Welcome to the Department of Electronics and Communication Engineering at Chaibasa Engineering College. The department is located in a sprawling environment with a state of art facilities and highly qualified faculty. The department works with the objective of addressing critical challenges faced by the Industry, society and the academia. Perhaps even more important is our unceasing commitment to our students, helping them to learn, grow, develop, and achieve their goals in their pursuit to excel in their professional career.
The department faculty work with excellent team spirit in different technical team like RF Electronics, Communication, Signal processing, VLSI, Embedded System, Wireless Sensor Network, Electronics Measurement which leads to key research publications and consultancy in these areas. The department strives to provide a conductive environment for the students to develop analytical and practical skills and apply them to real world problems. In well-equipped laboratories supported by different high-end simulation software, creates the learning environment more suitable for hand-on experience. This facilitates the students to face new challenges relevant to upcoming technologies. The faculty of ECE department consists of well qualified and experienced teachers with noteworthy research background. The experienced faculty from the industries and reputed institutes like IIT, NIT, Jadavpur University, Calcutta University, IIEST Shibpur, deliver their lectures presenting their best expertise and knowledge. To motivate the students the department organizes regular training in state of art software & hardware, arranges workshop, National & International Conferences periodically.
We welcome you to the Electronics and Communication Engineering Department as undergraduate student and we hope to be part of your success.
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Impart quality education to produce competent and socially responsible engineering graduates with additional motivation towards higher education.
Mission of The Department:
M1: Imbibe quality education to produce capable manpower in Electronics and Communication Engineering to serve the society.
M2: To motivate higher education in the field of Electronics and Communication Engineering with industry academia interaction.
M3: Provide an environment for team building maintaining human values and ethics.
PEO 1: To apply the fundamental knowledge along with requisite exposure gained during industry interaction to ensure professional growth in industry and higher education.
PEO 2: To solve modern engineering problems by applying the knowledge of electronics and communication engineering.
PEO 3: Instill human values, team work and social and professional ethics for building a better environment and society.
PSO 1: Ability to understand the basic concept of engineering mathematics, physics & core engineering including applications appropriate to Electronics & Communication Engineering.
PSO 2: TAbility to develop the application-oriented skill related to electronic device & circuits, communication engineering, electromagnetic, signal processing & embedded system using modern tools.
PSO 3: Ability to master the proficiency in using various software related to real life applications and also to pursue higher studies to enhance their professional knowledge.
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.
PO4: 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 need for sustainable development.
PO8: Ethics:
Apply ethical principles and commit to professional ethics and responsibilities and norms of the engineering practice.
PO9: Individual and Team Work:
Function effectively as an individual, and as a member or leader in diverse teams, and in multi disciplinary 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.
Departmental Advisory Committee
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Departmental Topper
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_ECE placement Statistics
Some Top Recruiter of ECE Department
TCS
CTS
IBM
Infosys
HCL
Tech Mahindra
Amazon
Tata Power Company Ltd.
Collabera
Tosha International
Science Café
Optra International
Global Engineering Co-Operation
Epic Research Pvt. Ltd
C-Core India Tech Solution Pvt. Ltd
Hi-Technext Engineering Pvt. Ltd.
