Shridevi Institute of Engineering and Technology

• Admissions For All UG & PG Courses (2024-25) Management Seats Is Now Open, • CET CODE – E-130, PGCET: MBA – B282 ,M.Tech – T872, MCA - (C603MC)

DEPARTMENT OF ELECTRONICS & COMMUNICATION ENGINEERING

The Department of Electronics and Communication was started in the year 2002 for imparting state-of-the-art education and training in the field of Electronics and  communication Engineering (ECE). The current annual intake is 45 students for Under Graduate (UG) Programme. Department also offers a Post Graduate (PG) program in VLSI Design and Embedded Systems with an intake of 13 students. To impart skill oriented learning IoT Skill lab is setup and with a view to strengthen research and development activities a Research Centre is also established under VTU.

OUR VISION

Our vision is to create technically proficient individuals who meet global standards of excellence across multiple sectors / domains.To impart excellent technical education and instill high degree of discipline to produce technically strong and dynamic engineers.

OUR MISSION

To develop the skills in students to solve the complex technological problems of modern society in the field of Electronics and Communication Engineering. To provide all possible support to promote research activities.

Dr.Aijaz Ahamed Sharief

Head of the Department

EMAIL

HOD MESSAGE

The Department of Electronics and Communication Engineering was started in the year 2002. The department thrives hard to achieve the vision of “Knowledge for excellence” and mission “To prepare highly committed and dedicated professionals ingrained in creativity and adaptability”. The department has vibrant atmosphere for the students to emphasize on fundamentals and concepts focusing on analysis and design of various applications to fulfill the needs of industry. Just like athletes, students too need a dose of motivation and inspiration from time to time.A student’s life is all about focusing on goals and achieving them with determination, discipline and hard work. Exams and tests are the challenges and hurdles that need to be overcome. Even a small note with a few words of encouragement can do wonders to someone’s will to score better and win in the race of life.

Electrical and Communication Engineering combines principles of electrical engineering with telecommunications technologies, providing students with a comprehensive understanding of both fields. Through coursework and practical projects, students learn to design, analyze, and optimize communication systems, including wireless networks, fiber optics, and satellite communications. With a focus on signal processing, data transmission, and networking protocols, graduates are equipped for careers in telecommunications, electronics, and information technology sectors.

Career opportunities in Electrical and Communication Engineering are diverse and promising. Graduates can pursue roles such as telecommunications engineer, electrical design engineer, network engineer, or systems analyst in various industries including telecommunications, electronics manufacturing, aerospace, and information technology. With the increasing demand for connectivity and advancements in communication technologies, opportunities exist in areas such as wireless communication, satellite communication, digital signal processing, and Internet of Things (IoT) development

1. Cutting-edge Curriculum: Electrical and Communication Engineering programs feature a curriculum that integrates foundational principles with the latest advancements in electrical engineering and communication technologies.

2. Hands-on Learning: Emphasis is placed on practical, hands-on learning experiences through laboratory work, projects, and internships, allowing students to apply theoretical knowledge to real-world scenarios.

3. Specialization Options: Programs offer diverse specialization tracks such as wireless communication, digital signal processing, optical communication, and networking, enabling students to tailor their education to their interests and career goals.

4. Industry Partnerships: Collaborations with industry partners provide students with opportunities for internships, co-op programs, and industry-sponsored projects, facilitating professional development and networking.

5. Research Opportunities: Students have access to cutting-edge research facilities and opportunities to engage in research projects under the guidance of faculty mentors, contributing to advancements in the field.

6. Multidisciplinary Approach: Programs encourage interdisciplinary collaboration, allowing students to gain insights from related fields such as computer science, physics, and mathematics, enhancing their problem-solving skills and creativity.

7. Professional Development: Career development services, workshops, and seminars are offered to help students enhance their soft skills, prepare for interviews, and navigate the job market effectively.

8. Global Perspective: Opportunities for international study exchanges, collaborative research projects, and exposure to global trends in electrical and communication engineering broaden students’ perspectives and cultural awareness.

9. Innovation and Entrepreneurship: Programs foster a culture of innovation and entrepreneurship, providing support for students to develop and commercialize their ideas, products, and technologies through incubators, startup competitions, and entrepreneurship programs.