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COVID-19 Infection Percentage Estimation from Computed Tomography Scans: Results and Insights from the International Per-COVID-19 Challenge
Journal
Sensors
Date Issued
2024
Author(s)
Bougourzi, Fares
Distante, Cosimo
Dornaika, Fadi
Taleb-Ahmed, Abdelmalik
Chaudhary, Suman
Yang, Wanting
Qiang, Yan
Anwar, Talha
Breaban, Mihaela Elena
Hsu, Chih-Chung
Tai, Shen-Chieh
Chen, Shao-Ning
Tricarico, Davide
Chaudhry, Hafiza Ayesha Hoor
Fiandrotti, Attilio
Grangetto, Marco
Spatafora, Maria Ausilia Napoli
Ortis, Alessandro
Battiato, Sebastiano
Abstract
COVID-19 analysis from medical imaging is an important task that has been intensively studied in the last years due to the spread of the COVID-19 pandemic. In fact, medical imaging has often been used as a complementary or main tool to recognize the infected persons. On the other hand, medical imaging has the ability to provide more details about COVID-19 infection, including its severity and spread, which makes it possible to evaluate the infection and follow-up the patient’s state. CT scans are the most informative tool for COVID-19 infection, where the evaluation of COVID-19 infection is usually performed through infection segmentation. However, segmentation is a tedious task that requires much effort and time from expert radiologists. To deal with this limitation, an efficient framework for estimating COVID-19 infection as a regression task is proposed. The goal of the Per-COVID-19 challenge is to test the efficiency of modern deep learning methods on COVID-19 infection percentage estimation (CIPE) from CT scans. Participants had to develop an efficient deep learning approach that can learn from noisy data. In addition, participants had to cope with many challenges, including those related to COVID-19 infection complexity and crossdataset scenarios. This paper provides an overview of the COVID-19 infection percentage estimation challenge (Per-COVID-19) held at MIA-COVID-2022. Details of the competition data, challenges, and evaluation metrics are presented. The best performing approaches and their results are described and discussed.
Scopus© citations
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Acquisition Date
Dec 11, 2024
Dec 11, 2024