Electronics & Communications Engineering College In Karnataka

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Electronics & Communication Engineering Department

The Department of Electronics and Communication Engineering offers:

  • Undergraduate Program with an intake of 180 students.
  • Postgraduate Program in Digital Electronics & Communication, with an intake of 25 students.
  • Postgraduate Program in VLSI Design & Embedded Systems with an intake of 18 students.

The Department has highly qualified and experienced faculty. The Curricula is designed with focus on the fundamentals enabling the students to undergo Experiential, Interactive, Collaborative, Computer based and Active learning to prepare them to be independent Life-long learners.

The Department is equipped with state-of-the art laboratory facilities in the areas of Communication, Embedded Systems, Power Electronics, Signal Processing, VLSI Designand Automotive Electronics to equip students to be industry ready. The Department showcases a Center of Excellence funded by Texas Instruments, in association with STEPS Knowledge Services Pvt. Ltd., authorized Partner for Texas Instruments University Program in the thrust areas of Embedded Systems, IoT and Robotics. The Department is recognized as a Nodal center for Virtual Laboratory by MHRD.The Department has collaborated with ISSS in the MEMS Community chip activity and our students have involved in IC fabrication. Student forums like IEEE, ISTE and IEI chapters, Robotics, Aero, IoT, Medical Electronics and Embedded Systems clubs provide opportunities for students to develop technical and soft skills. The Department also has active MoUs with Industries, Universities and Government Organizations. Graduates from the department are placed in major industries, civil services and multinational corporations.

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Vision

Empowering people, Partnering in community development and achieving expertise in the field of Electronics and Communication.


Mission

To impart effective knowledge of state of the art technology in the field of Electronics and Communication that contributes to the socio-economic development and to generate technical manpower with high degree of credibility, integrity and ethical standards by providing vibrant learning environment.

  • The graduate should have effective foundation in mathematics, science as well as other relevant disciplines and a strong foundation in Electronics and Communication Engineering.
  • The graduate will inculcate effective communication skills, teamwork, lifelong learning and leadership in preparation for a successful career in industry and academia with credibility, integrity and ethics.
  • The graduate will be able to design and develop innovative system that contribute to socio-economic development.

Engineering Graduates will be able to:

  • PO1: Engineering knowledge: Apply the knowledge of mathematics, science, engineering fundamentals, and an engineering specialization to the solution of complex engineering problems.
  • PO2: 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.
  • PO3: 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.
  • P04: 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.
  • PO5: 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.
  • PO6: 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.
  • PO7: Environment and sustainability: Understand the impact of the professional engineering solutions in societal and environmental contexts, and demonstrate the knowledge of, and the need for sustainable development.
  • PO8: Ethics: Apply ethical principles and commit to professional ethics and responsibilities and norms of the engineering practice.
  • P09: Individual and team work: Function effectively as an individual, and as a member or leader in diverse teams, and in multidisciplinary settings.
  • PO10: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.
  • PO11: 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.
  • PO12: 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 student should be able to:

  • Understand the concepts and applications in the field of communication, signal processing, VLSI, embedded systems, power electronics and control systems.

Effectively apply the domain knowledge to arrive at optimum solutions to real time applications. Apply acquired skills in project management and execution to Electronics and Communication systems.

