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StereoThermoLegs: label propagation with multimodal stereo cameras for automated annotation of posterior legs during running at different velocities
In sports science, thermal imaging is applied to investigate various questions related to exercise-induced stress response, muscle fatigue, anomalies, and diseases. Infrared thermography monitors thermal radiation from the skin’s surface over time. For further analysis, regions of interest are extra...
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Published in: | Journal of thermal analysis and calorimetry 2024, Vol.149 (19), p.11349-11360 |
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Main Authors: | , , , , |
Format: | Article |
Language: | English |
Subjects: | |
Citations: | Items that this one cites |
Online Access: | Get full text |
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Summary: | In sports science, thermal imaging is applied to investigate various questions related to exercise-induced stress response, muscle fatigue, anomalies, and diseases. Infrared thermography monitors thermal radiation from the skin’s surface over time. For further analysis, regions of interest are extracted and statistically analyzed. Although computer vision algorithms have grown in recent years due to data-driven approaches, this is not the case for detailed segmentation in thermal images. In a supervised manner, machine learning optimizations require a large amount of training data with input and ground truth output data. Unfortunately, obtaining annotated data are a costly problem that increases with the complexity of the task. For semantic segmentation, pixel-wise label masks must be created by experts. Few datasets meet the needs of sports scientists and physicians to perform advanced applications of thermal computer vision during physical activity and generate new insights in their fields. In this paper, a new method is introduced to transfer segmentation masks from the vision domain to the thermal domain with a stereo-calibrated time-of-flight camera and high-resolution mid-wave infrared camera. A post-processing procedure is then utilized to obtain dense pixel masks for the posterior legs during walking and running on a treadmill. The developed StereoThermoLegs dataset is based on 14 participants and includes 11 subjects for training with 12,826 thermograms and the remaining three individuals for testing with 3433 images. A deep neural network was trained with the DeepLabv3+ architecture, the AdaBelief optimizer, and Dice loss as a benchmark. After 29 epochs, the test set achieved an average intersection over union of 0.66. The analysis of the posterior leg region, specifically the left and right calf, offered the most insights, with values of 0.83 and 0.83, respectively. The first multimodal stereo dataset containing synchronized visual and thermal images of a runner’s back provides a starting point for data-driven segmentation tasks in sports science and medicine. Our technique allows for automatic production of customized datasets for deep learning, accelerating the implementation of baseline outcomes for newly identified areas of interest in thermal imaging, while bypassing the requirement for extensive manual annotation. The approach is not exclusive to stereo rig and segmentation tasks utilizing RGBD and thermal cameras, but can be applied to ot |
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ISSN: | 1388-6150 1588-2926 |
DOI: | 10.1007/s10973-024-13343-w |