The Bachelor of Technology (B.Tech.) in Electronics & Communication Engineering (Lateral Entry) syllabus at Guru Nanak Institute of Technology (GNIT), Kolkata is designed to provide overall knowledge to the students with a strong foundation. Bachelor of Technology (B.Tech.) in Electronics & Communication Engineering (Lateral Entry) faculty at Guru Nanak Institute of Technology (GNIT) specially focus on in-depth learning to relevant subjects. At first semester syllabus of Bachelor of Technology (B.Tech.) in Electronics & Communication Engineering (Lateral Entry) at Guru Nanak Institute of Technology (GNIT), students learn the basics of programme. A strong foundation is very important for comprehensive learning. Bachelor of Technology (B.Tech.) in Electronics & Communication Engineering (Lateral Entry) syllabus at Guru Nanak Institute of Technology (GNIT), Kolkata maintains a balance between theoretical knowledge and practical knowledge.
Bachelor of Technology (B.Tech.) in Electronics & Communication Engineering (Lateral Entry) first year students at Guru Nanak Institute of Technology (GNIT) are introduced with core subjects. Then they are encouraged to explore other area for a broader perspective. Guru Nanak Institute of Technology (GNIT), Kolkata also provides practical training sessions, workshops, projects, and case studies to enhance student skills. Bachelor of Technology (B.Tech.) in Electronics & Communication Engineering (Lateral Entry) syllabus at Guru Nanak Institute of Technology (GNIT), Kolkata is also frequently updated to give industry relevant training and knowledge to students. Guru Nanak Institute of Technology (GNIT) strives to provide a nurturing environment where students can learn new skills. The hands-on training sessions at Guru Nanak Institute of Technology (GNIT) enable Bachelor of Technology (B.Tech.) in Electronics & Communication Engineering (Lateral Entry) students to apply knowledge and skills in a controlled environment and get required experience.
According to syllabus of Bachelor of Technology (B.Tech.) in Electronics & Communication Engineering (Lateral Entry) progress, students learn advanced topics and complex concepts. The Bachelor of Technology (B.Tech.) in Electronics & Communication Engineering (Lateral Entry) curriculum at Guru Nanak Institute of Technology (GNIT), Kolkata mainly focuses on analytical and critical thinking. As the Bachelor of Technology (B.Tech.) in Electronics & Communication Engineering (Lateral Entry) course unfolds, students develop several important skills that increases their employability. As per syllabus of Bachelor of Technology (B.Tech.) in Electronics & Communication Engineering (Lateral Entry) at Guru Nanak Institute of Technology (GNIT) also includes real-life projects and internship programs. It helps students critical thinking and gives them real-world experience.
Bachelor of Technology (B.Tech.) in Electronics & Communication Engineering (Lateral Entry) curriculum at Guru Nanak Institute of Technology (GNIT) includes group discussions, guest lectures, case studies, and skill development workshops to enhance the learning experience. The Bachelor of Technology (B.Tech.) in Electronics & Communication Engineering (Lateral Entry) syllabus at Guru Nanak Institute of Technology (GNIT) aims to create well-rounded professionals equipped with the necessary skills and knowledge to succeed in their chosen fields.
Additional curriculum at Guru Nanak Institute of Technology (GNIT)
Note: Given below syllabus is based on the available web sources. Please verify with the Guru Nanak Institute of Technology (GNIT), Kolkata for latest Bachelor of Technology (B.Tech.) in Electronics & Communication Engineering (Lateral Entry) curriculum.
The B.Tech. in Electronics & Communication Engineering (Lateral Entry) program offers an extensive syllabus that covers both foundational and advanced topics in the field. Students can expect to delve into subjects such as digital electronics, microprocessors, communication systems, electronic circuits, signal processing, and electromagnetic theory. The curriculum also includes practical components, with hands-on laboratory work and projects to reinforce theoretical knowledge. Advanced topics like wireless communication, VLSI design, and optical communication are covered, allowing students to specialize in areas of interest. Overall, the syllabus is designed to equip students with a comprehensive understanding of electronics and communication engineering, preparing them for diverse career opportunities in the industry.
Year 1 & 2
S.No | Subjects |
1 | Mathematics |
2 | Microprocessor |
3 | Signals |
4 | Analog Transmission |
5 | Digital Communication |
6 | Wave Progression |
7 | Analog Communication |
8 | Microwave Engineering |
9 | Satellite Communication |
10 | Digital Electronics |
Year 3
S.No | Subjects |
1 | Advanced Electronics and Communication Engineering |
2 | Sociology |
3 | Signals and Systems |
4 | Economics |
5 | Digital Transmission |
6 | Communication Management |
7 | Practical |
Year 4
S.No | Subjects |
1 | Signal Processing and Management |
2 | Electronics, measurement, and instrumentation |
3 | Project |
4 | Practical |
5 | Internship |
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