Samvedna
BMA Wealth Creators
Bridge Group Solution
Polaris
Infosys
Hewlett Packard
Accenture
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Student Achievement
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SL NO
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NAME OF STUDENTS
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BATCH
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TRAINING CENTRE
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1
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Puja Kumari
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2017-21
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UTKALHACKS 2.0 RAVENSHAW UNIVERSITY,CUTTACK,ODISHA
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2
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Narendra Kumar
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2017-21
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RTBE,NIT DURGAPUR
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3
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Kiran Sen
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2017-21
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RTBE,NIT DURGAPUR
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4
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Nitish Kumar
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2017-21
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RTBE,NIT DURGAPUR
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5
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Ravi Shankar Kumar
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2016-20
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RTBE,NIT DURGAPUR
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6
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Deepika Oraon
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2016-20
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RTBE,NIT DURGAPUR
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7
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Priyanka Sharma
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2016-20
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RTBE,NIT DURGAPUR
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8
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Priya Kumari
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2016-20
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RTBE,NIT DURGAPUR
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9
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Kumari Vandana
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2016-20
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RTBE,NIT DURGAPUR
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10
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Mukesh Kumar Mahato
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2016-20
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RTBE,NIT DURGAPUR
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11
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Roshni Kumari
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2016-20
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RTBE,NIT DURGAPUR
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12
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Ashish Mahato
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2016-20
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RTBE,NIT DURGAPUR
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13
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Gautam Kuma4r Singh
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2016-20
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RTBE,NIT DURGAPUR
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14
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Rashmi Hembrom
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2016-20
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RTBE,NIT DURGAPUR
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15
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Neeru Kumari Tudu
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2016-20
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RTBE,NIT DURGAPUR
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16
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Manju Kumari Barda
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2016-20
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RTBE,NIT DURGAPUR
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17
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Kumar Gourav
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2016-20
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RTBE,NIT DURGAPUR
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18
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Subhashini Bharti
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2016-20
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RTBE,NIT DURGAPUR
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19
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Ranjan Kumar
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2016-20
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RTBE,NIT DURGAPUR
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20
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Aman Gupta
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2017-21
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INTERNSHIP AT NIT ROURKELA
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21
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Md Saif Khan
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2017-21
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INTERNSHIP AT NIT ROURKELA
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22
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Aditya Kumar Mishra
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2017-21
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INTERNSHIP AT NIT ROURKELA
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23
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Santosh Kumar Sah
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2017-21
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INTERNSHIP AT NIT ROURKELA
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24
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Dinesh Singh Munda
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2017-21
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INTERNSHIP AT NIT ROURKELA
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25
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Zeeshan Ahmed
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2017-21
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INTERNSHIP AT NIT ROURKELA
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26
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Shaktiman Rajwar
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2017-21
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NIT ROURKELA
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27
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Sourab Chouhan
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2017-21
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NIT ROURKELA
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28
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Shubham Sharma
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2017-21
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NIT ROURKELA
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29
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Mukesh Kumar Mahato
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2017-21
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NIT ROURKELA
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30
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Md Shahnawaz Ansari
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2017-21
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NIT ROURKELA
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31
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Kumari Shivangi Gupta
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2017-21
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NIT JAMSHEDPUR
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32
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Puja Kumari
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2017-21
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NIT JAMSHEDPUR
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33
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Bir Singh Sundi
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2017-21
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NIT JAMSHEDPUR
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34
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Md Fahim Ansari
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2017-21
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NIT JAMSHEDPUR
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35
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Narendra Kumar
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2017-21
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NIT JAMSHEDPUR
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36
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Kiran Sen
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2017-21
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STC ON WIRELESS NETWORK TECHNOLOGIES"WNT-2019"NIT ROURKELA
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37
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Niti Sinha
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2017-21
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STC ON WIRELESS NETWORK TECHNOLOGIES"WNT-2019"NIT ROURKELA
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38
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Priya Kumari
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2017-21
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STC ON WIRELESS NETWORK TECHNOLOGIES"WNT-2019"NIT ROURKELA
