1. Design of Low power novel bi-stable RF-MEMS based energy harvester for Industrial Internet of Things (IIOT) (10/2020 - 02/2021)

In this project, we have carried through analysis and presented a practical solution to the practical energy harvester in the real-time environment. We have presented a novel RF- MEMS-based Bi-morph clamped switch by combing features of RF and MEMS technology

2. Optimized MEMS Circular Membrane Resonators for Mechanical Energy Harvesting and Sensing for IoT Application (07/2020 - 10/2020)

We have presented variants of circular membrane-type energy harvester and sensing solutions and their possibility of powering standalone condition monitoring IoT nodes. Three different structures were analyzed for resonant frequency, frequency response amplitude, stress distribution, and output power.

3. Design of Brain Wave Control Home Automation (01/2018 - 06/2018)

Successfully Designed a Thermal torch that could run using Human Body Heat. The project was sponsored by the device innovation Center at the Islamic University of Science & Technology.

4. Design of Thermal Torch (01/2016 - 03/2016)

Successfully Designed a Thermal torch that could run using Human Body Heat. The project was sponsored by the device innovation Centre at the Islamic University of Science & Technology.