Profile Summery:
Vikramjit Kakati is a Research Director and Educationist with a strong background in research, project management, policy making, academic administration, cluster development, product design, construction project management, X/UI & Design audit, fund management, performance monitoring, faculty development training, and mentoring. He has a record-breaking success in delivering multiple research projects, making strong CXO-level decisions, passing patents, building new setups, and mentoring young scientists.
Kakati has a strong background in research direction, organizational leadership, public speaking, and fostering an atmosphere of research and development. He has experience in establishing a biomechanical engineering research lab, setting up two Remote Sensing & GIS labs, and building a start-up & incubation eco system. He has also worked in various industries, including Indian Railways, Flowtech Consultant & Services, and Indian Space Research Organization.
Kakati has a PhD in Design from the Indian Institute of Technology, MS in IT from Sikkim Manipal University, and a BE in Mechanical Engineering from Dibrugarh University. He has also worked in the Indian Oil Tanking industry and has published research papers on bone tissue engineering scaffolds, drones, water transport, and indigenous product development based on contextual innovation and link to market. His research projects include conceptualization, design, fabrication, and performance evaluation of a pedal-propelled domestic garbage collection vehicle, an automated elephant detection system, and an ergonomic design of a hydro pack system to carry water by women in the hilly terrain of Northeast India. The project aims to design an ergonomic hydro pack system for women in hilly terrain of Northeast India, ensuring safety and purification of water during transport. The system should be comfortable, lightweight, and ergonomic, and can withstand harsh conditions.
The project also focuses on developing an all-weather micro/small vertical take-off and landing unmanned aerial vehicle system. The project also explores the development of tissue-engineered bone scaffolds using bio printing technology. The project also focuses on conceptualizing, designing, and developing a carriage in pedal-powered domestic LPG cylinder delivery vehicle, focusing on safety, efficiency, and ease of use. The project also aims to create a foldable traffic barrier system, ensuring its structural integrity and functionality. The project has been a part of several other projects, including the construction of a tea factory in Naharbari, Sonitpur, Assam, and the establishment of a Demoria Handloom cluster.
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