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M.Tech in Electronics and Communication Engineering

About this course

An M.Tech (Master Of Technology) In Electronics And Communication Engineering (Ece) Is A Postgraduate Degree Program That Offers Specialized Education And Training In The Field Of Electronics, Communication Systems, And Related Technologies. Here’s an Overview Of What You Can Expect From An M.Tech Program In ECE. 

Vision and Mission

Our Vision For The M.Tech Program In Electronics And Communication Engineering (Ece) Is To Be A Global Leader In Advancing Knowledge, Innovation, And Excellence In The Field, Shaping The Future Of Technology And Empowering Engineers To Make A Meaningful Impact On Society.

Our mission for you in the Master’s program in Electronics and Communication Engineering (ECE) is to empower you with the knowledge, skills, and mindset necessary to become proficient engineers, visionary leaders, and agents of positive change in the field of technology.

CAREER ASPECTS FOR ECE ENGINEERS

Career aspects for Electronics and Communication Engineering (ECE) engineers are diverse and plentiful due to the broad applicability of their skills across various industries. Here are some career paths and opportunities for ECE engineers:

  1.     Telecommunications Engineer: ECE engineers can pursue careers in the telecommunications industry, designing, implementing, and maintaining communication networks, including wired, wireless, and optical systems. They work for telecommunications companies, internet service providers, and network equipment manufacturers.
  2.     Electronics Design Engineer: ECE engineers can work in the design and development of electronic circuits and systems for applications such as consumer electronics, medical devices, automotive systems, and industrial automation. They may specialize in analog, digital, or mixed-signal circuit design.
  3.     Embedded Systems Engineer: ECE engineers can specialise in embedded systems, designing and developing software and hardware for embedded applications in devices such as microcontrollers, IoT devices, automotive electronics, and industrial control systems.
  4.     Signal Processing Engineer: ECE engineers with expertise in signal processing can work on applications such as audio and speech processing, image and video processing, biomedical signal analysis, radar systems, and wireless communication. They develop algorithms and techniques to extract information from signals and improve signal quality.
  5.     VLSI Design Engineer: ECE engineers can specialise in Very Large Scale Integration (VLSI) design, working on the design, verification, and testing of integrated circuits (ICs) and semiconductor devices. They may work for semiconductor companies, EDA (Electronic Design Automation) firms, or research institutions.
  6.     Wireless Communication Engineer: ECE engineers can focus on wireless communication technologies, designing and optimising wireless networks, protocols, and devices such as smartphones, Wi-Fi routers, and Bluetooth devices. They may work on projects related to 5G, LTE, Wi-Fi, and other wireless standards.
  7.     Optical Communication Engineer: ECE engineers can work on optical communication systems, designing and developing components and systems for transmitting and receiving optical signals over fiber optic cables. They may work on projects related to fibre optics, lasers, photonic devices, and optical networks.
  8.     Robotics Engineer: ECE engineers can contribute to the field of robotics, designing and developing hardware and software for robotic systems used in manufacturing, healthcare, aerospace, defence, and other industries. They may work on tasks such as sensor integration, control systems, and autonomous navigation.
  9.     Research and Development (R&D): ECE engineers can pursue careers in research and development, working in industry, academia, or government research labs. They contribute to advancing technology by conducting research, prototyping new products, and developing innovative solutions to complex technical challenges.
  10. Entrepreneurship: ECE engineers with entrepreneurial aspirations can start their own companies or work as freelance consultants, leveraging their technical expertise to develop innovative products or provide specialized services to clients. They may launch startups in areas such as hardware and software development, IoT solutions, or engineering consulting.

These are just a few examples of the diverse career paths available to ECE engineers. With their strong foundation in electronics, communication systems, and technology, ECE engineers are well-positioned to thrive in a wide range of industries and make significant contributions to innovation and societal advancement.

INDUSTRIE-UPS

Our institution has strong tie-ups with the big companies, and other government departments linking the students for summer and winter internship, guest lecture, company visits and placements. We have a special team which is working on the placement of students.

