Abstract :
Conformal arrays offer a maximal sensor surface area for a given platform which in turn provides larger array aperture and array gain. When considering such an antenna for an airborne radar, the classical requirements for an electronically scanned antenna pattern remain, such as low sidelobe level and low cross polarization level for both sum and difference beams. This paper presents an iterative full polarimetric least-square synthesis technique for the optimization of the element excitations of an active conformal array antenna. The radiating elements are assumed to be dual polarized. Independent amplitude and phase controls are available to perform the power pattern synthesis, justifying the term of full polarimetric. For an array in its receive mode, the proposed method considers both the co-polarization and cross-polarization components of the antenna pattern, making possible further array processing such as monopulse estimation. A few synthesis examples are presented for a paraboloidal array, for the sum and difference channels
Keywords :
active antenna arrays; airborne radar; aircraft antennas; antenna radiation patterns; conformal antennas; electromagnetic wave polarisation; iterative methods; least squares approximations; optimisation; phase control; radar antennas; receiving antennas; active conformal array; airborne radar antenna; amplitude control; array aperture; array gain; co-polarization; cross polarization level; difference beam; electronically scanned antenna pattern; element excitations; iterative least-square synthesis; monopulse estimation; optimization; paraboloidal array; phase control; polarimetric pattern synthesis; power pattern synthesis; receiving antenna; sensor surface area; sidelobe level; sum beam; Airborne radar; Antenna accessories; Antenna arrays; Apertures; Array signal processing; Phase control; Polarization; Radar antennas; Receiving antennas; Sensor arrays;
