Your search keyword '"Cottereau AS"' showing total 2,242 results

1. The RoboDrive Challenge: Drive Anytime Anywhere in Any Condition

Author

Kong, Lingdong, Xie, Shaoyuan, Hu, Hanjiang, Niu, Yaru, Ooi, Wei Tsang, Cottereau, Benoit R., Ng, Lai Xing, Ma, Yuexin, Zhang, Wenwei, Pan, Liang, Chen, Kai, Liu, Ziwei, Qiu, Weichao, Zhang, Wei, Cao, Xu, Lu, Hao, Chen, Ying-Cong, Kang, Caixin, Zhou, Xinning, Ying, Chengyang, Shang, Wentao, Wei, Xingxing, Dong, Yinpeng, Yang, Bo, Jiang, Shengyin, Ma, Zeliang, Ji, Dengyi, Li, Haiwen, Huang, Xingliang, Tian, Yu, Kou, Genghua, Jia, Fan, Liu, Yingfei, Wang, Tiancai, Li, Ying, Hao, Xiaoshuai, Yang, Yifan, Zhang, Hui, Wei, Mengchuan, Zhou, Yi, Zhao, Haimei, Zhang, Jing, Li, Jinke, He, Xiao, Cheng, Xiaoqiang, Zhang, Bingyang, Zhao, Lirong, Ding, Dianlei, Liu, Fangsheng, Yan, Yixiang, Wang, Hongming, Ye, Nanfei, Luo, Lun, Tian, Yubo, Zuo, Yiwei, Cao, Zhe, Ren, Yi, Li, Yunfan, Liu, Wenjie, Wu, Xun, Mao, Yifan, Li, Ming, Liu, Jian, Liu, Jiayang, Qin, Zihan, Chu, Cunxi, Xu, Jialei, Zhao, Wenbo, Jiang, Junjun, Liu, Xianming, Wang, Ziyan, Li, Chiwei, Li, Shilong, Yuan, Chendong, Yang, Songyue, Liu, Wentao, Chen, Peng, Zhou, Bin, Wang, Yubo, Zhang, Chi, Sun, Jianhang, Chen, Hai, Yang, Xiao, Wang, Lizhong, Fu, Dongyi, Lin, Yongchun, Yang, Huitong, Li, Haoang, Luo, Yadan, Cheng, Xianjing, and Xu, Yong

Subjects

Computer Science - Computer Vision and Pattern Recognition, Computer Science - Robotics

Abstract

In the realm of autonomous driving, robust perception under out-of-distribution conditions is paramount for the safe deployment of vehicles. Challenges such as adverse weather, sensor malfunctions, and environmental unpredictability can severely impact the performance of autonomous systems. The 2024 RoboDrive Challenge was crafted to propel the development of driving perception technologies that can withstand and adapt to these real-world variabilities. Focusing on four pivotal tasks -- BEV detection, map segmentation, semantic occupancy prediction, and multi-view depth estimation -- the competition laid down a gauntlet to innovate and enhance system resilience against typical and atypical disturbances. This year's challenge consisted of five distinct tracks and attracted 140 registered teams from 93 institutes across 11 countries, resulting in nearly one thousand submissions evaluated through our servers. The competition culminated in 15 top-performing solutions, which introduced a range of innovative approaches including advanced data augmentation, multi-sensor fusion, self-supervised learning for error correction, and new algorithmic strategies to enhance sensor robustness. These contributions significantly advanced the state of the art, particularly in handling sensor inconsistencies and environmental variability. Participants, through collaborative efforts, pushed the boundaries of current technologies, showcasing their potential in real-world scenarios. Extensive evaluations and analyses provided insights into the effectiveness of these solutions, highlighting key trends and successful strategies for improving the resilience of driving perception systems. This challenge has set a new benchmark in the field, providing a rich repository of techniques expected to guide future research in this field., Comment: ICRA 2024; 32 pages, 24 figures, 5 tables; Code at https://robodrive-24.github.io/

Published

2024

2. OpenESS: Event-based Semantic Scene Understanding with Open Vocabularies

Author

Kong, Lingdong, Liu, Youquan, Ng, Lai Xing, Cottereau, Benoit R., and Ooi, Wei Tsang

