Publications
An Automatic CNN-based Face Mask Detection Algorithm Tested During the COVID-19 Pandemics,
, Volume {3398}, Number {False}, p.36-41, (2022)
An Automatic CNN-based Face Mask Detection Algorithm Tested During the COVID-19 Pandemics,
, Volume {3398}, Number {False}, p.36-41, (2022)
A Comparative Study of Machine Learning Approaches for Autism Detection in Children from Imaging Data,
, Volume {3398}, Number {False}, p.9-15, (2022)
DCPCR: Deep Compressed Point Cloud Registration in Large-Scale Outdoor Environments,
, IEEE ROBOTICS AND AUTOMATION LETTERS, Volume {7}, Number {3}, p.6327-6334, (2022)
DCPCR: Deep Compressed Point Cloud Registration in Large-Scale Outdoor Environments,
, IEEE ROBOTICS AND AUTOMATION LETTERS, Volume {7}, Number {3}, p.6327-6334, (2022)
DCPCR: Deep Compressed Point Cloud Registration in Large-Scale Outdoor Environments,
, IEEE ROBOTICS AND AUTOMATION LETTERS, Volume {7}, Number {3}, p.6327-6334, (2022)
DCPCR: Deep Compressed Point Cloud Registration in Large-Scale Outdoor Environments,
, IEEE ROBOTICS AND AUTOMATION LETTERS, Volume {7}, Number {3}, p.6327-6334, (2022)
Deep Reinforcement Learning for Pin-Point Autonomous Lunar Landing: Trajectory Recalculation for Obstacle Avoidance,
, Volume {False}, Number {False}, p.False-False, (2022)
Detection accuracy for evaluating compositional explanations of units,
, Volume {13196 LNAI}, Number {False}, p.550-563, (2022)
Detection accuracy for evaluating compositional explanations of units,
, Volume {13196 LNAI}, Number {False}, p.550-563, (2022)
Detection accuracy for evaluating compositional explanations of units,
, Volume {13196 LNAI}, Number {False}, p.550-563, (2022)
A Discussion about Explainable Inference on Sequential Data via Memory-Tracking,
, Volume {3078}, Number {False}, p.33-44, (2022)
A Discussion about Explainable Inference on Sequential Data via Memory-Tracking,
, Volume {3078}, Number {False}, p.33-44, (2022)
An Explainable Fake News Detector Based on Named Entity Recognition and Stance Classification Applied to COVID-19,
, INFORMATION, Volume {13}, Number {3}, p.False-False, (2022)
An Explainable Fake News Detector Based on Named Entity Recognition and Stance Classification Applied to COVID-19,
, INFORMATION, Volume {13}, Number {3}, p.False-False, (2022)
An Explainable Fake News Detector Based on Named Entity Recognition and Stance Classification Applied to COVID-19,
, INFORMATION, Volume {13}, Number {3}, p.False-False, (2022)
An Explainable Fake News Detector Based on Named Entity Recognition and Stance Classification Applied to COVID-19,
, INFORMATION, Volume {13}, Number {3}, p.False-False, (2022)
An Explainable Fake News Detector Based on Named Entity Recognition and Stance Classification Applied to COVID-19,
, INFORMATION, Volume {13}, Number {3}, p.False-False, (2022)
An Explainable Fake News Detector Based on Named Entity Recognition and Stance Classification Applied to COVID-19,
, INFORMATION, Volume {13}, Number {3}, p.False-False, (2022)
Exploiting Wavelet Recurrent Neural Networks for satellite telemetry data modeling, prediction and control,
, EXPERT SYSTEMS WITH APPLICATIONS, Volume {False}, Number {False}, p.False-False, (2022)
Exploiting Wavelet Recurrent Neural Networks for satellite telemetry data modeling, prediction and control,
, EXPERT SYSTEMS WITH APPLICATIONS, Volume {False}, Number {False}, p.False-False, (2022)
Fall Detection using NAO Robot Pose Estimation in RoboCup SPL Matches,
, Volume {False}, Number {False}, p.False-False, (2022)
Fall Detection using NAO Robot Pose Estimation in RoboCup SPL Matches,
, Volume {False}, Number {False}, p.False-False, (2022)
Fast Sparse LiDAR Odometry Using Self-Supervised Feature Selection on Intensity Images,
, IEEE ROBOTICS AND AUTOMATION LETTERS, Volume {7}, Number {3}, p.7597-7604, (2022)
Fast Sparse LiDAR Odometry Using Self-Supervised Feature Selection on Intensity Images,
, IEEE ROBOTICS AND AUTOMATION LETTERS, Volume {7}, Number {3}, p.7597-7604, (2022)
