Your search keyword '"Cittadini, Edoardo"' showing total 5 results

1. CORT: Class-Oriented Real-time Tracking for Embedded Systems

Author

Cittadini, Edoardo, De Siena, Alessandro, and Buttazzo, Giorgio

Subjects

Computer Science - Computer Vision and Pattern Recognition

Abstract

The ever-increasing use of artificial intelligence in autonomous systems has significantly contributed to advance the research on multi-object tracking, adopted in several real-time applications (e.g., autonomous driving, surveillance drones, robotics) to localize and follow the trajectory of multiple objects moving in front of a camera. Current tracking algorithms can be divided into two main categories: some approaches introduce complex heuristics and re-identification models to improve the tracking accuracy and reduce the number of identification switches, without particular attention to the timing performance, whereas other approaches are aimed at reducing response times by removing the re-identification phase, thus penalizing the tracking accuracy. This work proposes a new approach to multi-class object tracking that allows achieving smaller and more predictable execution times, without penalizing the tracking performance. The idea is to reduce the problem of matching predictions with detections into smaller sub-problems by splitting the Hungarian matrix by class and invoking the second re-identification stage only when strictly necessary for a smaller number of elements. The proposed solution was evaluated in complex urban scenarios with several objects of different types (as cars, trucks, bikes, and pedestrians), showing the effectiveness of the multi-class approach with respect to state of the art trackers.

Published

2024

2. Supporting AI-powered real-time cyber-physical systems on heterogeneous platforms via hypervisor technology

Author

Cittadini, Edoardo, Marinoni, Mauro, Biondi, Alessandro, Cicero, Giorgiomaria, and Buttazzo, Giorgio

Published

2023

3. A New Frontier for Drug-Coated Balloons: Treatment of "De Novo" Stenosis in Large Vessel Coronary Artery Disease.

Author

Sciahbasi, Alessandro, Mazza, Tiziano Maria, Pidone, Chiara, Samperi, Simona, Cittadini, Edoardo, and Granatelli, Antonino

Subjects

CORONARY artery disease, CORONARY arteries, PERCUTANEOUS coronary intervention, CORONARY artery stenosis, SURGICAL stents

Abstract

Background: Drug-coated balloons (DCB) are a well-established option for treating in-stent restenosis endorsed by European Guidelines on myocardial revascularization. However, in recent years, a strategy of "leaving nothing behind" with DCB in de novo coronary stenosis has emerged as an appealing approach. Methods: We performed a systematic review to evaluate the current literature on the use of drug-coated balloons in the treatment of de novo stenosis in large vessel disease. Results: Observational studies, as well as randomized studies, demonstrated the safety of DCB percutaneous coronary interventions (PCI) in large vessel disease. The rate of major adverse cardiac events is even lower compared to drug-eluting stents in stable coronary artery disease. Conclusions: DCB PCI is feasible in large vessel disease, and future large, randomized studies are ongoing to confirm these results. [ABSTRACT FROM AUTHOR]

Published

2024

4. Risk stratification in transthyretin-related cardiac amyloidosis

Author

Scirpa, Riccardo, primary, Cittadini, Edoardo, additional, Mazzocchi, Lorenzo, additional, Tini, Giacomo, additional, Sclafani, Matteo, additional, Russo, Domitilla, additional, Imperatrice, Andrea, additional, Tropea, Alessandro, additional, Autore, Camillo, additional, and Musumeci, Beatrice, additional

Published

2023

5. Arrhythmic Stratification of Cardiac Amyloidosis

Author

Scirpa, Riccardo, Follesa, Federico, De Fazio, Ludovica, Cittadini, Edoardo, Francia, Pietro, Tini, Giacomo, Autore, Camillo, Barbato, Emanuele, and Musumeci, Beatrice

Abstract

Cardiac amyloidosis is an infiltrative myocardial disease whose prevalence significantly increased in recent years. Its clinical history is changing due to the advent of novel therapies, and careful risk stratification has become impelling. Arrhythmias, frequently found during the course of the disease, include conduction system disease, atrial fibrillation (AF), and ventricular arrhythmias (VAs). Arrhythmic risk stratification is a key to identify those patients at higher risk to develop advanced atrioventricular blocks, asymptomatic AFs, or major VAs. This carries significant clinical implications concerning the indication and timing of implantable cardiac devices, as well as the initiation of anticoagulation therapy.

Published

2024