Modified Low Rank Approximation for Detection of Weak Target by Noise space Exploitation in Through Wall Imaging

Mandar K. Bivalkar; Bambam Kumar; Dharmendra Singh

doi:10.14429/dsj.69.14952

Mandar K. Bivalkar Indian Institute of Technology, Roorkee – 247 667
Bambam Kumar Indian Institute of Technology, Roorkee – 247 667
Dharmendra Singh Indian Institute of Technology, Roorkee – 247 667

DOI: https://doi.org/10.14429/dsj.69.14952

Keywords: Low-rank approximation, Noise space exploitation, Singular value decomposition, Target detection, Through wall imaging

Abstract

Low dielectric materials referred as weak targets are very difficult to detect behind the wall in through wall imaging (TWI) due to strong reflections from wall. TWI Experimental data collected for low dielectric target behind the wall and transceiver on another side of the wall. Recently several researchers are using low-rank approximation (LRA) for reduction of random noise in the various data. Explore the possibilities of using LRA for TWI data for improving the detection of low dielectric material. A novel approach using modification of LRA with exploiting the noise subspace in singular value decomposition (SVD) to detect weak target behind the wall is introduced. LRA consider data has low rank in f-x domain for noisy data, local windows are implemented in LRA approach to satisfy the principle assumptions required by the LRA algorithm itself. Decomposed TWI data in the noise space of the SVD to detect the weak target adaptively. Results for modified LRA for detection of weak target behind the wall are very encouraging over LRA.

Author Biographies

Mandar K. Bivalkar, Indian Institute of Technology, Roorkee – 247 667

Mr Bivalkar Mandar received MTech in Elecrtronics and Communication from Dr. Babasaheb Ambedkar Technological university, Lonere, Maharashtra in 2011 and pursuing PhD in Signal enhancement techniques for microwave imaging at the Indian Institute of Technology Roorkee (IIT Roorkee), Roorkee, India. His research interests include RF and microwave engineering, microwave and MMW imaging, and electromagnetic.

He developed an experimental set-up and carried out data collection and signal processing task.

Bambam Kumar, Indian Institute of Technology, Roorkee – 247 667

Dr Bambam Kumar was born in Bihar, India, received his MTech in Integrated Electronics and Circuits from Indian Institute of Technology, Delhi in 2011 and completed the PhD in hidden object detection through Microwave and MM W imaging at the Indian Institute of Technology Roorkee (IIT Roorkee), Roorkee, India. He possesses more than 6 years of experience in teaching. He has received the Young Scientist award 2016 organised by UCOST, Uttarakhand. His research interests include RF and microwave engineering, microwave and MMW imaging, and electromagnetic.

He was involved in the data collection for an experimental set-up.

Dharmendra Singh, Indian Institute of Technology, Roorkee – 247 667

Dr Dharmendra Singh, received the PhD in Electronics Engineering from IIT (BHU) Varanasi, Varanasi, India. He has 24 year of experience in teaching and research. He was a Visiting Scientist Post-Doctoral Fellow with many universities in India and abroad. He is currently a Professor with the Department of Electronics and Communication Engineering, IIT Roorkee, Roorkee, India, and a Coordinator at RailTel- IIT Roorkee Centre of Excellence in Telecom, Roorkee. His research interests include microwave remote sensing, polarimetry, interferometry, and numerical modeling, through wall imaging and stealth technology.

He has reviewed the work and given many valuable suggestions in the current study.