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39
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Kanak Lata
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2017-21
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STC ON WIRELESS NETWORK TECHNOLOGIES"WNT-2019"NIT ROURKELA
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40
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Sajid Ansari
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2017-21
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STC ON WIRELESS NETWORK TECHNOLOGIES"WNT-2019"NIT ROURKELA
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41
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Sahid Afridi
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2017-21
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STC ON WIRELESS NETWORK TECHNOLOGIES"WNT-2019"NIT ROURKELA
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42
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Rayyan Mofiz
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2017-21
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STC ON WIRELESS NETWORK TECHNOLOGIES"WNT-2019"NIT ROURKELA
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43
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Pawan Kumar Verma
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2017-21
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STC ON WIRELESS NETWORK TECHNOLOGIES"WNT-2019"NIT ROURKELA
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44
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Akash Ganga
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2017-21
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STC ON WIRELESS NETWORK TECHNOLOGIES"WNT-2019"NIT ROURKELA
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45
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Ritu Raj Pandey
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2016-20
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QUICKSOFTPRO
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46
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Ravi Shankar Kumar
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2016-20
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CENTRE OF EXCELLENCE IN MARITIME & SHIPBUILDING VISAKHAPATNAM
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47
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Sourav Kumar
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2016-20
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CENTRE OF EXCELLENCE IN MARITIME & SHIPBUILDING VISAKHAPATNAM
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48
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Deepika Oraon
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2016-20
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CENTRE OF EXCELLENCE IN MARITIME & SHIPBUILDING VISAKHAPATNAM
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49
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Kumari Vandana
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2016-20
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CENTRE OF EXCELLENCE IN MARITIME & SHIPBUILDING VISAKHAPATNAM
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50
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Priyanka Sharma
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2016-20
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CENTRE OF EXCELLENCE IN MARITIME & SHIPBUILDING VISAKHAPATNAM
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51
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Ritu Raj Pandey
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2016-20
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CENTRE OF EXCELLENCE IN MARITIME & SHIPBUILDING VISAKHAPATNAM
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52
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Kumar Gourav
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2016-20
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CENTRE OF EXCELLENCE IN MARITIME & SHIPBUILDING VISAKHAPATNAM
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53
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Md Fahim Ansari
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2017-21
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CENTRE OF EXCELLENCE IN MARITIME & SHIPBUILDING VISAKHAPATNAM
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54
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Akash Ganga
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2017-21
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CENTRE OF EXCELLENCE IN MARITIME & SHIPBUILDING VISAKHAPATNAM
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55
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Sourab Chouhan
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2016-20
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CENTRE OF EXCELLENCE IN MARITIME & SHIPBUILDING VISAKHAPATNAM
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56
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Pawan Kumar Verma
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2016-20
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CENTRE OF EXCELLENCE IN MARITIME & SHIPBUILDING VISAKHAPATNAM
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57
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Md Fahim Ansari
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2017-21
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SMART INDIA HACKATHON,2019
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58
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Kiran Sen
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2017-21
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NIT WARANGAL
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59
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Kanak Lata
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2017-21
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NIT WARANGAL
|
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60
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Gautam Kuma4r Singh
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2017-21
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NIT WARANGAL
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61
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Roshni Kumari
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2017-21
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NIT WARANGAL
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62
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Neeraj Kumar
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2017-21
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NIT WARANGAL
|
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63
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Shahid Afridi
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2017-21
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NIT WARANGAL
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64
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Rayyan Mofiz
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2017-21
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NIT WARANGAL
|
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65
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Shruti Gupta
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2017-21
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NIT WARANGAL
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66
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Niti Sinha
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2017-21
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IIT HYDERABAD
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67
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Sushila Hansdah
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2018-22
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OJASS 2019,NIT JAMSHEDPUR
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68
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Manorama Hansdah
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2018-22
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OJASS 2019,NIT JAMSHEDPUR
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69
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Raj Kumar Rana
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2018-22
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OJASS 2019,NIT JAMSHEDPUR
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70
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Jyotsna Nag
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2018-22
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OJASS 2019,NIT JAMSHEDPUR
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71
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Laxmi Kumari
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2018-22
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OJASS 2019,NIT JAMSHEDPUR
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72
|
Rishav Kumar
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2018-22
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OJASS 2019,NIT JAMSHEDPUR
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73
|
Anand Kumar
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2016-20
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NAVKRITI'17
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74
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Ankita Kumari
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2016-20
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NAVKRITI'17
|
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75
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Tathagata
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2015-19
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VOCATIONAL TRAINING AT TATA STEEL LTD.
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76
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Debsuman Dutta
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2015-19
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VOCATIONAL TRAINING AT TATA STEEL LTD.
