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Abdul, H. (2015) A Multiresolution Approach for Direction of Arrival (DoA) Estimation in Linear Arrays based on Bayesian Compressive Sensing. Masters thesis, University of Trento.
Anselmi, N. and Manica, L. and Rocca, P. and Massa, A. (2015) Introduction to Interval Arithmetic applied to Antenna Array Analysis. Technical Report. University of Trento.
Anselmi, N. and Manica, L. and Rocca, P. and Massa, A. (2015) A PSO-based Method for Radiation Pattern Synthesis through Interval Analysis Tools. Technical Report. University of Trento.
Anselmi, N. and Oliveri, G. and Hannan, M. and Salucci, M. and Massa, A. (2015) Dictionary‐Based Bayesian Compressive Sensing for Imaging Arbitrary Scatterers. Technical Report. ELEDIA Research Center - University of Trento.
Anselmi, N. and Oliveri, G. and Hannan, M. and Salucci, M. and Massa, A. (2017) Extending the Applicability Range of Compressive Sensing‐Based Microwave Imaging to Arbitrary Scatterers. Technical Report. ELEDIA Research Center - University of Trento.
Anselmi, N. and Oliveri, G. and Hannan, M. and Salucci, M. and Massa, A. (2016) Free‐Space Microwave Imaging through Alphabet‐Based Bayesian Compressive Sensing. Technical Report. ELEDIA Research Center - University of Trento.
Anselmi, N. and Oliveri, G. and Hannan, M. and Salucci, M. and Massa, A. (2017) Innovative Alphabet‐Based Bayesian Compressive Sensing Technique for Imaging Targets with Arbitrary Shape. Technical Report. ELEDIA Research Center - University of Trento.
Anselmi, N. and Oliveri, G. and Hannan, M. and Salucci, M. and Massa, A. (2017) An Innovative BCS‐Based Microwave Imaging Technique for Imaging Unknown Objects With Arbitrary Size and Shape. Technical Report. ELEDIA Research Center - University of Trento.
Anselmi, N. and Poli, L. and Oliveri, G. and Massa, A. (2018) Effective Integration of BCS with the IMSA to Enhance the Microwave Imaging of Sparse Objects Under the Born Approximation. Technical Report. ELEDIA Research Center - University of Trento.
Anselmi, N. and Poli, L. and Oliveri, G. and Massa, A. (2018) Integrating the IMSA with Bayesian Compressive Sensing for Solving Inverse Scattering Problems. Technical Report. ELEDIA Research Center - University of Trento.
Anselmi, N. and Poli, L. and Oliveri, G. and Massa, A. (2018) A Multi‐Resolution Approach for Enhancing the BCS‐Based Imaging of Sparse Scatterers. Technical Report. ELEDIA Research Center - University of Trento.
Anselmi, N. and Poli, L. and Oliveri, G. and Massa, A. (2018) Multi‐Resolution Imaging through a Novel Bayesian Compressive Sensing Approach. Technical Report. ELEDIA Research Center - University of Trento.
Anselmi, N. and Poli, L. and Oliveri, G. and Massa, A. (2018) Multi‐Scaling Bayesian Compressive Sensing Imaging of Dielectric Objects. Technical Report. ELEDIA Research Center - University of Trento.
Anselmi, N. and Poli, L. and Rocca, P. and Massa, A. (2016) Genetically-designed thinned ring arrays for effective pattern nulling with directivity control. Technical Report. University of Trento.
Anselmi, N. and Poli, L. and Rocca, P. and Massa, A. (2016) Multi-interference suppression through a GA-based method for ring arrays. Technical Report. University of Trento.
Anselmi, Nicola and Gottardi, Giorgio and Oliveri, Giacomo and MASSA, Andrea A Sparseness‐Promoting Total‐Variation Approach for the Design of Linear Clustered Phased Arrays. Technical Report. ELEDIA Research Center - University of Trento.
Anselmi, Nicola and Gottardi, Giorgio and Oliveri, Giacomo and Massa, Andrea Design of Linear Clustered Arrays with Non‐Contiguous Sub‐Arrays through a Total‐Variation CS Method. Technical Report. ELEDIA Research Center - University of Trento.
Anselmi, Nicola and Gottardi, Giorgio and Oliveri, Giacomo and Massa, Andrea Synthesis of Clustered Linear Arrays through a Total‐Variation Compressive Sensing Approach. Technical Report. ELEDIA Research Center - University of Trento.
Anselmi, Nicola and Gottardi, Giorgio and Oliveri, Giacomo and Massa, Andrea A Total‐Variation Compressive Sensing Approach for the Design of Linear Clustered Arrays. Technical Report. ELEDIA Research Center - University of Trento.
