We deal with the development of a computationally effective approach for the synthesis of equivalently tapered, aperiodic linear arrays, i.e. arrays matching the requirements on the power pattern by acting only on the element positions and excitation phases. The computational effectiveness of the algorithm is reached by the development of a parallel Non Uniform Fast Fourier Transform (NUFFT) routine running on a Graphics Processing Units (GPU). The numerical results point out the computational and synthesis performance of the technique. For an array of 3000 elements, the parallel approach has resulted to be about 10 times faster than the sequential one
© 1963-2012 IEEE. A virtual active element pattern (AEP) expansion method is presented in which each...
A new approach for the synthesis of thinned uniformly spaced linear arrays featuring a minimum sidel...
© 2002-2011 IEEE. A novel method incorporating the least-squares active element pattern expansion (L...
We deal with the development of a computationally effective approach for the synthesis of equivalent...
A phase-only power pattern synthesis technique for flat aperiodic arrays is presented. A convenient ...
We present a novel approach to the synthesis of equivalently tapered, aperiodic linear arrays, i.e. ...
A multistage synthesis approach for the design of aperiodic refiectarray, based on an effective and ...
We deal with one of the computationally most critical steps of the Phase-Only synthesis of aperiodic...
An approach for the fast analysis of "irregular", i.e., of conformal, periodic or aperiodic, 2D arra...
We discuss one of the computationally most critical steps of the Phase-Only synthesis of aperiodic r...
An approach for the fast analysis of “irregular”, i.e., of conformal, periodic or aperiodic, 2D arra...
A novel approach to the synthesis of linear aperiodic arrays has been recently introduced. The appro...
A novel algorithm on beam pattern synthesis for linear aperiodic arrays with arbitrary geometrical c...
© 1963-2012 IEEE. A virtual active element pattern (AEP) expansion method is presented in which each...
A new approach for the synthesis of thinned uniformly spaced linear arrays featuring a minimum sidel...
© 2002-2011 IEEE. A novel method incorporating the least-squares active element pattern expansion (L...
We deal with the development of a computationally effective approach for the synthesis of equivalent...
A phase-only power pattern synthesis technique for flat aperiodic arrays is presented. A convenient ...
We present a novel approach to the synthesis of equivalently tapered, aperiodic linear arrays, i.e. ...
A multistage synthesis approach for the design of aperiodic refiectarray, based on an effective and ...
We deal with one of the computationally most critical steps of the Phase-Only synthesis of aperiodic...
An approach for the fast analysis of "irregular", i.e., of conformal, periodic or aperiodic, 2D arra...
We discuss one of the computationally most critical steps of the Phase-Only synthesis of aperiodic r...
An approach for the fast analysis of “irregular”, i.e., of conformal, periodic or aperiodic, 2D arra...
A novel approach to the synthesis of linear aperiodic arrays has been recently introduced. The appro...
A novel algorithm on beam pattern synthesis for linear aperiodic arrays with arbitrary geometrical c...
© 1963-2012 IEEE. A virtual active element pattern (AEP) expansion method is presented in which each...
A new approach for the synthesis of thinned uniformly spaced linear arrays featuring a minimum sidel...
© 2002-2011 IEEE. A novel method incorporating the least-squares active element pattern expansion (L...