Centre for Advanced Wireless Integrated Technology (CAWIT)
About Centre for Advanced Wireless Integrated Technology (CAWIT)
The Centre for Advanced Wireless Integrated Technology (CAWIT) is a pioneering research hub dedicated to enhancing the performance, efficiency, and intelligence of next-generation wireless communication systems, micro-electromechanical systems (MEMS), and nanosensors. With the rapid global deployment of 5G and emerging 6G technologies, CAWIT addresses critical challenges in dynamic spectrum sharing, interference management, resource scheduling, and quality of service optimization. The Centre integrates interdisciplinary expertise to develop sustainable, secure, and intelligent communication solutions that advance societal progress and support digital transformation.
Vision
To be a centre in driving advanced research in computational sciences.To promote computational modeling as a core discipline among students, faculty, and researchers.
Mission
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Conduct high-impact research in wireless communication, networking, MEMS, nanosensors, and emerging domains such as 5G/6G, IoT, zero-touch networks, edge computing, and AI-driven systems.
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Foster interdisciplinary collaboration among academia, industry, and government to address real-world communication challenges.
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Provide state-of-the-art facilities and a research-driven environment for scholars, innovators, and technologists.
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Develop sustainable, secure, and intelligent communication architectures that benefit society.
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• Disseminate knowledge through publications, patents, workshops, and training programs to nurture future-ready professionals.
Specific Objectives
- Advance research in 5G, 6G, mmWave, Massive MIMO, cognitive radio, MEMS, and nanosensors to improve communication efficiency and reliability.
- Promote innovation in information technologies by leveraging AI and machine learning for real-time processing and smart decision-making.
- Establish strong partnerships with industries and academic institutions for collaborative R&D and commercialization of outcomes.
- Design and prototype energy-efficient, low-latency, and secure communication architectures for modern digital ecosystems.
- Train researchers, engineers, and students through hands-on projects, workshops, seminars.
- Align research initiatives with national missions such as Digital India, Smart Cities, and Make in India, while addressing global connectivity and inclusion challenges.
Core Research Areas
- 5G and Beyond (6G) Wireless Communication)
- Energy-Efficient 5G (Green 5G)
- Internet of Things (IoT) and Industrial IoT (IIoT)
- Edge and Fog Computing
- Artificial Intelligence and Machine Learning for Wireless Networks
- Cognitive Radio and Dynamic Spectrum Access
- Secure and Resilient Communication Systems
- Wireless Sensor Networks and Embedded Systems
- Spectrum Management and Channel Allocation
- Nanosensors and Nano-enabled Sensing Systems Integrated with Machine Learning
Research
- Centre for Research
- Centre for Advanced Wireless Integrated Technology (CAWIT)
- Centre for Artificial Intelligence
- Centre for Sustainable Materials and Surface Metamorphosis (CSMSM)
- Centre for Advanced Multidisciplinary Research and Innovation – CAMRI
- Centre for Applied Nanomaterials
- Center for Biomedical Engineering and Research (CBER)
- Centre for Nonlinear Systems(CNS)
- Centre for Material Research (CMR)
- Centre for Perpetual Mechanics
- Centre for Computational Modeling (CCM)
- Area of Research
- Research Supervisors
- Research Supervisors-Mech
- Research Supervisors-BME
- Research Supervisors-Civil
- Research Supervisors-EEE
- Research Supervisors-ECE
- Research Supervisors-CSE
- Research Supervisors-AI & DS
- Research Supervisors-Mechatronics
- Research Supervisors-CSBS
- Research Supervisors-IT
- Research Supervisors-S and H
- Research Supervisors-Cybersecurity
- Research Supervisors-AI & ML
- Research Patents
- Future Plans
- Research Publications
- New Products / Process Developed