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77
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Debsuman Dutta
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2015-19
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SANDHAAN'17
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78
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Shubham Sharma
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2017-21
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OJASS 2018,NIT JAMSHEDPUR
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79
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Priyanka Sharma
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2017-21
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OJASS 2018,NIT JAMSHEDPUR
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80
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Prity Singh
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2017-21
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OJASS 2018,NIT JAMSHEDPUR
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81
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Shruti Gupta
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2017-21
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OJASS 2018,NIT JAMSHEDPUR
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82
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Ratna Das
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2017-21
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OJASS 2018,NIT JAMSHEDPUR
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83
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Nisha Rani
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2013-17
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ROBOTRYST'2016,IIT DELHI
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Faculty Achievement
International Peered Review Journal
1.S. Chakraborty, S. K. Bera, S. C. Bera, N. Mandal, “Design of a Simple Temperature Transmitter Circuit of an Electric Heater Operated Water Bath”, IEEE Sensors Journal, vol. 18, pp. 3140 - 3151, 2018.
2.S. Chakraborty, N. Mandal, S. C. Bera, S. K. Bera, M. Chattopadhyay, “An innovative method for the measurement of liquid level of a conducting liquid”, Proc. IEEE (2017), doi: 10.1109/ICCECE.2016.8009594.
3. B. Kumar, S. K. Bera, N. Mandal, “Design and Development of an Electro-Optic Type-Flow Transmitter Using Mach–Zehnder Interferometer”, IEEE Transactions on Instrumentation and Measurement, vol. 65, pp. 1716 - 1723, 2016.
4.S. Marick, S. K. Bera, S. C. Bera, “A Modified Technique of Flow Transducer Using Bourdon Tube as Primary Sensing Element”, IEEE Sensors Journal, vol. 14, pp. 3033 - 3039, 2014.
5.S. Chakraborty, S. K. Bera, N. Mandal, S. C. Bera, “Study on Further Modification of Non-Contact Capacitance Type-Level Transducer for a Conducting Liquid”, IEEE Sensors Journal, vol. 15, pp. 6678-6688, 2015
6.Ranadip Kundu, S. Bhattacharya, K. Bhattacharya, A. Poddar, D. Roy, “Micromechanical hardness study and the effect of reverse indentation size on heattreated silver doped zinc-molybdate glass nanocomposites”, Journal of Alloys and Compounds, 770, 136-142 (2019).
7.D. Biswas, Ranadip Kundu, A. S. Das, M. Roy, D. Roy, L.S. Singh, Sanjib Bhattacharya, “Conductivity spectra of silver-phosphate glass nanocomposites: Frequency and temperature dependency”, Journal of Non-Crystalline Solids, 495, 47- 53 (2018).
8.A.S. Das, M. Roy, D. Biswas, Ranadip Kundu, A. Acharya, Debasish Roy, Sanjib Bhattachrya, “Ac Conductivity of Transition Metal Oxide doped Glassy Nanocomposite Systems: Temperature and Frequency Dependency”, Materials Research Express, 5, 095201 (2018).
9.Ranadip Kundu, Debasish Roy, Sanjib Bhattacharya, "Microstructure, electrical conductivity and modulus spectra of CdI2 doped nanocomposite-electrolytes", Physica B: Condensed Matter, 507, 107-113 (2017).
10.Ranadip Kundu, Debasish Roy, Sanjib Bhattacharya, "Study of Electrical Transport of Ag2O – CdO – MoO3 Glass-Nanocomposite-Semiconductor", ChemistrySelect, Willey Online Library, 2, 6100 – 6108 (2017).
11.A. K. Bar, K. Bhattacharya, Ranadip Kundu, D. Roy and S. Bhattacharya, “Anomalous electrical conductivity in selenite glassy nanocomposites”, Materials Chemistry and Physics, 199, 322-328 (2017).
12.Ranadip Kundu, Sanjib Bhattacharya, Debasish Roy and P.M.G. Nambissan,"Positron annihilation studies and complementary experimental characterization ofxAg2O – (1- x) (0.3 CdO – 0.7 MoO3) metal oxide glass nanocomposites", RSCAdvances, 7, 8131-8141 (2017).
