Back close

Non-Invasive Microwave Sensing 

Dept/Center/Lab: Department of Electronics & Communication Engineering

School: School of Engineering

Funded by:MeiTY
Non-Invasive Microwave Sensing 

Research Goals and Outputs 

  • Fundamental studies into electromagnetic interaction with layered media, with applications ranging from non-invasive-testing of liquids, materials to modeling of walls in through the wall imaging and ground penetrating Radars. 
  • Developed experimental prototype for liquid medium with potential application of non- 

invasive monitoring of contamination in water bodies such as Lakes and Rivers. 

  • Developed experimental prototype of Bone Mineral Density Analysis System for rural healthcare. 
  • Developed special OECW (open-ended-circular-waveguide) based sensors for liquid materials 
  • Systems Design through engineering skills in software Defined Radio, Embedded Systems Programming, RF sensor design, Machine Learning and Inverse Modeling. 

As part of this research, we have developed sensors for water-quality, ion-concentration in liquids and bone-mineral density. 

Related Projects

RF Power Power Amplifiers, Microwave Circuits and Digital Power Distortion 
RF Power Power Amplifiers, Microwave Circuits and Digital Power Distortion 
Further Development of a Software Library to Convert Orthographic Views to a 3D Model for AutoPilot3D
Further Development of a Software Library to Convert Orthographic Views to a 3D Model for AutoPilot3D
Development of Virtual Simulator for Cartesian Motion of Industrial Robot
Development of Virtual Simulator for Cartesian Motion of Industrial Robot
Integration of AMoRA (Amrita Modular Robotic Arm) with RoboAnalyzer® for Effective Robotics Education
Integration of AMoRA (Amrita Modular Robotic Arm) with RoboAnalyzer® for Effective Robotics Education
Computer-Aided Study of Numerical Methods and Graph Labelling Problems
Computer-Aided Study of Numerical Methods and Graph Labelling Problems
Admissions Apply Now