Research AreasDepartment: Electronics & Telecommunication Engineering
Optical Transmission and Reflection of light in Human Blood (Oximetry), Measurement of Nystagmus (Delay in eyeball movement in Mentally challenged persons), Sensory feedback from footwear of Leprosy patients.
Programmable Logic Controllers in Industrial Control, Vehicle Data Loggers (speed, distance, start time, stop time, fuel consumption, temperatures etc.), Remote Alarm Systems (Health monitoring of Radars on Mountain tops and remote areas), RFID based advertisement and billboard viewer measurement
Windmill and Solar power generation. Efficient Conversion, Transmission and Utilization of the power generated
RFID based tracking, robotic based prosthesis, clustering of needs and delivery of health services, Agricultural Applications of Microprocessors, Integrated delivery of micro irrigation, nutrients, pesticides, cheap microprocessor based farm instrumentation
Bio-inspired Robotics, MEMS, Compliant Mechanisms, Smart Actuators, Non-traditional Micro Manufacturing, Finite Element Analysis, Artificial Intelligence
Department: Mechanical Engineering
Non traditional manufacturing, specifically, Electric discharge maching (EDM)
Industrial Engineering, Lean Manufacturing, Total Quality management, Waste Minimization
Mathematical Modelling of Hydrodynamic, Transport and Environmental processes. Modelling of contaminant transport in the interface of surface and Ground water regime.
Modelling of Microwave drying of foodstuff & bagasse.
Modelling of heat & mass transfer.
Computational Fluid Dynamics, CFD application to HVAC design of residential building.
Application of sound frequencies to manage pain, reduce symptoms for patients in chemotherapy and other treatments, reduce stress, Identifying the most effective sound frequency range for the patients suffering from Parkinson's disease, hypertension and diabetes; to study the effect of various sound frequencies on the growth rate of cancer cells; To study the use of sound frequencies on the brain waves of patients suffering from Epilepsy; To study the effect of sound waves on the growth rate of medicinal plants, identify the most suitable frequency for that plant and use it for the mass production.
To grow the nano particles of different metals and study their characteristics.
To study and quantify the brain waves and establish a relation between the human emotions and the brain waves content and make use of it in NLP.
Eradication of toxic substances from waste waters.