Abstract
Conference Title: 2014 XXXIth URSI General Assembly and Scientific Symposium (URSI GASS) Conference Start Date: 2014, Aug. 16 Conference End Date: 2014, Aug. 23 Conference Location: Beijing, China In this paper, we discuss some strategies for improving the performance of imaging lenses by achieving enhanced resolution from the lenses that may have been designed by using Transformation Optics (TO), Field Transformation (FT) or Ray Optics (RO). Our focus is on using Signal Processing techniques to realize improved performance, rather than employing active materials, restoring evanescent wave contribution, or using other similar techniques that have been proposed in the past [1-8]. Some of the existing approaches in the antenna area are based on the use of phase-conjugating lenses consisting of a double-sided 2D assembly of straight wire elements; metallic strip gratings which perform evanescent-to-propagating wave conversion; sub-wavelength array of planar monopoles and split-ring resonators loaded with varactor diodes, etc. Here we propose to examine some alternative approaches that are currently being used by the radar community for performance enhancement of radar imaging systems, and to see if they can be utilized for the problem at hand, namely improving the resolution of microwave lenses. The paper will begin with a review of the existing technique, and then propose a novel and general purpose signal processing approach for enhancing the image resolution. The details of this approach, whose first step is to construct a matrix to be used for processing the measured field distribution, say in the focal plane of the lens, to achieve improved resolution by being able to resolve two test objects located in the vicinity of each other. Illustrative examples showing improved image resolution both in the transverse and longitudinal directions will be included in the paper. The schematic of the proposed scheme is illustrated in Fig. 1. The objects may be located either in a transverse plane or along the longitudinal axis. It is evident from the results presented above that signal processing can enhance the resolution of the images generated by a PC lens quite considerably.