Carlin, M. and Rocca, P. and Oliveri, G. and Massa, A. (2016) Bayesian Compressive Sensing-based Method for Directions-of-Arrival Estimation. Technical Report. University of Trento.
Carlin, M. and Rocca, P. and Oliveri, G. and Massa, A. (2016) DoA estimation via MT-BCS exploiting multiple-snapshots. Technical Report. University of Trento.
Carlin, M. and Rocca, P. and Oliveri, G. and Massa, A. (2016) Numerical Analysis of the DoA estimation through BCS. Technical Report. University of Trento.
Hannan, M. (2015) Wavelet-Based Compressive Sensing Imaging of 2D Non-Sparse Scatterers. Masters thesis, University of Trento.
Malacarne, A. (2013) Performance analysis of BARE-CG/IMSA-CG applied to the detection of buried objects using GPR data and Frequency Hopping (objects: O, +). Masters thesis, University of Trento.
Malacarne, A. (2014) Reconstructing buried object within Born I approximation by means of GPR Data and an Interval Analysis based optimization algorithm. Masters thesis, University of Trento.
Moseley, J. (2015) Reconfigurable Conformal Array Synthesis through MT-BCS. Masters thesis, University of Trento.
Nardin, C. (2012) Reconfigurable Planar Array Synthesis through MT-BCS. Masters thesis, University of Trento.
OLIVERI, Giacomo and ANSELMI, Nicola and SALUCCI, Marco and POLI, Lorenzo and MASSA, Andrea (2024) Collecting Scattering Data for Microwave Imaging by means of the Compressive Sensing Technique. Technical Report. ELEDIA Research Center - University of Trento.
OLIVERI, Giacomo and ANSELMI, Nicola and SALUCCI, Marco and POLI, Lorenzo and MASSA, Andrea (2024) Compressive Sampling for Scattering Data Collection in Microwave Imaging. Technical Report. ELEDIA Research Center - University of Trento.
OLIVERI, Giacomo and ANSELMI, Nicola and SALUCCI, Marco and POLI, Lorenzo and MASSA, Andrea (2024) Scattering Data Acquisition in Microwave Imaging Using Compressive Sampling Techniques. Technical Report. ELEDIA Research Center - University of Trento.
OLIVERI, Giacomo and POLO, Alessandro and ANSELMI, Nicola and MASSA, Andrea and GELMINI, Angelo On the Multiscale Design of Task-Oriented Reflectarrays. Technical Report. ELEDIA Research Center - University of Trento.
OLIVERI, Giacomo and Poli, Lorenzo and Anselmi, Nicola and SALUCCI, Marco and MASSA, Andrea An Hybrid Multi‐Task Bayesian Compressive Born Iterative Microwave Imaging Approach. Technical Report. ELEDIA Research Center - University of Trento.
OLIVERI, Giacomo and Poli, Lorenzo and Anselmi, Nicola and SALUCCI, Marco and MASSA, Andrea A New Compressive Sensing Born Iterative Method to Image Non‐Weak Scatterers. Technical Report. ELEDIA Research Center - University of Trento.
OLIVERI, Giacomo and Poli, Lorenzo and Anselmi, Nicola and SALUCCI, Marco and MASSA, Andrea An innovative Sparseness‐Promoting Inverse Scattering Approach Based on the Born Iterative Method. Technical Report. ELEDIA Research Center - University of Trento.
Oliveri, G. and Salucci, M. and Anselmi, N. (2018) Innovative Bayesian Compressive Sensing Microwave Imaging with Matrix Completion. Technical Report. ELEDIA Research Center - University of Trento.
Oliveri, G. and Salucci, M. and Anselmi, N. (2018) A Matrix Completion Approach to Image Sparse Targets under the First‐Order Born Approximation. Technical Report. ELEDIA Research Center - University of Trento.
Oliveri, G. and Salucci, M. and Anselmi, N. (2018) Microwave Imaging of Sparse Objects through Matrix Completion. Technical Report. ELEDIA Research Center - University of Trento.
Oliveri, Giacomo and Poli, Lorenzo and Anselmi, Nicola and Salucci, Marco and Massa, Andrea Bayesian Compressive Imaging of Non‐Weak Scatterers through the Born Iterative Method. Technical Report. ELEDIA Research Center - University of Trento.
Poli, L. and Oliveri, G. and Massa, A. (2015) BCS-based inversion methods within a multi-frequency framework. Technical Report. University of Trento.