Subjects

Computer Science - Computer Vision and Pattern Recognition, Computer Science - Robotics

Abstract

Event-based semantic segmentation (ESS) is a fundamental yet challenging task for event camera sensing. The difficulties in interpreting and annotating event data limit its scalability. While domain adaptation from images to event data can help to mitigate this issue, there exist data representational differences that require additional effort to resolve. In this work, for the first time, we synergize information from image, text, and event-data domains and introduce OpenESS to enable scalable ESS in an open-world, annotation-efficient manner. We achieve this goal by transferring the semantically rich CLIP knowledge from image-text pairs to event streams. To pursue better cross-modality adaptation, we propose a frame-to-event contrastive distillation and a text-to-event semantic consistency regularization. Experimental results on popular ESS benchmarks showed our approach outperforms existing methods. Notably, we achieve 53.93% and 43.31% mIoU on DDD17 and DSEC-Semantic without using either event or frame labels., Comment: CVPR 2024 (Highlight); 26 pages, 12 figures, 11 tables; Code at https://github.com/ldkong1205/OpenESS

Published

2024

3. Canonical scattering problem in topological metamaterials: Valley-Hall modes through a bend

Author

Torres, Theo, Bellis, Cédric, Cottereau, Régis, and Coutant, Antonin

Subjects

Condensed Matter - Mesoscale and Nanoscale Physics, Physics - Classical Physics, Physics - Optics

Abstract

We study the amount of backscattering of Valley Hall modes in a classical topological insulator. In reciprocal systems, the conservation of the valley index has been argued to be at the root of the high-transmission of Valley Hall modes, observed in many experimental realisations. Here, we reconsider this hypothesis by quantitatively analysing the canonical scattering problem of interface Valley Hall modes impinging on sharp bends which may or may not conserve the valley index. We consider a tight binding model of graphene ribbons with an interface and compute the reflection and transmission coefficients using a transfer matrix formalism. We find that, in all configurations considered, the transmission of Valley Hall modes is close to being maximal, even in cases where the valley index is not conserved. Hence there appears to be no correlation between valley conservation and good transmission. Our results serve as a reference case for the design of Valley Hall type metamaterial., Comment: 47 pages, 25 figures, 2 extra appendices, modified figures/introduction/conclusion, references added

Published

2023

4. RoboDepth: Robust Out-of-Distribution Depth Estimation under Corruptions

Author

Kong, Lingdong, Xie, Shaoyuan, Hu, Hanjiang, Ng, Lai Xing, Cottereau, Benoit R., and Ooi, Wei Tsang

Subjects

Computer Science - Computer Vision and Pattern Recognition, Computer Science - Robotics

Abstract

Depth estimation from monocular images is pivotal for real-world visual perception systems. While current learning-based depth estimation models train and test on meticulously curated data, they often overlook out-of-distribution (OoD) situations. Yet, in practical settings -- especially safety-critical ones like autonomous driving -- common corruptions can arise. Addressing this oversight, we introduce a comprehensive robustness test suite, RoboDepth, encompassing 18 corruptions spanning three categories: i) weather and lighting conditions; ii) sensor failures and movement; and iii) data processing anomalies. We subsequently benchmark 42 depth estimation models across indoor and outdoor scenes to assess their resilience to these corruptions. Our findings underscore that, in the absence of a dedicated robustness evaluation framework, many leading depth estimation models may be susceptible to typical corruptions. We delve into design considerations for crafting more robust depth estimation models, touching upon pre-training, augmentation, modality, model capacity, and learning paradigms. We anticipate our benchmark will establish a foundational platform for advancing robust OoD depth estimation., Comment: NeurIPS 2023; 45 pages, 25 figures, 13 tables; Code at https://github.com/ldkong1205/RoboDepth

Published

2023

5. tRNS boosts visual perceptual learning in participants with bilateral macular degeneration

Author

Contemori, Giulio, Maniglia, Marcello, Guénot, Jade, Soler, Vincent, Cherubini, Marta, Cottereau, Benoit R, and Trotter, Yves