  • SEMESTER 1 & 2 - PHYSICS CYCLE
  • ENGINEERING MATHEMATICS - I/II
  • ENGINEERING PHYSICS(SEMICONDUCTOR PHYSICS )
  • ENGINEERING MECHANICS
  • BASIC ELECTRICAL ENGINEERING
  • ENGLISH & COMMUNICATION SKILLS
  • MECHANICAL ENGINEERING WORKSHOP PRACTICES
  • CONSTITUTION OF INDIA & PROFESSIONAL ETHICS
  • SEMESTER 1 & 2 - CHEMISTRY CYCLE
  • ENGINEERING MATHEMATICS - I/II
  • ENGINEERING CHEMISTRY
  • C PROGRAMMING FOR PROBLEM SOLVING
  • BASIC ELECTRONICS
  • ENVIRONMENTAL STUDIES
  • BIOLOGY FOR ENGINEERS
  • COMPUTER AIDED ENGINEERING GRAPHICS
  • SEMESTER 3
  • VECTOR CALCULUS & TRANSFORM TECHNIQUES
  • DIGITAL SYSTEMS DESIGN
  • ELECTRONIC DEVICES
  • NETWORK THEORY
  • CONTROL SYSTEMS
  • SIGNALS & SYSTEMS
  • DIGITAL SYSTEM DESIGN LAB.
  • ELECTRONIC DEVICES LAB.
  • ENHANCING SELF COMPETENCE
  • ADVANCED MATHEMATICS - I
  • SEMESTER 4
  • PROBABILITY THEORY AND NUMERICAL METHODS
  • ANALOG ELECTRONIC CIRCUITS
  • NETWORK THEORY
  • CONTROL SYSTEMS
  • DIGITAL SIGNAL PROCESSING
  • ELECTROMAGNETIC WAVE THEORY
  • ANALOG ELECTRONIC CIRCUITS LAB.
  • DIGITAL SIGNAL PROCESSING LAB.
  • ADVANCED MATHEMATICS - II
  • SEMESTER 5
  • DIGITAL COMMUNICATION
  • INFORMATION THEORY & CODING
  • VLSI CIRCUITS
  • LINEAR INTEGRATED CIRCUITS & APPLICATIONS
  • TRANSMISSION LINES & WAVEGUIDES
  • FIBER OPTICS - ELE
  • MODERN RADAR & NAVIGATIONAL AIDS - ELE
  • INTRODUCTION TO SENSORS & ACTUATORS - ELE
  • PIC & ARM MICROCONTROLLER - ELE
  • DSP PROCESSORS & ARCHITECTURE - ELE
  • OBJECT ORIENTED PROGRAMMING WITH C++ - ELE
  • COMPUTER OPERATING SYSTEMS - ELE
  • PHILOSOPHY - ELE
  • INTRODUCTION TO FRENCH LANGUAGE - ELE
  • OVERVIEW OF INDIAN CULTURE AND ARTS - ELE
  • BASIC COMMUNICATION LAB.
  • LIC & APPLICATIONS LAB.
  • EMPLOYABILITY SKILL DEVELOPMENT - I
  • SEMESTER 6
  • ANTENNAS & WAVE PROPAGATION
  • MICROWAVE DEVICES & COMMUNICATION
  • SYSTEM DESIGN USING MICROPROCESSOR/ MICROCONTROLLER
  • INFORMATION THEORY & CODING
  • VLSI CIRCUITS
  • FIBER OPTICS - ELE
  • AUTOMOTIVE ELECTRONICS - ELE
  • ADVANCED SIGNAL PROCESSING - ELE
  • MACHINE LEARNING AND ITS APPLICATIONS - ELE
  • FUZZY LOGIC - ELE
  • OBJECT ORIENTED PROGRAMMING WITH C++ - ELE
  • OBJECT ORIENTED PROGRAMMING IN JAVA - ELE
  • PHYLOSOPHY - ELE
  • INTRODUCTION TO FRENCH LANGUAGE - ELE
  • INTRODUCTION TO JAPANESE LANGUAGE - ELE
  • SATELLITE COMMUNICATION SYSTEMS - ELE
  • ANALOG AND MIXED MODE VLSI DESIGN - ELE
  • CONSUMER ELECTRONICS - ELE
  • DATABASE MANAGEMENT SYSTEM - ELE
  • INTRODUCTION TO FRENCH LANGUAGE - ELE
  • INTRODUCTION TO JAPANESE LANGUAGE - ELE
  • ADVANCED COMMUNICATION LAB.
  • SYSTEM DESIGN USING MICRO-PROCESSOR/ CONTROLLER LAB.
  • EMPLOYABILITY SKILL DEVELOPMENT- II
  • SEMESTER 7
  • COMPUTER COMMUNICATION NETWORKS
  • EMBEDDED SYSTEMS
  • WIRELESS COMMUNICATION
  • POWER ELECTRONICS
  • FIBER OPTICS - ELE
  • MODERN RADAR & NAVIGATIONAL AIDS - ELE
  • ADHOC & SENSOR NETWORKS - ELE
  • LOW POWER VLSI - ELE
  • BIOMEDICAL INSTRUMENTATION - ELE
  • MACHINE LEARNING & ITS APPLICATIONS - ELE
  • IMAGE PROCESSING - ELE
  • OBJECT ORIENTED PROGRAMMING WITH C++ - ELE
  • COMPUTER OPERATING SYSTEMS - ELE
  • CRYPTOGRAPHY - ELE
  • RF CIRCUIT DESIGN - ELE
  • HIGH PERFORMANCE COMMUNICATION NETWORKS - ELE
  • OPTICAL COMMUNICATION & NETWORKS - ELE
  • INTRODUCTION TO SENSORS & ACTUATORS - ELE
  • PIC & ARM MICROCONTROLLER - ELE
  • DSP PROCESSORS & ARCHITECTURE - ELE
  • PATTERN RECOGNITION - ELE
  • INTRODUCTION TO JAPANESE LANGUAGE - ELE
  • INTRODUCTION TO JAPANESE LANGUAGE - ELE
  • PHILOSOPHY - ELE
  • PHILOSOPHY - ELE
  • VLSI LAB.
  • SEMINAR
  • PROJECT - PHASE I
  • SEMESTER 8
  • EMBEDDED SYSTEMS
  • COMPUTER COMMUNICATION NETWORKS
  • SPREAD SPECTRUM COMMUNICATION - ELE
  • MULTIMEDIA COMMUNICATIONS - ELE
  • AUTOMATION USING SCRIPTING LANGUAGE - ELE
  • BIOMEDICAL SIGNAL PROCESSING - ELE
  • MACHINE LEARNING AND ITS APPLICATIONS - ELE
  • OBJECT ORIENTED PROGRAMMING IN JAVA - ELE
  • PRINCIPLES OF PHYSICAL EDUCATION - ELE
  • OVERVIEW OF INDIAN CULTURE AND ARTS - ELE
  • INTRODUCTION TO FRENCH LANGUAGE - ELE
  • PHILOSOPHY - ELE
  • INTRODUCTION TO JAPANESE LANGUAGE - ELE
  • RF CIRCUIT DESIGN - ELE
  • SATELLITE COMMUNICATION SYSTEMS - ELE
  • ADVANCED DIGITAL LOGIC VERIFICATION - ELE
  • ARTIFICIAL INTELLIGENCE - ELE
  • REAL TIME OPERATING SYSTEMS - ELE
  • BIG DATA ANALYTICS - ELE
  • FINANCE MANAGEMENT - ELE
  • PRINCIPLES OF PHYSICAL EDUCATION - ELE
  • OVERVIEW OF INDIAN CULTURE AND ARTS - ELE
  • POWER ELECTRONICS LAB.
  • PROJECT - PHASE II
  • INTERNSHIP
  • OPEN ELECTIVE
  • GRAPH THEORY - ELE
  • MATHEMATICAL FOUNDATIONS OF ML - ELE
  • INTELLECTUAL PROPERTY RIGHTS - ELE
  • NANO TECHNOLOGY - ELE
  • ENVIRONMENTAL IMPACT ASSESSMENT - ELE
  • INDUSTRIAL POLLUTION CONTROL - ELE
  • NON-CONVENTIONAL ENERGY SYSTEMS - ELE
  • MODERN CONTROL THEORY - ELE
  • INFORMATION & ELECTRONIC COMMUNICATION TECHNOLOGY
  • ROBOTICS - ELE
  • OBJECT ORIENTED PROG. WITH C++ - ELE
  • ESSENTIALS OF INFORMATION TECHNOLOGY - ELE
  • OPTO ELECTRONIC DEVICES - ELE
  • CHEMISTRY OF NATURAL PRODUCTS - ELE
  • PROFESSIONAL & COGNITIVE COMMUNIQUE - ELE
  • OPERATIONS MANAGEMENT AND ENTREPRENEURSHIP - ELE
  • INTRODUCTION TO GEOINFORMATICS - ELE
  • CORROSION SCIENCE - ELE
  • HUMAN RESOURCE MANAGEMENT - ELE
  • COMPUTATIONAL FLUID DYNAMICS - ELE
  • LINGUISTICS AND LANGUAGE TECHNOLOGY - ELE
  • INTRODUCTION TO PYTHON PROGRAMMING - ELE
  • INTRODUCTION TO ARTIFICIAL NEURAL NETWORK - ELE
  • BIOFUEL ENGINEERING - ELE
  • E-WASTE MANAGEMENT - ELE
  • SOLID WASTE MANAGEMENT - ELE
  • NUMBER THEORY - ELE
  • CLOUD INFRASTRUCTURE & SERVICES - ELE

