Wideband radar with heterogeneous antenna arrays

What is claimed is: 1. A radar system for reconstructing an image by computing a weighted combination of per-frequency estimates, the radar system comprising: a heterogeneous wideband antenna array apparatus; and a data processing unit connected to the heterogeneous wideband antenna array apparatus; wherein the heterogeneous wideband antenna array apparatus includes: a first sub-array comprising one or more antenna elements congruent to a first antenna element which is optimized to operate within a first frequency range; and a second sub-array comprising one or more antenna elements congruent to a second antenna element which is optimized to operate within a second frequency range; and wherein: the first frequency range is different from the second frequency range; the first frequency range and the second frequency range overlap; the first antenna element is not congruent to the second antenna element; antenna elements of the first sub-array and antenna elements of the second sub-array are interleaved such that at least one antenna element of the antenna array apparatus is surrounded by antenna elements which are not congruent to the at least one antenna element; and wherein: the data processing unit is operative to: collect a plurality of microwave responses for a plurality of combinations of transmit antenna elements and receive antenna elements of the antenna array apparatus, respectively, wherein each combination includes a transmit antenna element and a receive antenna element; compute a plurality of per-frequency estimates of a frequency-domain transfer function based on the plurality of microwave responses for the plurality of combinations of transmit antenna elements and receive antenna elements of the antenna array apparatus, wherein each per-frequency estimate is based on a measurement using a transmit antenna element and a receive antenna element of the heterogeneous wideband antenna array apparatus at a specified frequency; compute a plurality of estimated reflectivities at a plurality of three-dimensional locations, wherein each estimated reflectivity is computed based on a combination of the per-frequency estimates of the frequency-domain transfer function weighted by a phasor, wherein the phasor is a function of the transmit antenna element and the receive antenna element at the specified frequency; and reconstruct an image according to a function of the plurality of estimated reflectivities. 2. The radar system of claim 1 , wherein the first antenna element is transformal in at least one physical dimension with respect to the second antenna element, without being congruent thereto. 3. The radar system of claim 1 , wherein antenna elements of the first sub-array and antenna elements of the second sub-array are interleaved such that at least one antenna element of the first antenna sub-array is surrounded by antenna elements of the second sub-array, and at least one antenna element of the second sub-array is surrounded by antenna elements of the first sub-array. 4. The radar system of claim 1 , wherein a density of antenna elements covering the first frequency range is different from a density of antenna elements covering the second frequency range. 5. The radar system of claim 4 , wherein one of (i) the density of antenna elements operating within the first frequency range, or (ii) the density of antenna elements operating within the second frequency range is a function of the combined densities of both the antenna elements of the first sub-array and the antenna elements of the second sub-array. 6. The radar system of claim 1 , wherein the heterogeneous wideband antenna array apparatus is optimized for near-field microwave imaging. 7. The radar system of claim 1 , wherein the heterogeneous wideband antenna array apparatus is configured to be geometrically conformal to an anatomical region for examination. 8. The radar system of claim 7 , wherein the anatomical region for examination is a human breast.