MDC22 | Wireless Sensor Networks | Core | 4 | WSN Architecture, MAC Protocols, Routing Protocols, Localization Techniques, Time Synchronization, Security in WSNs |
| 22MDC23 | RF System Design | Core | 4 | RF Transceiver Architectures, Low Noise Amplifiers, RF Mixers, Voltage Controlled Oscillators, Power Amplifiers, RF Filter Design |
| 22MDCE24 | Biomedical Signal Processing (Program Elective – 2) | Elective | 3 | Origin of Bioelectric Signals, ECG, EEG, EMG Processing, Signal Averaging, Adaptive Filtering, Feature Extraction, Medical Imaging |
| 22MDCE27 | Satellite Communication (Program Elective – 3) | Elective | 3 | Satellite Orbits, Link Design, Earth Station Technology, Multiple Access Techniques, Satellite Applications, VSAT Systems |
| 22MDCL28 | Error Control Coding & WSN Lab | Lab | 2 | Block/Convolutional Encoder/Decoder, Error Detection/Correction, WSN Simulation Tools, Node Deployment, Routing Protocol Implementation |
| 22MDCL29 | RF System Design Lab | Lab | 2 | RF Component Characterization, LNA Design and Testing, Mixer Design, VCO Design, RF Filter Design, Antenna Measurements |
| 22MIN210 | Mandatory Internship | Internship | 1 | Industry Project Execution, Technical Report Writing, Presentation Skills, Professional Communication, Problem Solving, Industry Best Practices |
Semester 3
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| 22MDCI31 | Industry Driven Elective (Non-Core) | Elective | 3 | Emerging Industry Trends, Project Management, Advanced Technologies, Case Studies, Practical Problem Solving, Industry Collaboration |
| 22MDCG32.1 | Entrepreneurship (Global Elective – 1) | Elective | 3 | Entrepreneurial Mindset, Business Idea Generation, Business Plan Development, Market Research, Funding and Finance, Legal Aspects of Startups |
| 22MDC33 | Internship | Internship | 8 | Advanced Industry Project, Real-world Application Development, Data Analysis, Technical Documentation, Professional Networking, Career Exploration |
| 22MDC34 | Project Work Phase – I | Project | 4 | Problem Statement Formulation, Literature Review, Methodology Development, Preliminary System Design, Simulation and Analysis, Report Writing |
Semester 4
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| 22MDC41 | Project Work Phase – II | Project | 20 | System Implementation, Testing and Validation, Performance Analysis, Thesis Writing, Presentation and Defense, Research Publication |