13.A. K. Bar, K. Bhattacharya, Ranadip Kundu, D. Roy and S. Bhattacharya, “Electricalrelaxation and grain boundary effect in CdI2 doped glass-nanocomposites", Journal ofNon-Crystalline Solids, 452, 169–175 (2016).
14.Ranadip Kundu, Debasish Roy and Sanjib Bhattacharya, "Electrical Transport ofMixed Phased Glassy Nanocomposites", Transactions of the Indian Ceramic Society,74:1, 35-40 (2015).
15.S. Bhattacharya, Ranadip Kundu, A. S. Das and D. Roy, "Interpretation of dc and acconductivity of Ag2O – SeO2 – MoO3 glass-nanocomposite-semiconductor",Materials Science and Engineering B, 197, 51–57 (2015).
16.G. C. Mishra, A. S. Das, Ranadip Kundu, D. Roy, S. Ray, A. K. Bar and S.Bhattacharya, “Polaron Transport of Nano-CdO Embedded Glass-Semiconductor”,Journal of Advance Physics, 3, 254-257 (2014).
17.A. K. Bar, Ranadip Kundu, D. Roy, S. Bhattachrya, “Giant Hardness of Heat-Treated Glass-Nanocomposites”, Journal of Advance Physics, 3, 241-243 (2014).
18.Ranadip Kundu, D. Roy and S. Bhattacharya, "Conductivity Relaxation of ZnODoped Glassy Nanocomposites", Journal of Advance Physics, 3, 237-240 (2014).
19.A. K. Bar, D. Roy, Ranadip Kundu, M. P. F. Graca, M. A. Valente and S.Bhattacharya, "Conductivity of Cu+2 ion-conducting glassy nanocomposites",Material Science and Engineering B, 189, 21-26 (2014).
20.DebrajModak, Abhijit kundu,Moumita Mukherjee3 “Multiple-Graphene Layer based p++-n- n- - n++ device on Si/3C-SiC (100) substrate: a high sensitive visible photo-sensor”, Semiconductor and Technology
21Abhijit Kundu, Maitreyi Ray Kanjilal,Moumita Mukherjee, “Physics based Non-linear Large-Signal analysis of Multiple-Graphene Layer exotic pin (p++-n- n - n++ ) devices and ultra-fast SPST/SPDT/SPMT switches on Si/3C-SiC (100) substrates for application in THz-Communication”, Microsystem Technologies, springer, Vol.23, 2019.
22.Abhijit Kundu, Maitreyi Ray Kanjilal,Moumita Mukherjee, “Cubic Versus Hexagonal SiC vertical pin SPST/SPDT/SPMT Switches for MMW Communication Systems: A Modified Quantum Drift-Diffusion Model for Switching Characteristics Analysis” Microsystem technologies, springer, Vol.23, 2019
23.Abhijit Kundu, Maitreyi Ray Kanjilal,Moumita Mukherjee, “III-V Super-lattice SPST/SPMT pin Switches for THz Communication: - Theoretical and Experimental Feasibility Studies” Microsystem Technologies, springer, Vol.23, 2018.
24.Abhijit Kundu, Maitreyi Ray Kanjilal,Moumita Mukherjee, “Design and Characterization of Asymetrical Super-lattice Si/4H-SiC pin Photo Diode Array: A Potential Opto-Sensor for Future Applications in Bio-Medical Domain”, Microsystem Technologies , springer, Vol.23, 2018.
25.Abhijit Kundu, Maitreyi Ray Kanjilal, and Moumita Mukherjee. "Insertion Loss And Isolation of Pin Switch Based on Sic Family." J. Electron Devices, Vol. 18,pp. 1568-1574, 2013.