 

APPROVALS
  •  APPROVED FROM ALL INDIA COUNCIL FOR TECHNICAL EDUCATION, NEW DELHI.
  •   AFFILIATED FROM KURUKSHETRA UNIVERSITY, KURUKSHETRA.
PROGRAM OBJECTIVES

The objectives of an M.Tech program in Electronics and Communication Engineering (ECE) at Kurukshetra University could be structured to align with the goals of providing students with a comprehensive and rigorous education while preparing them for successful careers in the field. Here are some potential program objectives:

  • PO1 ADVANCED TECHNICAL KNOWLEDGE: Provide students with advanced knowledge and understanding of foundational and specialized topics in electronics, communication systems, signal processing, and related areas, building upon the concepts learned during their undergraduate studies.
  • PO2-RESEARCH SKILLS DEVELOPMENT: Develop students’ research skills, analytical abilities, and problem-solving capabilities through hands-on experience in conducting research, experimentation, data analysis, and the formulation of research hypotheses.
  • PO3-SPECIALISATION IN CHOSEN AREAS: Allow students to specialize in specific areas within ECE such as wireless communication, VLSI design, embedded systems, signal processing, photonics, or networking, enabling them to pursue advanced studies and research in their areas of interest.
  • PO4-INTERDISCIPLINARY LEARNING: Encourage interdisciplinary learning by offering elective courses and research opportunities that allow students to explore topics beyond traditional ECE boundaries, such as computer science, electrical engineering, biomedical engineering, and telecommunications.
  • PO5- INDUSTRY RELEVANCE: Ensure that the curriculum is aligned with industry needs, trends, and emerging technologies, providing students with the skills and knowledge required to excel in the rapidly evolving field of electronics and communication engineering.
  • PO6- PRACTICAL EXPERIENCE: Provide students with hands-on experience through laboratory work, project-based learning, internships, and industry collaborations, enabling them to apply theoretical knowledge to practical problems and gain real-world experience.
  • PO7- PROFESSIONAL DEVELOPMENT: Foster the development of professional skills such as communication, teamwork, leadership, and project management, preparing students for successful careers in industry, academia, research, or entrepreneurship.
  • PO8- ETHICAL AND SOCIAL RESPONSIBILITY: Instil in students a strong sense of ethical conduct, social responsibility, and sustainability awareness, emphasising the importance of ethical practices, environmental stewardship, and societal impact in their professional endeavours.
  • PO9- CRITICAL THINKING AND INNOVATION: Cultivate students’ critical thinking abilities, creativity, and innovation mindset, empowering them to identify and solve complex engineering problems, develop novel solutions, and contribute to technological advancements and societal challenges.
  • PO10- LIFELONG LEARNING: Promote a culture of lifelong learning and professional development, equipping students with the skills and mindset needed to adapt to changing technologies, industry trends, and global challenges throughout their careers.

These program objectives aim to provide a holistic and well-rounded educational experience for M.Tech students in ECE, preparing them to become skilled professionals, innovative researchers, and ethical leaders in the field of electronics and communication engineering.