Subjects

Biomedical and Clinical Sciences, Ophthalmology and Optometry, Clinical Research, Eye Disease and Disorders of Vision, Neurodegenerative, Neurosciences, Eye, macular degeneration, perceptual learning, tRNS, contrast detection, transfer of learning, Biochemistry and Cell Biology, Cognitive Sciences, Biological psychology

Abstract

Perceptual learning (PL) has shown promise in enhancing residual visual functions in patients with age-related macular degeneration (MD), however it requires prolonged training and evidence of generalization to untrained visual functions is limited. Recent studies suggest that combining transcranial random noise stimulation (tRNS) with perceptual learning produces faster and larger visual improvements in participants with normal vision. Thus, this approach might hold the key to improve PL effects in MD. To test this, we trained two groups of MD participants on a contrast detection task with (n = 5) or without (n = 7) concomitant occipital tRNS. The training consisted of a lateral masking paradigm in which the participant had to detect a central low contrast Gabor target. Transfer tasks, including contrast sensitivity, near and far visual acuity, and visual crowding, were measured at pre-, mid and post-tests. Combining tRNS and perceptual learning led to greater improvements in the trained task, evidenced by a larger increment in contrast sensitivity and reduced inhibition at the shortest target to flankers' distance. The overall amount of transfer was similar between the two groups. These results suggest that coupling tRNS and perceptual learning has promising potential applications as a clinical rehabilitation strategy to improve vision in MD patients.

Published

2024

6. Multi-level Neural Networks for Accurate Solutions of Boundary-Value Problems

Author

Aldirany, Ziad, Cottereau, Régis, Laforest, Marc, and Prudhomme, Serge

Subjects

Mathematics - Numerical Analysis

Abstract

The solution to partial differential equations using deep learning approaches has shown promising results for several classes of initial and boundary-value problems. However, their ability to surpass, particularly in terms of accuracy, classical discretization methods such as the finite element methods, remains a significant challenge. Deep learning methods usually struggle to reliably decrease the error in their approximate solution. A new methodology to better control the error for deep learning methods is presented here. The main idea consists in computing an initial approximation to the problem using a simple neural network and in estimating, in an iterative manner, a correction by solving the problem for the residual error with a new network of increasing complexity. This sequential reduction of the residual of the partial differential equation allows one to decrease the solution error, which, in some cases, can be reduced to machine precision. The underlying explanation is that the method is able to capture at each level smaller scales of the solution using a new network. Numerical examples in 1D and 2D are presented to demonstrate the effectiveness of the proposed approach. This approach applies not only to physics informed neural networks but to other neural network solvers based on weak or strong formulations of the residual., Comment: 34 pages, 20 figures

Published

2023

7. Weak localization in radiative transfer of acoustic waves in a randomly-fluctuating slab

Author

Messaoudi, Adel, Cottereau, Régis, and Gomez, Christophe

Subjects

Mathematics - Analysis of PDEs, Mathematical Physics, Physics - Classical Physics, 74E35, 74J20, 74Q10, 82D30, 85A25

Abstract

This paper concerns the derivation of radiative transfer equations for acoustic waves propagating in a randomly fluctuating slab (between two parallel planes) in the weak-scattering regime, and the study of boundary effects through an asymptotic analysis of the Wigner transform of the wave solution. These radiative transfer equations allow to model the transport of wave energy density, taking into account the scattering by random heterogeneities. The approach builds on the method of images, where the slab is extended to a full-space, with a periodic map of mechanical properties and a series of sources located along a periodic pattern. Two types of boundary effects, both on the (small) scale of the wavelength, are observed: one at the boundaries of the slab, and one inside the domain. The former impact the entire energy density (coherent as well as incoherent) and is also observed in half-spaces. The latter, more specific to slabs, corresponds to the constructive interference of waves that have reflected at least twice on the boundaries of the slab and only impacts the coherent part of the energy density., Comment: 7 figures