Fast Sparse LiDAR Odometry Using Self-Supervised Feature Selection on Intensity Images,
, IEEE ROBOTICS AND AUTOMATION LETTERS, Volume {7}, Number {3}, p.7597-7604, (2022)
Fast Sparse LiDAR Odometry Using Self-Supervised Feature Selection on Intensity Images,
, IEEE ROBOTICS AND AUTOMATION LETTERS, Volume {7}, Number {3}, p.7597-7604, (2022)
Grounding LTLf specifications in images,
, Volume {False}, Number {False}, p.45-63, (2022)
A Hierarchical Framework for Collaborative Artificial Intelligence,
, IEEE PERVASIVE COMPUTING, Volume {False}, Number {False}, p.1-10, (2022)
A Hierarchical Framework for Collaborative Artificial Intelligence,
, IEEE PERVASIVE COMPUTING, Volume {False}, Number {False}, p.1-10, (2022)
A Hierarchical Framework for Collaborative Artificial Intelligence,
, IEEE PERVASIVE COMPUTING, Volume {False}, Number {False}, p.1-10, (2022)
A Hierarchical Framework for Collaborative Artificial Intelligence,
, IEEE PERVASIVE COMPUTING, Volume {False}, Number {False}, p.1-10, (2022)
HiPE: Hierarchical Initialization for Pose Graphs,
, IEEE ROBOTICS AND AUTOMATION LETTERS, Volume {7}, Number {1}, p.287-294, (2022)
HiPE: Hierarchical Initialization for Pose Graphs,
, IEEE ROBOTICS AND AUTOMATION LETTERS, Volume {7}, Number {1}, p.287-294, (2022)
HiPE: Hierarchical Initialization for Pose Graphs,
, IEEE ROBOTICS AND AUTOMATION LETTERS, Volume {7}, Number {1}, p.287-294, (2022)
Human Attention Assessment Using A Machine Learning Approach with GAN-based Data Augmentation Technique Trained Using a Custom Dataset,
, OBM NEUROBIOLOGY, Volume {6}, Number {4}, p.1-1, (2022)
Human Attention Assessment Using A Machine Learning Approach with GAN-based Data Augmentation Technique Trained Using a Custom Dataset,
, OBM NEUROBIOLOGY, Volume {6}, Number {4}, p.1-1, (2022)
Human Attention Assessment Using A Machine Learning Approach with GAN-based Data Augmentation Technique Trained Using a Custom Dataset,
, OBM NEUROBIOLOGY, Volume {6}, Number {4}, p.1-1, (2022)
Image Classification With Small Datasets: Overview and Benchmark,
, IEEE ACCESS, Volume {10}, Number {False}, p.49233-49250, (2022)
Impact of the COVID-19 Pandemic on Clinical Pathways for Non-SARS-CoV-2 Related Diseases in the Lazio Region, Italy,
, INTERNATIONAL JOURNAL OF ENVIRONMENTAL RESEARCH AND PUBLIC HEALTH, Volume {19}, Number {2}, p.635-False, (2022)
Ligand-based and structure-based studies to develop predictive models for SARS-CoV-2 main protease inhibitors through the 3d-qsar.com portal},
, JOURNAL OF COMPUTER-AIDED MOLECULAR DESIGN, Volume {36}, Number {7}, p.483-505, (2022)
Ligand-based and structure-based studies to develop predictive models for SARS-CoV-2 main protease inhibitors through the 3d-qsar.com portal},
, JOURNAL OF COMPUTER-AIDED MOLECULAR DESIGN, Volume {36}, Number {7}, p.483-505, (2022)
Ligand-based and structure-based studies to develop predictive models for SARS-CoV-2 main protease inhibitors through the 3d-qsar.com portal},
, JOURNAL OF COMPUTER-AIDED MOLECULAR DESIGN, Volume {36}, Number {7}, p.483-505, (2022)
Ligand-based and structure-based studies to develop predictive models for SARS-CoV-2 main protease inhibitors through the 3d-qsar.com portal},
, JOURNAL OF COMPUTER-AIDED MOLECULAR DESIGN, Volume {36}, Number {7}, p.483-505, (2022)
Ligand-based and structure-based studies to develop predictive models for SARS-CoV-2 main protease inhibitors through the 3d-qsar.com portal},
, JOURNAL OF COMPUTER-AIDED MOLECULAR DESIGN, Volume {36}, Number {7}, p.483-505, (2022)
MD-SLAM: Multi-cue Direct SLAM,
, Volume {False}, Number {False}, p.11047-11054, (2022)
MD-SLAM: Multi-cue Direct SLAM,
, Volume {False}, Number {False}, p.11047-11054, (2022)
MD-SLAM: Multi-cue Direct SLAM,
, Volume {False}, Number {False}, p.11047-11054, (2022)
Medication Adherence in Chronic Older Patients: An Italian Observational Study Using Medication Adherence Report Scale (MARS-5I),
, INTERNATIONAL JOURNAL OF ENVIRONMENTAL RESEARCH AND PUBLIC HEALTH, Volume {19}, Number {9}, p.1-11, (2022)