PROGRAM SPECIFIC OUTCOMES (PSOS)
  • PSO1ADVANCED KNOWLEDGE AND SKILLS IN ECE: Graduates will demonstrate advanced knowledge and skills in core areas of electronics and COMMUNICATION engineering, including analog and digital circuit design, signal processing, communication systems, and electromagnetic theory.
  • PSO2-SPECIALIZATION PROFICIENCY: Graduates will exhibit proficiency in their chosen specialization within ECE, such as wireless communication, VLSI design, embedded systems, signal processing, photonics, or networking, through coursework, projects, and research.
  • PSO3 – RESEARCH AND DEVELOPMENT ABILITIES: Graduates will possess the ability to conduct independent research, analyze complex problems, and propose innovative solutions in the field of ECE. They will demonstrate proficiency in research methodologies, experimental design, data analysis, and technical writing.
  • PSO4 – PRACTICAL APPLICATION OF KNOWLEDGE: Graduates will be able to apply theoretical knowledge to practical problems in electronics and communication engineering, designing, simulating, prototyping, and testing electronic circuits, communication systems, and embedded applications.
  •  PSO5: PROBLEM-SOLVING AND CRITICAL THINKING SKILLS: Graduates will demonstrate strong problem-solving abilities, critical thinking skills, and analytical reasoning, enabling them to identify, analyze, and solve complex engineering problems in ECE and related disciplines.
  • PSO6: PROFESSIONAL COMMUNICATION AND COLLABORATION: Graduates will exhibit effective communication skills, both orally and in writing, and the ability to collaborate effectively in multidisciplinary teams, communicate technical concepts to diverse audiences, and work collaboratively on projects.
  • PSO7: ETHICAL AND SOCIETAL RESPONSIBILITY: Graduates will understand the ethical and societal implications of their work in ECE, adhere to professional codes of conduct, and demonstrate a commitment to ethical practices, social responsibility, and sustainability in their professional endeavors.
  • PSO8: LIFELONG LEARNING AND PROFESSIONAL DEVELOPMENT: Graduates will recognize the importance of lifelong learning and professional development, staying updated with emerging technologies, industry trends, and best practices in ECE, and actively seeking opportunities for continuous improvement and skill enhancement.
PROGRAM EDUCATIONAL OBJECTIVES

Here are some potential PEOs for an M.Tech program in ECE:

  • PEO1 –TECHNICAL COMPETENCE: Graduates of the M.Tech program in ECE will demonstrate advanced technical knowledge and skills in the field of electronics and communication engineering, enabling them to analyse, design, and implement complex systems and solutions.
  • PEO2 –SPECIALISATION PROFICIENCY: Graduates will exhibit proficiency in their chosen specialisation within ECE, such as wireless communication, VLSI design, signal processing, or embedded systems, by applying specialised knowledge and techniques to solve practical problems and challenges.
  • PEO3 –RESEARCH AND INNOVATION: Graduates will possess the ability to engage in research, innovation, and creative problem-solving in the field of ECE, contributing to the advancement of knowledge, technology development, and industry innovation.
  • PEO4 –PROFESSIONAL DEVELOPMENT: Graduates will demonstrate professional growth and advancement in their careers by acquiring leadership roles, taking on managerial responsibilities, pursuing further education or certifications, and staying updated with emerging technologies and industry trends.
  • PEO5–EFFECTIVE COMMUNICATION: Graduates will communicate effectively with technical and non-technical audiences through oral presentations, technical reports, and written documentation, facilitating collaboration, knowledge transfer, and dissemination of ideas.
  • PEO6 –ETHICAL AND SOCIAL RESPONSIBILITY: Graduates will understand the ethical and societal implications of their work in ECE, adhere to professional codes of conduct, and demonstrate integrity, responsibility, and accountability in their professional endeavours.
  • PEO7 LIFELONG LEARNING: Graduates will recognize the importance of lifelong learning and continuous professional development, staying updated with advancements in technology, industry standards, and best practices in ECE throughout their careers.
  • PEO8 LEADERSHIP AND IMPACT: Graduates will assume leadership roles, make significant contributions to their organisations and communities, and leverage their expertise in ECE to address societal challenges, promote innovation, and drive positive change in the world.

These PEOs provide a framework for assessing the success of the M.Tech program in ECE in preparing graduates for successful careers and leadership roles in the field of electronics and communication engineering. They reflect the program’s commitment to academic excellence, professional development, and societal impact.

Level
 Post Graduate
Course
Electronics and Communication Engineering
Duration
2 YEARS (AFTER B.TECH ECE ENGG.)
Eligibility
FOR 2 YEARS COURSE (AFTER B.TECH CIVIL ENGG.) Passed B. Tech in Electronics & Communication Engineering obtaining at least 45% marks (40% marks in case of candidates belonging to reserved category) in the above subjects taken together.
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