Published

2023

8. The RoboDepth Challenge: Methods and Advancements Towards Robust Depth Estimation

Author

Kong, Lingdong, Niu, Yaru, Xie, Shaoyuan, Hu, Hanjiang, Ng, Lai Xing, Cottereau, Benoit R., Zhang, Liangjun, Wang, Hesheng, Ooi, Wei Tsang, Zhu, Ruijie, Song, Ziyang, Liu, Li, Zhang, Tianzhu, Yu, Jun, Jing, Mohan, Li, Pengwei, Qi, Xiaohua, Jin, Cheng, Chen, Yingfeng, Hou, Jie, Zhang, Jie, Kan, Zhen, Ling, Qiang, Peng, Liang, Li, Minglei, Xu, Di, Yang, Changpeng, Yao, Yuanqi, Wu, Gang, Kuai, Jian, Liu, Xianming, Jiang, Junjun, Huang, Jiamian, Li, Baojun, Chen, Jiale, Zhang, Shuang, Ao, Sun, Li, Zhenyu, Chen, Runze, Luo, Haiyong, Zhao, Fang, and Yu, Jingze

Subjects

Computer Science - Computer Vision and Pattern Recognition, Computer Science - Robotics

Abstract

Accurate depth estimation under out-of-distribution (OoD) scenarios, such as adverse weather conditions, sensor failure, and noise contamination, is desirable for safety-critical applications. Existing depth estimation systems, however, suffer inevitably from real-world corruptions and perturbations and are struggled to provide reliable depth predictions under such cases. In this paper, we summarize the winning solutions from the RoboDepth Challenge -- an academic competition designed to facilitate and advance robust OoD depth estimation. This challenge was developed based on the newly established KITTI-C and NYUDepth2-C benchmarks. We hosted two stand-alone tracks, with an emphasis on robust self-supervised and robust fully-supervised depth estimation, respectively. Out of more than two hundred participants, nine unique and top-performing solutions have appeared, with novel designs ranging from the following aspects: spatial- and frequency-domain augmentations, masked image modeling, image restoration and super-resolution, adversarial training, diffusion-based noise suppression, vision-language pre-training, learned model ensembling, and hierarchical feature enhancement. Extensive experimental analyses along with insightful observations are drawn to better understand the rationale behind each design. We hope this challenge could lay a solid foundation for future research on robust and reliable depth estimation and beyond. The datasets, competition toolkit, workshop recordings, and source code from the winning teams are publicly available on the challenge website., Comment: Technical Report; 65 pages, 34 figures, 24 tables; Code at https://github.com/ldkong1205/RoboDepth

Published

2023

9. Operator approximation of the wave equation based on deep learning of Green's function

Author

Aldirany, Ziad, Cottereau, Régis, Laforest, Marc, and Prudhomme, Serge

Subjects

Mathematics - Numerical Analysis, G.1.8

Abstract

Deep operator networks (DeepONets) have demonstrated their capability of approximating nonlinear operators for initial- and boundary-value problems. One attractive feature of DeepONets is their versatility since they do not rely on prior knowledge about the solution structure of a problem and can thus be directly applied to a large class of problems. However, convergence in identifying the parameters of the networks may sometimes be slow. In order to improve on DeepONets for approximating the wave equation, we introduce the Green operator networks (GreenONets), which use the representation of the exact solution to the homogeneous wave equation in term of the Green's function. The performance of GreenONets and DeepONets is compared on a series of numerical experiments for homogeneous and heterogeneous media in one and two dimensions., Comment: 15 pages, 11 figures

Published

2023

10. Single-nucleus RNA sequencing reveals glial cell type-specific responses to ischemic stroke in male rodents

Author

Bormann, Daniel, Knoflach, Michael, Poreba, Emilia, Riedl, Christian J., Testa, Giulia, Orset, Cyrille, Levilly, Anthony, Cottereau, Andréa, Jauk, Philipp, Hametner, Simon, Stranzl, Nadine, Golabi, Bahar, Copic, Dragan, Klas, Katharina, Direder, Martin, Kühtreiber, Hannes, Salek, Melanie, zur Nedden, Stephanie, Baier-Bitterlich, Gabriele, Kiechl, Stefan, Haider, Carmen, Endmayr, Verena, Höftberger, Romana, Ankersmit, Hendrik J., and Mildner, Michael

