About The Center
Innovation centerstrives to become a hub of research excellence in cutting edge, state of the art, and contemporary areas of national relevance. It encourages scientific exchanges amongst academia and industry within the field of RF & Microwave, VLSI, Embedded System, Communication System, Signal Processing, Machine learning and IoT. The center provides research support and consultation to the students for Industry and higher studies.
Objectives:
- To have a specific research group for promoting research-based learning.
- To equip the students with hands-on learning in the new areas of the subject.
- To organize workshops/events, for/with students in the particular domain.
Role of Faculty Members:
- To have a specific name of the lab/ research group.
- To get involved with the student from the first year onwards promoting them to join the research group.
- To get support from the established lab from different institutes or industries.
- To organize & participate in the events and competitions at intra-college or inter-college.
- To publish quality research papers involving the students.
Structure of Research And Development Lab/Research Groups
| R&D INCHARGE: PROF. (DR) RAJIV SHARMA (HOD,ECE) | ||||
| ANTENNA DESIGN | VLSI & EMBEDDED SYSTEM | COMMUNICATION & SIGNAL PROCESSING | MACHINE LEARNING AND INTERNET OF THINGS | |
| FACULTY INCHARGE | Dr. Sandeep Sharma | Prof.(Dr.) Rajiv Sharma | Prof.(Dr.) Anuradha Bhaseen | Dr Pavika Sharma |
FACULTY | Dr Megha Agarwal | Dr. Akash Rathee | Dr Ghanendra Kumar | Ms Prachi Kaushik |
| Ms Usha Sharma | Dr Dileep K Dwivedi | Dr Komal Mehta Bhagat | ||
| Ms Monika Kaushik | Ms Preeti Singh | Dr Pawan Sharma | ||
| Ms Rashmi Roges | Ms Tanima Ghosh | |||
| Mr Risheek Kumar | ||||
| Mr Jatin Gaur | ||||
Antenna Innovation And Research
Antenna design lab is involved in research work in the field of RF Systems, Electromagnetic Waves and Antenna design. Primarily research work is being done in different fields like Microstrip Antenna, IoT Antenna, MIMO Antenna, and Antennas for wireless application.
VLSI And Embedded Systems
VLSI and Embedded system group is designed to address the design problems, research, and development, and discover their solutions in the fields of ubiquitous semiconductors-based embedded applications. Right from the device which you used to get information, to the infrastructure via it is transmitted and to the cloud where the information is stored, everything has some VLSI chip embedded in it. This special group covers the aspects of the novel experiment, theory, simulation, and hardware implementation for the research in VLSI and embedded systems.
Communication Engineering And Signal Processing
The communication and signal processing Laboratory intends to include the elemental understanding of functionalities of various block-sets covered in this lab. It provides design the system and simulation exercises using various software like MATLAB and Simulink and includes experiments-based kits. Students are acquainted with the functioning of modern communication systems and how they perform in the presence of noise. So, this laboratory centralizes on training the students in both analog and digital communication/reception of signal. The students here start in the analog communication by designing the circuits of angle modulation that includes amplitude modulation, frequency modulation, phase modulation and the area of pulse techniques, faculty help them in PAM and PWM experiments. In addition to all the above, the lab consists of the fiber optic trainer, analog signal sampling kit. The other important area of signal processing laboratory is equipped with the state of art DSP kits. The tools required for code development, simulation and debugging such as MATLAB.
Machine Learning And Internet Of Things
Machine Learning has drastically revolutionized almost every field of application such as logistics, diagnostics, robotics, healthcare, security, system identification, communications, and electronic services etc. Further advancements in machine learning have led us to the area of deep learning which can generate hierarchical high-level representations from massive volumes of raw data automatically. Machine Learning and IoT direct more optimized solutions hidden in data for automated responses and improved decision making. Also, IoT promises a connection of more than 50 billion devices soon to enhance data analysis and sharing between many, otherwise independent devices with internet connectivity. It is a great platform to connect anything and everything to the internet. IoT is touching every field, from the daily life and health care of people to the areas of military, satellite communication, industries, environment monitoring, public safety, transportation, and so on. This research group aims to encourage faculty and students to collaborate with each other across disciplines to make the most of our incredible knowledge base of expertise. In this way, we hope to stretch boundaries, challenge traditional ways of thinking and innovate better solutions to problems.