Poli, L. and Oliveri, G. and Massa, A. (2014) Bayesian Compressive Sampling applied to Microwave Imaging under the first Born Approximation as compared to Deterministic and Stocastic Techniques. Technical Report. University of Trento.
Poli, L. and Oliveri, G. and Massa, A. (2015) Multi-Task Bayesian Compressive Sensing for microwave imaging exploiting multi-frequency data. Technical Report. University of Trento.
Poli, L. and Oliveri, G. and Massa, A. (2014) Multi-task Bayesian Compressive Sensing Method for Imaging Sparse Metallic Cylinders. Technical Report. University of Trento.
Poli, L. and Oliveri, G. and Massa, A. (2014) On the Performance of a BCS-based Inverse Scattering Technique within the first Born Approximation to Invert Limited Scattered Data. Technical Report. University of Trento.
Poli, L. and Oliveri, G. and Massa, A. (2015) Performance comparison between multi-frequency deterministic and probabilistic approaches. Technical Report. University of Trento.
Poli, L. and Oliveri, G. and Massa, A. (2014) Preliminary Assessment of a Bayesian Compressive Sampling-based Contrast Field Inversion Method. Technical Report. University of Trento.
Poli, L. and Oliveri, G. and Massa, A. (2012) Reconstruction of Sparse Scatterers through an Approximated Compressive Sensing Strategy. Technical Report. University of Trento.
Poli, L. and Oliveri, G. and Massa, A. (2012) Sparse PEC Scatterers Retrieval by means of a Local Shape Function Bayesian Compressive Sensing Strategy. Technical Report. University of Trento.
Poli, L. and Oliveri, G. and Massa, A. (2014) Statistical Analysis of an Inverse Scattering BCS-based Technique under the Born Approximation for the Reconstruction of Sparse Scatterers. Technical Report. University of Trento.
Poli, L. and Oliveri, G. and Massa, A. (2012) Statistical Validation of a BCS-based Technique for Perfect Electric Conductors Retrieval. Technical Report. University of Trento.
Poli, L. and Oliveri, G. and Rocca, P. and Massa, A. (2013) Numerical and Statistical Validation of a BCS-based Technique for Microwave Imaging under the Rytov Approximation. Technical Report. University of Trento.
Poli, L. and Oliveri, G. and Viani, F. and Massa, A. (2015) Interval-based Pencil Beam Pattern Synthesis in Linear Antenna Arrays. Technical Report. Un.
Poli, L. and Oliveri, G. and Viani, F. and Massa, A. (2014) Multi-task Bayesian Compressive Sensing for microwave imaging exploiting the minimum-norm current formulation. Technical Report. University of Trento.
Poli, L. and Oliveri, G. and Viani, F. and Massa, A. (2014) Performance comparison between contrast source deterministic and probabilistic approaches. Technical Report. University of Trento.
Poli, L. and Oliveri, G. and Viani, F. and Massa, A. (2014) A minimum-norm current expansion method based on MT-BCS for inverting scattered data. Technical Report. University of Trento.
Poli, L. and Oliveri, G. and Viani, F. and Massa, A. (2014) A three-step inversion method based on compressive sensing for imaging sparse scatterers. Technical Report. U.
ROCCA, Paolo and ANSELMI, Nicola and HANNAN, Mohammad Abdul and MASSA, Andrea (2022) Compressive Sensing Based Synthesis of Multi-Beam Phased Array for Air Traffic Control. Technical Report. ELEDIA Research Center - University of Trento.
ROCCA, Paolo and ANSELMI, Nicola and HANNAN, Mohammad Abdul and MASSA, Andrea (2022) Design of Conformal Phased Array Architectures for Air Traffic Control Radars. Technical Report. ELEDIA Research Center - University of Trento.
ROCCA, Paolo and ANSELMI, Nicola and HANNAN, Mohammad Abdul and MASSA, Andrea (2022) Multi-Beam Synthesis of Linear Phased Array - A Numerical Assessment. Technical Report. ELEDIA Research Center - University of Trento.
ROCCA, Paolo and ANSELMI, Nicola and HANNAN, Mohammad Abdul and MASSA, Andrea (2022) Radiating Element Design for Air Traffic Control Radar Systems. Technical Report. ELEDIA Research Center - University of Trento.
Rossi, A. (2015) Contrast Source inversion techniques based on Bayesian Compressive Sensing from GPR data. Masters thesis, University of Trento.
SALUCCI, Marco and ANSELMI, Nicola and MASSA, Andrea (2024) Advancements in Near-Field Antenna Characterization: A Compressive Sensing Perspective. Technical Report. ELEDIA Research Center - University of Trento.
