His Programming language study frequently involves adjacent topics like Interpretation (philosophy) and Set (abstract data type). Set (abstract data type) is often connected to Programming language in his work. His Epistemology study frequently draws parallels with other fields, such as Simple (philosophy) and Simplicity. Simple (philosophy) is closely attributed to Epistemology in his study. His research combines Wavelet and Artificial intelligence. His research is interdisciplinary, bridging the disciplines of Artificial intelligence and Wavelet. He frequently studies issues relating to Beam (structure) and Optics. He merges Mathematical analysis with Applied mathematics in his research. His work blends Applied mathematics and Mathematical analysis studies together.
Tommaso Isernia connects relevant research areas such as Inverse and Regular polygon in the domain of Geometry. Regular polygon and Geometry are two areas of study in which Tommaso Isernia engages in interdisciplinary work. He merges Optics with Near and far field in his research. By researching both Near and far field and Optics, he produces research that crosses academic boundaries. His Maxima and minima research extends to the thematically linked field of Mathematical analysis. His studies link Mathematical analysis with Maxima and minima. In his works, he undertakes multidisciplinary study on Algorithm and Artificial intelligence. Tommaso Isernia applies his multidisciplinary studies on Artificial intelligence and Algorithm in his research. Much of his study explores Quantum mechanics relationship to Amplitude.
His Mathematical analysis study in the realm of Fourier transform interacts with subjects such as Algorithm. Tommaso Isernia performs multidisciplinary study on Mathematical analysis and Fourier analysis in his works. In his work, Tommaso Isernia performs multidisciplinary research in Fourier analysis and Fourier transform. As part of his studies on Quantum mechanics, he frequently links adjacent subjects like Power (physics). His study brings together the fields of Quantum mechanics and Power (physics). His study brings together the fields of Discrete Fourier transform (general) and Short-time Fourier transform. His Short-time Fourier transform research extends to Discrete Fourier transform (general), which is thematically connected. His research is interdisciplinary, bridging the disciplines of Topology (electrical circuits) and Combinatorics. The study of Topology (electrical circuits) is intertwined with the study of Combinatorics in a number of ways.
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Electromagnetic inverse scattering: Retrievable information and measurement strategies
O. M. Bucci;T. Isernia.
Radio Science (1997)
On the local minima in a tomographic imaging technique
T. Isernia;V. Pascazio;R. Pierri.
IEEE Transactions on Geoscience and Remote Sensing (2001)
Radiation pattern evaluation from near-field intensities on planes
T. Isernia;G. Leone;R. Pierri.
IEEE Transactions on Antennas and Propagation (1996)
On Simple Methods for Shape Reconstruction of Unknown Scatterers
I. Catapano;L. Crocco;T. Isernia.
IEEE Transactions on Antennas and Propagation (2007)
Deterministic Synthesis of Uniform Amplitude Sparse Arrays via New Density Taper Techniques
Ovidio Mario Bucci;Michele D'Urso;Tommaso Isernia;Piero Angeletti.
IEEE Transactions on Antennas and Propagation (2010)
A nonlinear estimation method in tomographic imaging
T. Isernia;V. Pascazio;R. Pierri.
IEEE Transactions on Geoscience and Remote Sensing (1997)
New tools and series for forward and inverse scattering problems in lossy media
T. Isernia;L. Crocco;M. D'Urso.
IEEE Geoscience and Remote Sensing Letters (2004)
A hybrid approach for the optimal synthesis of pencil beams through array antennas
T. Isernia;F.J.A. Pena;O.M. Bucci;M. D'Urso.
IEEE Transactions on Antennas and Propagation (2004)
Inverse scattering problems with multifrequency data: reconstruction capabilities and solution strategies
O.M. Bucci;L. Crocco;T. Isernia;V. Pascazio.
IEEE Transactions on Geoscience and Remote Sensing (2000)
Shaped Beam Antenna Synthesis Problems: Feasibility Criteria and New Strategies
T. Isernia;O.M. Bucci;N. Fiorentino.
Journal of Electromagnetic Waves and Applications (1998)
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