B.E Programme
Undergraduate Programme
Duration
4 years
8 Semesters
Level
Undergraduate
Programme
About Programme
B.E in Electronics and Communication Engineering is an under graduate course of 4-years duration. In modern society, the scope of Electronics and Communication Engineering (ECE) is so vast that it applies in every field. The Electronics and Communication Engineering Program provides students a strong scientific/technical background and research capabilities in the design, development and manufacture of electronic devices and systems, used in a wide spectrum of applications. From household appliances to sophisticated satellite communication, electronic ignition to neural networks and signal processing chips. The program integrates academic discipline with project-based engineering applications, classroom learning theory and practical conduction in laboratories for real world experiences. The program is structured in a way to provide better opportunities in industry and increase confidence and opportunities of employment prospects. The core advantage of this field is to involve in designing and development of complex electronic devices and systems.
Quick Facts
Duration: 4 Years
Intake: 120
B.E in Electronics and Communication Engineering program is recognized by All India Council for Technical Education (AICTE).
Programme Overview
Program Educational Objectives [PEOs]
After 2/3 years of graduation, the students will have the ability to:
- Analyze, design and implement solutions in VLSI design and embedded systems and adapt to changes in technology by self/continuous learning.
- Engage in higher learning and contribute to technological innovations.
- Work with professional ethics as an individual or as a team player to realize the goals of the project or the organization.
- Work with respect for societal values and concern for environment in implementing engineering solutions.
Program Outcomes [POs]
Engineering Graduates will be able to:
- Engineering knowledge: Apply the knowledge of mathematics, science, engineering fundamentals, and an engineering specialization to the solution of complex engineering problems.
- Problem analysis: Identify, formulate, review research literature, and analyze complex engineering problems reaching substantiated conclusions using first principles of mathematics, natural sciences, and engineering sciences.
- Design/development of solutions: Design solutions for complex engineering problems and design system components or processes that meet the specified needs with appropriate consideration for the public health and safety, and the cultural, societal, and environmental considerations.
- Conduct investigations of complex problems: Use research-based knowledge and research methods including design of experiments, analysis and interpretation of data, and synthesis of the information to provide valid conclusions.
- Modern tool usage: Create, select, and apply appropriate techniques, resources, and modern engineering and IT tools including prediction and modeling to complex engineering activities with an understanding of the limitations.
- The engineer and society: Apply reasoning informed by the contextual knowledge to assess societal, health, safety, legal and cultural issues and the consequent responsibilities relevant to the professional engineering practice.
- Environment and sustainability: Understand the impact of the professional engineering solutions in societal and environmental contexts, and demonstrate the knowledge of, and need for sustainable development.
- Ethics: Apply ethical principles and commit to professional ethics and responsibilities and norms of the engineering practice.
- Individual and team work: Function effectively as an individual, and as a member or leader in diverse teams, and in multidisciplinary settings.
- Communication: Communicate effectively on complex engineering activities with the engineering community and with society at large, such as, being able to comprehend and write effective reports and design documentation, make effective presentations, and give and receive clear instructions.
- Project management and finance: Demonstrate knowledge and understanding of the engineering and management principles and apply these to one’s own work, as a member and leader in a team, to manage projects and in multidisciplinary environments.
- Life-long learning: Recognize the need for, and have the preparation and ability to engage in independent and life-long learning in the broadest context of technological change.
- The candidates should have passed Second Year Pre-University or XII standard or equivalent examination recognized by the University (with Physics and Mathematics as compulsory subjects, along with any one of the following subjects, namely, Chemistry, Bio-Technology, Computer Science, Biology and Electronics)
- For admission to II year/ III semester Bachelor Degree in Engineering/ Technology (Lateral Entry) shall be open to the candidates who are holders of a diploma or equivalent qualification as recognized by University
Electronics and Communication Engineering is unquestionably a promising growth-driven domain. With adequate knowledge and competent abilities, students can avail a wide range of job opportunities. Some of the most significant new-age career choices that students can select after their degree are Communication Engineer , Electronics Design Engineer , Desktop Support Engineer, Service Engineer, Communications Engineer. Technical Director, Network Planning Engineer and Reseach Scientist.
Why BNMIT for this course ?
The Department of Electronics and Communication Engineering, established in the year 2001 has well experienced and dedicated faculty .There are 10 Doctorates and 15 senior faculty who are having rich experience in industry, research, and academics. The faculty members execute integrated efforts to groom students in a good academic and research ambiance. The Department has well established laboratories and a research centre with hardware and software facilities for the student. Library of the college & department has a collection of books, magazines, journals, e-Journals and other useful databases. Facilities for internet browsing and e-services are also available in the library for the convenience of students. Skill Development Programmes, industrial Visits, Workshops, Seminars and Invited Talks for students are regularly organized in the department for continuous learning and updating the knowledge. The students are trained for placements right from the beginning. The placements have been excellent with several reputed companies like National Instruments, Mentor Graphics, TCS, Accenture, BOSCH, Cadence, Path Partners, Refinitiv , HP,DELL, NEC etc, visiting us for campus recruitments.
