论文信息 - Spectral characteristics of human and indoor clutter for through the wall sensing

Spectral characteristics of human and indoor clutter for through the wall sensing

This paper investigates the exploitation of the spectral properties of human targets and indoor clutter for sensing through the wall (STTW) applications. The paper focuses on analysis and comparison between human targets and that of common indoor clutter for STTW by comparing modeling results with that of measured data. The characterization of spectral properties for targets and clutter are accomplished through two approaches. The first approach utilizes finite difference time domain (FDTD) techniques to examine the radar cross section (RCS) of humans and indoor clutter objects by using different types of computer models. FDTD allows for the spectral characteristics to be acquired over a wide range of frequencies, polarizations, and aspect angles. The second approach makes use of calibrated RCS calculations using network analyzer measurements to characterize human RCS. We compare and contrast the RCS responses for analysis and use in STTW.

Ram M. Narayanan | Travis D. Bufler | Traian Dogaru | Erik H. Lenzing

[1] C. Le,et al. Validation of Xpatch Computer Models for Human Body Radar Signature , 2008 .

[2] S. Pisa,et al. Radar cross section measurements of the human body for UWB radar applications , 2012, 2012 IEEE International Instrumentation and Measurement Technology Conference Proceedings.

[3] Leena Ukkonen,et al. Passive UHF RFID in Paper Industry: Challenges, Benefits and the Application Environment , 2009, IEEE Transactions on Automation Science and Engineering.

[4] C. Gabriel. Compilation of the Dielectric Properties of Body Tissues at RF and Microwave Frequencies. , 1996 .

[5] C. Le,et al. Computer Models of the Human Body Signature for Sensing Through the Wall Radar Applications , 2007 .

[6] N. Yamada. Radar Cross Section for Pedestrian in 76 GHz Band Naoyuiki , 2004 .

[7] C. Le,et al. Numerical Modeling of the Airborne Radar Signature of Dismount Personnel in the UHF-, L-, Ku-, and Ka-Bands , 2007 .

[8] Calvin Le,et al. Time-Frequency Analysis of a Moving Human Doppler Signature , 2009 .

[9] Getachew Kirose,et al. Study of the human body radar signature variability based on computer models , 2010, Defense + Commercial Sensing.