26. <!--[endif]-->Abhijit Kundu, Jhuma Kundu, Moumita Mukherjee, “Design and Characterize the GaN/AlGaN Asymmetrical Super-lattice Exotic pin Photo-Sensor in Visible Wavelength”, Journal of Physics through Computation, Vol.2, pp.37-40, 2019.
27.S Mitra, H Ghosh , H Saha, and Kunal Ghosh,” “Recombination Analysis of Tunnel Oxide Passivated Contact Solar Cells”, IEEE Transactions on Electron Devices, Volume: 66, Issue: 3, Pages: 1368 – 1376,2019.
28.J R Sharma, P Banerjee, S Mitra, H Ghosh, S Bose, G Das ,S Mukhopadhyay,” Potential of zinc oxide nanowhiskers as antirefection coating in crystalline silicon solar cell for cost efectiveness”,Journal of Materials Science: Materials in Electronics (2019) 30:11017–11026 https://doi.org/10.1007/s10854-019-01443-5,2019
29.S DebBarman,T Roy,” “Different Types of PWM Techniques analysis for Z-Source Inverter”, IOSR Journal of Electrical and Electronics Engineering (IOSR-JEEE) Volume 9, Issue 3 Ver. IV (May – Jun. 2014), PP 09-17.
30.P K Agrawal, S DebBarman, A Shekhawat.”Fact Devices Implementation in Improvement of Power System Stability”,SSRG International Journal of Electrical and Electronics Engineering (SSRG-IJEEE) – volume 3 Issue 5 May 2016
Conference Preceeding
1.Ranadip Kundu, P.M.G. Nambissan, “Positron Annihilation Studies and Complementary Experimental Characterization of Silver Molybdate Metal Oxide Glass Nanocomposites” 3rd Regional Science & Technology Congress Southern Region, 2018 organized by West Bengal State Science and Technology Congress.
2.Ranadip Kundu, A. K. Bar, D. Roy and S. Bhattacharya, "Electrical and mechanicalproperties of ZnO doped silver-molybdate glassnanocomposite system", InternationalConference on Condensed Matter & Applied Physics, 2015, AIP Conf. Proc. 1728,020064 (2016).
3.A. K. Bar, Ranadip Kundu, D. Roy and S. Bhattacharya, “Relaxation of Cu+2 inSelenite Glass Nanocomposites”, International Conference on Condensed Matter &Applied Physics, 2015, AIP Conf. Proc. 1728, 020124 (2016).
4.A. Kr. Bar, Ranadip Kundu, D. Roy and S. Bhattacharya, “On the MechanicalProperties of Selenite Glassnanocomposites”, International Conference onCondensed Matter & Applied Physics, 2015, AIP Conf. Proc. 1728, 020396 (2016).
5.A. K. Bar, Ranadip Kundu, D. Roy and S. Bhattacharya, The 4th InternationalConference on Advances in Materials and Material Processing, icAMMP-IV, 2016.
6.Kali Shreyo Ghosal, Nandini Bhattacharyya, Ranadip Kundu, "Structural andElectrical Properties of silver doped cadmium-molybdate glass-nanocomposites",The 4th International Conference on Advances in Materials and Material Processing,icAMMP-IV, 2016.
7.Ranadip Kundu, Arun Kr. Bar, Debasish Roy and Sanjib Bhattacharya, "Electrical transportof glass-nanocomposite ionic conductor", Proceedings of 1st International Science &Technology Congress, Page: 64-68, 2014. ISBN: 9789351072485, Elsevier Publications2014.
8.Sanjib Bhattacharya, Ranadip Kundu, Anindya Sundar Das and Debasish Roy,"Electrical Transport of Ag2O-SeO2-MoO3 glassnanocomposite-semiconductor",National Conference on Electrical, Electronics, and Computer Engineering, Page:161-163, ISBN: 978-93-833-0383-0, IEEE Kolkata Section, CALCON 2014.
9.Arun Kr. Bar, Debasish Roy, Ranadip Kundu, Sanjib Bhattachrya, “An Investigation ofNew Glass-Nanocomposites: Structural Study”, National Conference on RecentAdvancements in Mechanical Engineering, Pages: 373-378, NCRAME 2013.