Duration : 4 years (8 Semesters)

Intake : 180 Students

Skill Development

Sl.No. Name of the Conference Dates Funds Received
1 International Conference On “VLSI, SIGNAL PROCESSING,POWER SYSTEMS ILLUMINATION & LIGHTING CONTROL, COMMUNICATION AND EMBEDDED SYSTEMS” 23-24 May 2019 ISRO under RESPOND Scheme
2 International Conference On “Emerging Trends in Engineering” 14-15 May 2018 Nil
3 International Conference On “Emerging Trends in Engineering” 12 May 2017 Nil
4 National Conference On “Emerging Trends in Wireless Communication and Signal Processing” 17-18 March 2017 ISRO under RESPOND Scheme
5 International Conference On “Emerging Trends in Engineering” 12-13 May 2016 TEQIP
Sl.No. Name of the workshop Dates Funds Received
1 Latex for documentation 25-26 November 2019 Nil
2 Embedded System Design & IOT Design 22-24 october 2018 Nil
Sl.No. Name of FDP Dates Funds Received
1 Fundamentals of Network Simulations Using NS3 11-12 February 2019 Nil
2 Advanced Topics in Machine Learning & Applications in Engineering & Technology 26-28 October 2018 Nil
3 Embedded Systems for Communication Applications 19-23 June 2018 VGST Sponsored
4 One day FDP on Artificial intelligence/Machine Learning/Deep Learning 6 April 2018 Nil
5 Machine Learning and its Applications in Engineering & Technology 2-6 January 2018 ISRO under RESPOND Scheme & Syndicate Bank