Published

2024

11. Single-nucleus RNA sequencing reveals glial cell type-specific responses to ischemic stroke in male rodents

Author

Daniel Bormann, Michael Knoflach, Emilia Poreba, Christian J. Riedl, Giulia Testa, Cyrille Orset, Anthony Levilly, Andréa Cottereau, Philipp Jauk, Simon Hametner, Nadine Stranzl, Bahar Golabi, Dragan Copic, Katharina Klas, Martin Direder, Hannes Kühtreiber, Melanie Salek, Stephanie zur Nedden, Gabriele Baier-Bitterlich, Stefan Kiechl, Carmen Haider, Verena Endmayr, Romana Höftberger, Hendrik J. Ankersmit, and Michael Mildner

Subjects

Science

Abstract

Abstract Neuroglia critically shape the brain´s response to ischemic stroke. However, their phenotypic heterogeneity impedes a holistic understanding of the cellular composition of the early ischemic lesion. Here we present a single cell resolution transcriptomics dataset of the brain´s acute response to infarction. Oligodendrocyte lineage cells and astrocytes range among the most transcriptionally perturbed populations and exhibit infarction- and subtype-specific molecular signatures. Specifically, we find infarction restricted proliferating oligodendrocyte precursor cells (OPCs), mature oligodendrocytes and reactive astrocytes, exhibiting transcriptional commonalities in response to ischemic injury. OPCs and reactive astrocytes are involved in a shared immuno-glial cross talk with stroke-specific myeloid cells. Within the perilesional zone, osteopontin positive myeloid cells accumulate in close proximity to CD44+ proliferating OPCs and reactive astrocytes. In vitro, osteopontin increases the migratory capacity of OPCs. Collectively, our study highlights molecular cross talk events which might govern the cellular composition of acutely infarcted brain tissue.

Published

2024

12. Optical flow estimation from event-based cameras and spiking neural networks

Author

Cuadrado, Javier, Rançon, Ulysse, Cottereau, Benoît, Barranco, Francisco, and Masquelier, Timothée

Subjects

Computer Science - Computer Vision and Pattern Recognition

Abstract

Event-based cameras are raising interest within the computer vision community. These sensors operate with asynchronous pixels, emitting events, or "spikes", when the luminance change at a given pixel since the last event surpasses a certain threshold. Thanks to their inherent qualities, such as their low power consumption, low latency and high dynamic range, they seem particularly tailored to applications with challenging temporal constraints and safety requirements. Event-based sensors are an excellent fit for Spiking Neural Networks (SNNs), since the coupling of an asynchronous sensor with neuromorphic hardware can yield real-time systems with minimal power requirements. In this work, we seek to develop one such system, using both event sensor data from the DSEC dataset and spiking neural networks to estimate optical flow for driving scenarios. We propose a U-Net-like SNN which, after supervised training, is able to make dense optical flow estimations. To do so, we encourage both minimal norm for the error vector and minimal angle between ground-truth and predicted flow, training our model with back-propagation using a surrogate gradient. In addition, the use of 3d convolutions allows us to capture the dynamic nature of the data by increasing the temporal receptive fields. Upsampling after each decoding stage ensures that each decoder's output contributes to the final estimation. Thanks to separable convolutions, we have been able to develop a light model (when compared to competitors) that can nonetheless yield reasonably accurate optical flow estimates., Comment: 9 pages, 3 figures and 3 tables, plus Supplementary Materials

Published

2023

13. OpenESS: Event-Based Semantic Scene Understanding with Open Vocabularies.

Author

Lingdong Kong, Youquan Liu, Lai Xing Ng, Benoit R. Cottereau, and Wei Tsang Ooi

Published

2024

14. Efficient multi-scale representation of visual objects using a biologically plausible spike-latency code and winner-take-all inhibition

Author

Sanchez-Garcia, Melani, Chauhan, Tushar, Cottereau, Benoit R, and Beyeler, Michael