10.Abhijit Kundu, Jhuma Kundu, Moumita Mukherjee, “Quantum Modified Drift-Diffusion Model of Vertical Asymmetrical Super-lattice Structure for MMW Communication”. AIP conference proceeding, Vol.1731, 2019
11.Abhijit Kundu, Maitreyi Ray Kanjilal, Arnima Das, Jhumakundu,MoumitaMukherjee .“cubic structure sic p-i-n diode as RF switch”, “Int. conf. IET”, PP. 119-121, 2013.
12.B. Datta.A.Das, A.Kundu, et.al. ` “Triple band slotted patch antenna for microwave communication.”IEEE International Advance Computing, pp.202-206,2013
13.B. Datta.A.Das, A.Kundu, et.al. ,``Twice-band irregular rectangular cut-in microstrip patch antenna for microwave communication.`` IEEE Information Communication and Embedded Systems (ICICES), pp.598-602,2013.
14.Damayanti Ghosh, Abhijit Kundu, Maitreyi Ray (Kanjilal). “Electrical Response on MESFET using WBG Semiconductor as Potential Substrate”, “ IEEE Int. Conf. on Computation and Communication Advancement (IC3A)”, pp.381-330, 2013.
15.Abhijit Kundu, Maitreyi Ray Kanjilal, and MoumitaMukherjee.``Characteristics of Si Based P-I-N Diode .``National Conference on Control, Communication & Device”, Electronics NC3D., pp.256-260, 2013.
16.Abhijit Kundu, Maitreyi Ray Kanjilal, Jhuma Kundu and Moumita Mukherjee, “III-V Nitride Based Solid State p-i-n Switch for Application in MMW Secure Communication”, “IEEE Emerging Trends in Information(ICETIC)”, “IJCA (0975-8887)”,2016
17.Abhijit Kundu, Maitreyi Ray Kanjilal, and Moumita Mukherjee ``Efficient And Cost Effective Model For An Eco-Friendly Solar Cell. ``Conference ACER.,387-392,2013.
18.Abhijit Kundu, Maitreyi Ray Kanjilal, and Moumita Mukherjee, “Design of Si/4H-SiC Based Super-lattice pin as Photo-Sensor in Non-invasive Glucose Monitoring Unit”, “CCSN, 2018.
19.S DebBarman,”Green Building Concept And Rating System: Today’s Requirement”, 29th National Convention Of Environment Engineers and National Seminar on Green Building Technology In Urban Areas-A Boon To Environment Sustainability held on 31st August-1st September,2013 organized by The Institution Of Engineers (India),Odhisa State Centre, Bhubaneswar, Odhisa.
20.S DebBarman, T Roy,” Advanced Pulse Width Modulation Technique for Z-Source Inverter”,6th IEEE India International Conference on Power Electronics held from 8th-10th December, 2014 at National Institute Of Technology Kurukshetra, India.
Book Chapter
1.Abhijit Kundu, Maitreyi Ray Kanjilal, Payel Biswas, ``Thermal Modeling of III-V WBG-Based p-i-n Switch ``Springer India, Computational Advancement in Communication Circuits and Systems, Book chapter in Electrical Engineering 335(2015), 45.
2.Abhijit Kundu, Maitreyi Ray Kanjilal,Moumita Mukherjee , “A 2D-Thermal Model for Estimation of Heat-Dissipation in SiC based p-i-n Switches Used for RF-Communication”, Frontiers in Computer, Communication and Electrical Engineering – Book chapter © 2016 Taylor & Francis Group, London, pp-183
Project
Faculty Project:
Project Name: Performance Enhancement of Quantum Cascade Detectors for Infrared and Terahertz Detection through Active Well Engineering
Project Investigator: Dr. SumitSaha, Assistant Professor, ECE Department.