During 2017-18

Sl.No. Date Title of the Presentation Resource Person
1 18 August 2017 Opportunities for Higher Studies and Career Options in VLSI Mr. Rakesh K K , Alumnus of NMAMIT
2 23 August 2017 Space Technology & Chandrayaana Mission Dr. Ananth A G, Professor Department of E & C, NMAMIT
3 28 August 2017 Concepts of Integral & other Transforms Dr. S . Narayana Iyer, Adjunct Professor, NMAMIT
4 30 August 2017 Upward Directed Manipulator on an Aerial Robot for High Altitude Application Mr. Hannibal Paul Alumnus of NMAMIT
5 12 September 2017 Digital Filter Design Dr. S . Narayana Iyer, Adjunct Professor, NMAMIT
6 18 September 2017 Signals & their Convolutions Dr. S . Narayana Iyer, Adjunct Professor, NMAMIT
7 03 October 2017 DSP Applications in Embedded Systems Dr. U .C. Niranjan , Director Research & Training, MDN Labs, Manipal
8 07 October 2017 Problem Solving Approach & Circuit Debugging in Circuit Oriented Laboratories Mr. Basti Bharath Shenoy Research Scholar, NITK Surathkal
9 25 October 2017 MEMS, MEMS Sensors for Aerospace Application & its Spin-offs Prof. Manjunath Nayak Emeritus professor, Centre for Nano Science and Engineering Indian Institute of Science Bangalore
10 08 November 2017 Global Navigation Satellite System ISRO Missions IRNSS/NavIC and GNSS Reflector try, a New Challenge in Remote Sensing Dr. Raju Garudachar, Ex ISRO project Director
11 22 November 2017 Simple Method for Complex Computation Dr. S . Narayana Iyer, Adjunct Professor, NMAMIT
12 31 January 2018 Image Processing and Geospatial Technology using Space Inputs Dr. P. G . Diwakar, Scientific Secretary, ISRO Bangalore
13 02 February 2018 Recent Trends in Image Processing Dr. Jharna Majumdhar, Dean (R & D), NMIT, Bangalore
14 18 April 2018 VLSI Trends, Market Demands and Expectations Dr. K.V. Kumara Swamy, Associate Vice President Trident Tech. Labs, Bangalore

During 2018-19

Sl.No. Date Title of the Presentation Resource Person
1 07 August 2018 Research Avenues in Ritsumeikan University Dr. Takeshi Kumaki, Professor Ritsumeikan University, Japan
2 29 August 2018 Teaching and Learning Communication Engineering Concepts Using Simulink and SDR Dr. Prashanth Kumar H Assistant professor, NITK Surathkal
3 22 September 2018 Ethernet in Cars Mr. Oswald Sunil Mendonca Senior Architect NXP Semiconductors, Bangalore
4 29 March 2019 Introduction to System on chip and system Verilog Based Verification Mr. Vardhana M, Design Engineer, NXP Semiconductors Bangalore

During 2019-20

Sl.No. Date Title of the Presentation Resource Person
1 21 August 2019 In-campus micro student start-up venture, Athr V-Ed and its activities Mr. Goutham Naik, CEO Infinity Drones Airmydus Innovations Pvt. Ltd., Udupi
2 20 September 2019 Introduction to LabVIEW and its Applications Mr. Visweswaran Jagadeesan Territory Manager-Academics South, National Instruments
3 25 September 2019 Artificial Intelligence/ Machine Learning and its Applications Mr. Uday P, Platform Archtect ANZ operations and Technology Bengaluru, Mr. Ravi Harsha Verification Lead Qualcomm Bengaluru
4 9 October 2019 Microwave Photonics, Integrated Optics, 5G Networks Internships and Projects Dr. T . Srinivas,Associate professor Department of E & C, IISc, Bengaluru, Dr. Gopal Hegde, Nanophotonics Technology IISc, Bengaluru, Dr. Manideep Singh Assistant professor, Department of E & C , NITK Surathkal Dr. Sandeep Assistant professor, Department of E & C , NITK
5 23 October 2019 Recent Advancements in Machine Learning Mr. Abhishek Appaji, Assistant professor BMSCE, Bengaluru

Facilities

Laboratories

The department has well-equipped state of the art Laboratories

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Major Equipment

AFO & Function Generator, ARM Kit, Auto Transformer

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Computers and Software

To cater to the needs of teaching learning process, the department consists of

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