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This paper presents computer simulations of Sensing-Through-the-Wall (STTW) radar for room imaging applications. The main purpose of our investigation is to validate the radar signature prediction codes used in this type of analysis, namely Xpatch and the Finite-Difference Time-Domain (FDTD). Based on the electromagnetic simulation results, we build(More)
Similar reactions of 2,6-dipicolinoylbis(N,N-diethylthiourea) (H2L(a)) with: (i) Ni(NO3)2·6H2O, (ii) a mixture of Ni(NO3)2·6H2O and AgNO3, (iii) a mixture of Ni(OAc)2·4H2O and PrCl3·7H2O and (iv) a mixture of Ni(OAc)2·4H2O and BaCl2·2H2O give the binuclear complex [Ni2(L(a))2(MeOH)(H2O)], the polymeric compound [NiAg2(L(a))2]∞, and the heterobimetallic(More)
This paper presents computer simulations of Sensing-through-the-Wall (STTW) radar for room-imaging applications. Our main focus in this study is to evaluate the impact of certain construction details, such as pipes, ducts, gutters and roof beam structure on the radar images. We use two radar signature prediction codes for this analysis, namely Xpatch and(More)
The space and time behavior of the magnetic field external to a system of moving pulsed finite conductivity conductors is determined. The moving conductor system is comprised of a continuous solid conductor in close proximity to a spatially periodic stationary conductor system that provides the source current. The relationship of the external magnetic field(More)
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