Patent ID: 7928894
Filing Date: 2011-04-19
Classification: G01S,Y02A

Abstract:
1. A radar system for illuminating a target, comprising: a first array of antenna elements, said first array of antenna elements including at least one guided-field input-output port, said first array of antenna elements being for transducing electromagnetic fields of a first polarization; a second array of antenna elements, said second array of antenna elements including at least one guided-wave input-output port, said second array of antenna elements being for transducing electromagnetic fields of a second polarization, orthogonal to said first polarization; a source of radio-frequency energy at a frequency related to a radar transmit frequency; a source of first and second mutually orthogonal coding waveforms; a convolver coupled to said source of radio-frequency energy and to said source of mutually orthogonal coding waveforms, for convolving said radio-frequency energy with said first and second mutually orthogonal coding waveforms, to thereby generate first and second modulated radio-frequency energy with first and second mutually orthogonal modulations, respectively; a first transmit-receive arrangement coupled to said input-output port of said first array of antenna elements and to said convolver, for, in a transmit operating mode, applying said first modulated radio-frequency energy to said input-output port of said first array of antenna elements for transduction into unguided waves of said first polarization, and for, in a receive operating mode, receiving guided waves transduced by said first array of antenna elements; a second transmit-receive arrangement coupled to said input-output port of said second array of antenna elements and to said convolver, for, in a transmit operating mode, applying said second modulated radio-frequency energy to said input-output port of said second array of antenna elements for transduction into unguided waves of said second polarization, and for, in a receive operating mode, receiving guided waves transduced by said second array of antenna elements; a deconvolver comprising first and second delay elements coupled to said source of first and second mutually orthogonal coding waveforms for delaying said first and second mutually orthogonal coding waveforms, respectively, by a selected amount, to thereby generate first and second delayed mutually orthogonal signals, said deconvolver also including first, second, third, and fourth multipliers, each of said first and second multipliers being coupled to receive said first delayed mutually orthogonal signals, and each of said third and fourth multipliers being coupled to receive said second delayed mutually orthogonal signals, said first and third multipliers also being coupled to said first transmit-receive arrangement for, in said receive mode of operation, receiving guided electromagnetic signals originating from said first array of antenna elements, for thereby generating first and third components of received signals, said second and fourth multipliers being coupled to said second transmit-receive arrangement, for, in said receive mode of operation, receiving guided electromagnetic signals originating from said second array of antenna elements, for thereby generating second and fourth components of received signals; and a processor coupled to receive said first, second, third, and fourth components of received signals, for determining the polarimetric ratio (differential reflectivity) of the illuminated target.