SALUCCI, Marco and ANSELMI, Nicola and MASSA, Andrea (2024) A CS-Enhanced Approach for Near-Field Antenna Characterization Subject to Truncation Error. Technical Report. ELEDIA Research Center - University of Trento.
SALUCCI, Marco and ANSELMI, Nicola and MASSA, Andrea (2024) Compressive Sensing Techniques for Enhanced Near Field Antenna Evaluation. Technical Report. ELEDIA Research Center - University of Trento.
SALUCCI, Marco and ANSELMI, Nicola and MASSA, Andrea (2024) Efficient Near Field Antenna Analysis using Compressive Sensing. Technical Report. ELEDIA Research Center - University of Trento.
SALUCCI, Marco and ANSELMI, Nicola and MASSA, Andrea (2024) Impacts of Truncation Error for Near Field Antenna Assessment. Technical Report. ELEDIA Research Center - University of Trento.
SALUCCI, Marco and ANSELMI, Nicola and MASSA, Andrea (2024) Innovative Approaches to Antenna Characterization: A Compressive Sensing Framework. Technical Report. ELEDIA Research Center - University of Trento.
SALUCCI, Marco and ANSELMI, Nicola and MASSA, Andrea (2024) A Sparsity Approach for Near-Field Antenna Characterization with Truncation Error. Technical Report. ELEDIA Research Center - University of Trento.
SALUCCI, Marco and ANSELMI, Nicola and MASSA, Andrea (2024) Truncation Error Study on Near Field Antenna Characteristics using Compressive Sensing. Technical Report. ELEDIA Research Center - University of Trento.
SALUCCI, Marco and ANSELMI, Nicola and MASSA, Andrea (2024) Unlocking Potential with Compressive Sensing towards Near Field Antenna Measurement. Technical Report. ELEDIA Research Center - University of Trento.
SALUCCI, Marco and GELMINI, Angelo and OLIVERI, Giacomo and MASSA, Andrea (2019) Bayesian Compressive Sensing Failure Detection in Planar Phased Antenna Arrays. Technical Report. ELEDIA Research Center - University of Trento.
SALUCCI, Marco and GELMINI, Angelo and OLIVERI, Giacomo and MASSA, Andrea (2019) A Bayesian Compressive Sensing Method for Robust Diagnosis of Planar Arrays from Far‐Field Measurements. Technical Report. ELEDIA Research Center - University of Trento.
SALUCCI, Marco and GELMINI, Angelo and OLIVERI, Giacomo and MASSA, Andrea (2019) Detecting Failures in Planar Phased Arrays: a Bayesian Compressive Sensing Approach. Technical Report. ELEDIA Research Center - University of Trento.
SALUCCI, Marco and GELMINI, Angelo and OLIVERI, Giacomo and MASSA, Andrea (2019) Diagnosis of Planar Phased Arrays Through a Probabilistic Compressive Sensing Approach. Technical Report. ELEDIA Research Center - University of Trento.
SALUCCI, Marco and GELMINI, Angelo and OLIVERI, Giacomo and MASSA, Andrea (2019) Robust Diagnosis of Microstrip Planar Phased Arrays Through a Compressive Sensing Approach. Technical Report. ELEDIA Research Center - University of Trento.
Saldykova, G. (2015) Synthesis of Clustered Arrays based on Total Variation Compressive Sensing. Bachelor thesis, University of Trento.
Salucci, Marco and Anselmi, Nicola and Massa, Andrea (2019) A Compressive Sensing-Based Near-Field Antenna Characterization - The Bayesian Approach. Technical Report. ELEDIA Research Center - University of Trento.
Salucci, Marco and Anselmi, Nicola and Massa, Andrea (2019) Near-Field Antenna Characterization Through a Compressive Sensing Based Approach. Technical Report. ELEDIA Research Center - University of Trento.
Santacatterina, G. (2014) Tolerance analysis in sub-arrayed antennas by means of a probabilistic methodology based on interval arithmetic. Masters thesis, University of Trento.
Sartori, D. (2014) Tecniche di failure analysis basate su bayesian compressive sampling per array conformi. Masters thesis, University of Trento.
Tingnan, B. (2015) Synthesis of Wideband Linear Arrays through Convex Programming. Masters thesis, University of Trento.
Trobinger, M. (2015) Bayesian Compessive Sensing-based strategies for biomedical applications. Bachelor thesis, University of Trento.
Zanichelli, G. (2015) Testing of a Non-Linear Compressive Sensing Solver for 2D Microwave Imaging Applications. Bachelor thesis, University of Trento.