Course Overview
The Electronics & Telecommunication Engineering program emphasizes the design and implementation of wireless communication systems. Students gain expertise in 4G/5G technologies, real-time AI and ML applications, and performance evaluation techniques for image segmentation and signal processing. Research projects focus on solving real-world challenges in wireless networks and communication technologies, ensuring that graduates are ready to lead in industries focused on telecommunications, automation, and embedded systems.
Dr. Rajkumar L Biradar
M.Tech ,Ph.D; Professor & HOD ETE
Program Curriculum
Discover the pivotal moments that have shaped the institution’s growth, from its foundational years to its emergence as a leading engineering college.
Why Choose GNITS For B.Tech
Specialized Facilities
Equipped with advanced laboratories like the Advanced Telecommunications Laboratory and Wireless Sensor Networks Laboratory, the department provides cutting-edge facilities for practical learning and research.
Integrated Curriculum
The program combines Electronics, Communications, and Computer Engineering, preparing students in both hardware and software co-design, and includes training in modern technologies such as IoT and AI.
Research and Development Focus
The department’s significant research output, including 100 research papers and multiple Ph.D. completions, highlights its emphasis on advancing knowledge and technology in the field.
Outcome Based Education
- Graduates will excel in professional careers in Industry and academics that fulfill the needs of Information and Communication Technology (ICT)
- Graduates will be able to work with advanced technologies relevant to Electronics and Telematics Engineering.
- Graduates will be able to work in diversified teams of multidisciplinary environment to gain engineering breadth.
- Graduates will exhibit all-round education that includes communication skills, ability to work well in a team, an awareness of ethical values and to engage in lifelong learning.
- Ability to apply the knowledge of mathematics, science, electronics and communication to conceptualize solutions to complex engineering problems.
- Ability to Identify, formulate and analyze in Engineering domains using first principles of basic sciences and engineering sciences.
- Ability to design and realize solutions for complex engineering problems with applicable considerations.
- Ability to support investigations of Research based knowledge including literature survey, design of experiments, data analysis and data interpretation leading to valid conclusions.
- Ability to choose modern Engineering tools and resources for Electronics & communication engineering problems and their applications
- Ability to identify and assess societal, safety and legal issues using contextual knowledge and develop potential to assume consequent responsibilities during engineering practice.
- Ability to recognize the impact of electronics and telematics engineering domain in societal and environmental contexts and demonstrate knowledge and need for sustainable development.
- Ability to apply ethical principles and practice professional ethics.
- Ability to function effectively either as an individual or as a member/leader within diversified and multidisciplinary teams.
- Ability to communicate on engineering activities understandably, among stake holders and society at large through effective reports, design documentation and effective presentations.
- Ability to demonstrate the knowledge of engineering and apply project management principles to manage projects in multidisciplinary environments as a member and leader in a team.
- Ability to identify and engage in self-learning in the context of technological changes.
- Graduates will be able to analyze and design telecommunication networks with applicable consideration.
- Graduates will gain technical knowledge with necessary aptitude and soft skills to work in the ICT industry.
Career Path
Discover the pivotal moments that have shaped the institution’s growth, from its foundational years to its emergence as a leading engineering college.
- Network Engineer
- Wireless Communications Engineer
- IoT Systems Developer
- Embedded Systems Engineer
- Telecommunications Analyst
- Project Manager (Telecommunications)
Our Impeccable Faculty
Discover the pivotal moments that have shaped the institution’s growth, from its foundational years to its emergence as a leading engineering college.
Infrastructure
Achievements and Extras
GNITS excels in academics, top placements, and pioneering research, with students and faculty earning national and international recognition. Vibrant extracurriculars further enrich campus life.
Department Achievements
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Department Incubation Center
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Industry Institute Interactions
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