Subjects

Information and Computing Sciences, Biomedical and Clinical Sciences, Neurosciences, Machine Learning, Eye Disease and Disorders of Vision, Underpinning research, 1.1 Normal biological development and functioning, Neurological, Affordable and Clean Energy, Humans, Neuronal Plasticity, Models, Neurological, Neural Networks, Computer, Learning, Visual Perception, Spiking neural networks, Spike-timing-dependent-plasticity, Multi-scale processing, Spike-latency code, Winner-take-all inhibition, Other Physical Sciences, Artificial Intelligence and Image Processing, Cognitive Sciences, Neurology & Neurosurgery, Bioinformatics and computational biology, Applied computing

Abstract

Deep neural networks have surpassed human performance in key visual challenges such as object recognition, but require a large amount of energy, computation, and memory. In contrast, spiking neural networks (SNNs) have the potential to improve both the efficiency and biological plausibility of object recognition systems. Here we present a SNN model that uses spike-latency coding and winner-take-all inhibition (WTA-I) to efficiently represent visual stimuli using multi-scale parallel processing. Mimicking neuronal response properties in early visual cortex, images were preprocessed with three different spatial frequency (SF) channels, before they were fed to a layer of spiking neurons whose synaptic weights were updated using spike-timing-dependent-plasticity. We investigate how the quality of the represented objects changes under different SF bands and WTA-I schemes. We demonstrate that a network of 200 spiking neurons tuned to three SFs can efficiently represent objects with as little as 15 spikes per neuron. Studying how core object recognition may be implemented using biologically plausible learning rules in SNNs may not only further our understanding of the brain, but also lead to novel and efficient artificial vision systems.

Published

2023

15. Efficient multi-scale representation of visual objects using a biologically plausible spike-latency code and winner-take-all inhibition

Author

Sanchez-Garcia, Melani, Chauhan, Tushar, Cottereau, Benoit R., and Beyeler, Michael

Subjects

Quantitative Biology - Neurons and Cognition

Abstract

Deep neural networks have surpassed human performance in key visual challenges such as object recognition, but require a large amount of energy, computation, and memory. In contrast, spiking neural networks (SNNs) have the potential to improve both the efficiency and biological plausibility of object recognition systems. Here we present a SNN model that uses spike-latency coding and winner-take-all inhibition (WTA-I) to efficiently represent visual stimuli using multi-scale parallel processing. Mimicking neuronal response properties in early visual cortex, images were preprocessed with three different spatial frequency (SF) channels, before they were fed to a layer of spiking neurons whose synaptic weights were updated using spike-timing-dependent-plasticity (STDP). We investigate how the quality of the represented objects changes under different SF bands and WTA-I schemes. We demonstrate that a network of 200 spiking neurons tuned to three SFs can efficiently represent objects with as little as 15 spikes per neuron. Studying how core object recognition may be implemented using biologically plausible learning rules in SNNs may not only further our understanding of the brain, but also lead to novel and efficient artificial vision systems., Comment: MSG and TC are co-first authors. BRC and MB are co-last authors. arXiv admin note: text overlap with arXiv:2205.10338

Published

2022

16. Boundary effects in Radiative Transfer of acoustic waves in a randomly fluctuating half-space

Author

Messaoudi, Adel, Cottereau, Regis, and Gomez, Christophe

Subjects

Physics - Classical Physics, Physics - Medical Physics

Abstract

This paper concerns the derivation of radiative transfer equations for acoustic waves propagating in a randomly fluctuating half-space in the weak-scattering regime, and the study of boundary effects through an asymptotic analysis of the Wigner transform of the wave solution. These radiative transfer equations allow to model the transport of wave energy density, taking into account the scattering by random heterogeneities. The approach builds on the method of images, where the half-space problem is extended to a full-space, with two symmetric sources and an even map of mechanical properties. Two contributions to the total energy density are then identified: one similar to the energy density propagation in a full-space, for which the resulting lack of statistical stationarity of the medium properties has no leading-order effect; and one supported within one wavelength of the boundary, which describes interference effects between the waves produced by the two symmetric sources. In the case of a homogeneous Neumann boundary conditions, this boundary effect yields a doubling of the intensity, and in the case of homogeneous Dirichlet boundary conditions, a canceling of that intensity.