Programme Curriculum
The course is spread over the eight semesters, 1st & 2nd Semesters are common to all branches. The details of the curriculum for 3rd to 8th Semester BE/ECE is given as follows:
3rd to 8th Semester
Scheme of Teaching and Examinations
Outcome Based Education (OBE) and Choice Based Credit System
(Effective from the academic year 2018 – 19)
(CBCS)
VTU, BELAGAVI
1st Semester (Chemistry Group)
Course Code | Course |
18MAT11 | Calculus and Linear Algebra |
18CHE12 | Engineering Chemistry |
18CPS13 | C Programming for Problem Solving |
18ELN14 | Basic Electronics |
18ME15 | Elements of Mechanical Engineering |
18CHEL16 | Engineering Chemistry Laboratory |
18CPL17 | C Programming Laboratory |
18EGH18 | Technical English-I |
2nd Semester (Physics Group)
Course Code | Course |
18MAT21 | Advanced Calculus and Numerical Methods |
18PHY22 | Engineering Physics |
18ELE23 | Basic Electrical Engineering |
18CIV24 | Elements of Civil Engineering and Mechanics |
18EGDL25 | Engineering Graphics |
18PHYL26 | Engineering Physics Laboratory |
18ELEL27 | Basic Electrical Engineering Laboratory |
18EGH28 | Technical English-II |
3rd Semester
Course Code | Course |
18MAT31 | Transform Calculus, Fourier Series And Numerical Techniques |
18EC32 | Network Theory |
18EC33 | Electronic Devices |
18EC34 | Digital System Design |
18EC35 | Computer Organization & Architecture |
18EC36 | Power Electronics & Instrumentation |
18ECL37 | Electronic Devices & Instrumentation Laboratory |
18ECL38 | Digital System Design Laboratory |
18KVK39/49 | Vyavaharika Kannada/ Aadalitha Kannada |
4th Semester
Course Code | Course |
18MAT41 | Complex analysis, Probability & Statistical Methods |
18EC42 | Analog Circuits |
18EC43 | Control Systems |
18EC44 | Engineering Statistics & Linear Algebra |
18EC45 | Signals and Systems |
18EC46 | Microcontroller |
18ECL47 | Microcontroller Laboratory |
18ECL48 | Analog Circuits Laboratory |
18CPC49 | Constitution of India, Professional Ethics & Cyber Law |
18KVK39/49 | Aadalitha Kannada (Kannada for Administration) |
5th Semester
Course Code | Course | |
18ES51 | Technological Innovation Management And Entrepreneurship | |
18EC52 | Digital Signal Processing | |
18EC53 | Principles of Communication Systems | |
18EC54 | Information Theory & Coding | |
18EC55 | Electromagnetic Waves | |
18EC56 | Verilog HDL | |
18ECL57 | Digital Signal Processing Laboratory | |
18ECL58 | HDL Laboratory | |
18CIV59 | Environmental Studies | |
6th Semester
Course Code | Course |
18EC61 | Digital Communication |
18EC62 | Embedded Systems |
18EC63 | Microwave and Antenna |
18EC64X | Professional Elective-1 |
18EC65X | Open Elective- A |
18ECL66 | Embedded Systems Laboratory |
18ECL67 | Communication Laboratory |
18ECMP68 | Mini Project |
— | Internship |
Professional Elective -1 | ||
Course code under18EC64X | Course Title | |
18EC641 | Operating Systems | |
18EC642 | Artificial Neural Networks | |
18EC643 | Object Oriented Programming using C++ | |
18EC644 | Digital System Design using Verilog | |
18EC645 | Nanoelectronics | |
18EC646 | Phyton Application Programming | |
Open Elective –A | ||
18EC651 | Signal Processing | |
18EC652 | Sensors & Signal Conditioning |
7th Semester
Course Code | Course |
18EC71 | Computer Networks |
18EC72 | VLSI Design |
18EC73X | Professional Elective -2 |
18EC74X | Professional Elective-3 |
18EC75X | Open Elective- B |
18ECL76 | Computer Networks Lab |
18ECL77 | VLSI Laboratory |
18ECP78 | Project Work Phase – 1 |
— | Internship |
Professional Elective – 2 | ||
Course code under 18EC73X | Course Title | |
18EC731 | Real Time System | |
18EC732 | Satellite Communication | |
18EC733 | Digital Image Processing | |
18EC734 | Data Structures using C++ | |
18EC735 | DSP Algorithms &Architecture | |
Professional Electives – 3 | ||
Course code under 18EC74X | Course Title | |
18EC41 | IOT & Wireless Sensor Networks | |
18EC742 | Automotive Electronics | |
18EC743 | Multimedia Communication | |
18EC744 | Cryptography | |
18EC745 | Machine Learning | |
Open Elective –B | ||
18EC751 | Communication Theory | |
18EC752 | Neural Networks | |
8th Semester
Course Code | Course |
18EC81 | Wireless and Cellular Communication |
18EC82X | Professional Elective – 4 |
18ECP83 | Project Work Phase – 2 |
18ECS84 | Technical Seminar |
18ECI85 | Internship |
Professional Electives – 4 | |
Course code under 18CS82X | Course Title |
18EC821 | Network Security |
18EC822 | Micro Electro Mechanical Systems |
18EC823 | RADAR Engineering |
18EC824 | Optical Communication Networks |
18EC825 | Biomedical Signal Processing |
How to Apply ?
• Visvesvarya Technological University selects candidates for the B.E/ECE course on the basis of their performance in KCET or JEE Main entrance exams.
• Applicants are shortlisted basis their Class 10th and 12th examination performance and the score of the entrance exams as well.
• Once the results are out, Visvesvarya Technological University will conduct Counseling. Candidates are assigned seats on the basis of their ranks in the KCET examination.
• Click the link below for registration
https://www.bnmit.org/bnmit-admissions/