Alexandre Huat scite author profile

Alexandre Huat

3Publications

4Citation Statements Received

30Citation Statements Given

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Affiliations

Laboratoire d'Informatique, du Traitement de l'Information et des Systèmes, University of Rouen

Publications

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A Quantitative Comparison between Shannon and Tsallis–Havrda–Charvat Entropies Applied to Cancer Outcome Prediction

Brochet

Lapuyade‐Lahorgue

Huat

et al. 2022

Entropy

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In this paper, we propose to quantitatively compare loss functions based on parameterized Tsallis–Havrda–Charvat entropy and classical Shannon entropy for the training of a deep network in the case of small datasets which are usually encountered in medical applications. Shannon cross-entropy is widely used as a loss function for most neural networks applied to the segmentation, classification and detection of images. Shannon entropy is a particular case of Tsallis–Havrda–Charvat entropy. In this work, we compare these two entropies through a medical application for predicting recurrence in patients with head–neck and lung cancers after treatment. Based on both CT images and patient information, a multitask deep neural network is proposed to perform a recurrence prediction task using cross-entropy as a loss function and an image reconstruction task. Tsallis–Havrda–Charvat cross-entropy is a parameterized cross-entropy with the parameter α. Shannon entropy is a particular case of Tsallis–Havrda–Charvat entropy for α=1. The influence of this parameter on the final prediction results is studied. In this paper, the experiments are conducted on two datasets including in total 580 patients, of whom 434 suffered from head–neck cancers and 146 from lung cancers. The results show that Tsallis–Havrda–Charvat entropy can achieve better performance in terms of prediction accuracy with some values of α.

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Correction: Brochet et al. A Quantitative Comparison between Shannon and Tsallis–Havrda–Charvat Entropies Applied to Cancer Outcome Prediction. Entropy 2022, 24, 436

Brochet

Lapuyade‐Lahorgue

Huat

et al. 2022

Entropy

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show abstract

PO-2113 Evaluating and updating predictive models: a high-tech open platform to boost clinical translation

Huat¹,

Franco²,

Chang‐Claude³

et al. 2023

Radiotherapy and Oncology

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Alexandre Huat

A Quantitative Comparison between Shannon and Tsallis–Havrda–Charvat Entropies Applied to Cancer Outcome Prediction

Correction: Brochet et al. A Quantitative Comparison between Shannon and Tsallis–Havrda–Charvat Entropies Applied to Cancer Outcome Prediction. Entropy 2022, 24, 436

PO-2113 Evaluating and updating predictive models: a high-tech open platform to boost clinical translation

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