Funding Amount: 19,20,000 (INR)
Funding Agency:NPIU MHRD, TEQIP Phase – III
Some Innovative Projects from ECE Department
Home Automation Using ESP 8266 Wi-Fi Module
Microcontroller Based Temperature Monitoring System Using LM35
Digital IC Tester
Temperature Based Fan Speed Control and Monitoring Using ATMEGA328P
Data Transfer Through Light Using Microcontroller
Design, Evaluation and Performance Comparison of Cell Based, Low Power Adiabatic Logic Families Using Quasi Static Energy Recovery Logic
Analytical Modellingof Double Gate MOSFET And Its Potential Distribution Using MATLAB
Automatic Sun Tracking System
Density Based Traffic Control System
Implementation if Arithmetic Logic Circuit by Reversible Logic for Ultra Low Power Application
Advanced LCD Temperature Indicator using Arduino
Remote Control Switch Circuit Working and Its Application
Arduino Based LPG Gas Leakage Detection System with Alarm & SMS Aleart
Prepaid Energy Meter
Cell Phone Jammer
Sign to Speech Conversion for Deaf and Mute People
Wire Based Accident Prevent & Detection System
Voice Controlled CAR
Quantum Well
Solar Energy Based Automatic Street Light Controller
OTP based smart locking system on IOT.
Smart knocks detecting door lock using Arduino.
Portable hybrid refrigerating system.
Bidirectional visitor counter using 8051 microcontrollers.
Car Accident location tracking using GSM, GPS, Arduino.
Smart home automation system using mobile application.
SMS biased fire alarm system with automatic water sprinkling system.
Musical water fountain
Foot step power generation.
1. Basic Electronics Lab
2. Solid State Devices Lab
3. Electronics Measurement Lab
4. Switching & Pulse Theory Lab
5. Digital Electronics & Logic Design Lab
6. Electronic Circuits Lab
7. Linear IC’s & Applications Lab
8. Electronics Instrumentation Lab
9. Communication Systems–I Lab
10. Microprocessor Theory Lab
11. Communication Systems-II Lab
12. Advance Electronic Circuits Lab
13. Communication Hardware Design Lab
14. Optical Communication Lab
15. Digital Signal Processing Lab
Laboratory Facilities
Some Innovative Projects from ECE Students:
1. Design, Evaluation and Performance Comparison of Cell Based, Low Power Adiabatic Logic Families Using Quasi Static Energy Recovery Logic
2. Home Automation Using ESP 8266 Wi-Fi Module
3. Microcontroller Based Temperature Monitoring System Using LM35
4. Digital IC Tester
5. Temperature Based Fan Speed Control and Monitoring Using ATMEGA328P
6. Data Transfer Through Light Using Microcontroller
7. Design, Evaluation and Performance Comparison of Cell Based, Low Power Adiabatic Logic Families Using Quasi Static Energy Recovery Logic
8. Analytical Modelling of Double Gate MOSFET And Its Potential Distribution Using MATLAB
9. Automatic Sun Tracking System
10. Density Based Traffic Control System
11. Implementation if Arithmetic Logic Circuit by Reversible Logic for Ultra Low Power Application
12. Advanced LCD Temperature Indicator using Arduino
13. Remote Control Switch Circuit Working and Its Application
14. Arduino Based LPG Gas Leakage Detection System with Alarm & SMS Aleart
15. Prepaid Energy Meter
16. Cell Phone Jammer
17. Sign to Speech Conversion for Deaf and Mute People
18. Wire Based Accident Prevent & Detection System
19. Voice Controlled CAR
20. Quantum Well
21. Solar Energy Based Automatic Street Light Controller
22. OTP based smart locking system on IOT.
23. Smart knocks detecting door lock using Arduino.
24. Portable hybrid refrigerating system.
25. Bidirectional visitor counter using 8051 microcontrollers.
26. Car Accident location tracking using GSM, GPS, Arduino.
27. Smart home automation system using mobile application.
28. SMS biased fire alarm system with automatic water sprinkling system.
29. Musical water fountain
30. Foot step power generation.
31. Analytical modelling of DG MOSFET & impact of SCE on its application.