Published

2022

17. Efficient visual object representation using a biologically plausible spike-latency code and winner-take-all inhibition

Author

Sanchez-Garcia, Melani, Chauhan, Tushar, Cottereau, Benoit R., and Beyeler, Michael

Subjects

Computer Science - Computer Vision and Pattern Recognition

Abstract

Deep neural networks have surpassed human performance in key visual challenges such as object recognition, but require a large amount of energy, computation, and memory. In contrast, spiking neural networks (SNNs) have the potential to improve both the efficiency and biological plausibility of object recognition systems. Here we present a SNN model that uses spike-latency coding and winner-take-all inhibition (WTA-I) to efficiently represent visual stimuli from the Fashion MNIST dataset. Stimuli were preprocessed with center-surround receptive fields and then fed to a layer of spiking neurons whose synaptic weights were updated using spike-timing-dependent-plasticity (STDP). We investigate how the quality of the represented objects changes under different WTA-I schemes and demonstrate that a network of 150 spiking neurons can efficiently represent objects with as little as 40 spikes. Studying how core object recognition may be implemented using biologically plausible learning rules in SNNs may not only further our understanding of the brain, but also lead to novel and efficient artificial vision systems.

Published

2022

18. Crossover Between Quantum and Classical Waves and High Frequency Localization Landscapes

Author

Colas, David, Bellis, Cédric, Lombard, Bruno, and Cottereau, Régis

Subjects

Condensed Matter - Disordered Systems and Neural Networks, Condensed Matter - Quantum Gases, Physics - Classical Physics

Abstract

Anderson localization is a universal interference phenomenon occurring when a wave evolves through a random medium and it has been observed in a great variety of physical systems, either quantum or classical. The recently developed localization landscape theory offers a computationally affordable way to obtain useful information on the localized modes, such as their location or size. Here we examine this theory in the context of classical waves exhibiting high frequency localization and for which the original localization landscape approach is no longer informative. Using a Webster's transformation, we convert a classical wave equation into a Schr\"{o}dinger equation with the same localization properties. We then compute an adapted localization landscape to retrieve information on the original classical system. This work offers an affordable way to access key information on high-frequency mode localization.

Published

2022

19. Weak localization in radiative transfer of acoustic waves in a randomly-fluctuating slab

Author

Messaoudi, Adel, Cottereau, Régis, and Gomez, Christophe

Published

2024

20. Classic Hodgkin Lymphoma: The LYSA pragmatic guidelines

Author

Rossi, Cédric, Manson, Guillaume, Marouf, Amira, Cabannes-Lamy, Aurélie, Nicolas-Virelizier, Emmanuelle, Maerevoet, Marie, Alcantara, Marion, Molina, Lysiane, Ceraulo, Antony, Poirée, Marilyne, Galtier, Jean, Diop, Nadia, Delette, Caroline, Segot, Amandine, Dubois, Sydney, Waultier, Agathe, Bernard, Sophie, Noël, Robin, Guidez, Stéphanie, Kohn, Milena, Bailly, Sébastien, Moatti, Hannah, Touati, Mohamed, Renaud, Loïc, Kanoun, Salim, Cottereau, Anne-Ségolène, Kirova, Youlia, Peignaux, Karine, Dourthe, Marie-Emilie, Simonin, Mathieu, Leblanc, Thierry, Quéro, Laurent, Krzisch, Daphné, Duléry, Remy, Grenier, Adrien, Gastinne, Thomas, Casasnovas, Olivier, Gallamini, Andrea, André, Marc, Morschhauser, Franck, Deau, Bénédicte, Fornecker, Luc-Mathieu, and Ghesquières, Hervé

Published

2024

21. StereoSpike: Depth Learning with a Spiking Neural Network

Author

Rançon, Ulysse, Cuadrado-Anibarro, Javier, Cottereau, Benoit R., and Masquelier, Timothée

Subjects

Computer Science - Computer Vision and Pattern Recognition, Computer Science - Artificial Intelligence, Computer Science - Machine Learning, Computer Science - Neural and Evolutionary Computing

Abstract

Depth estimation is an important computer vision task, useful in particular for navigation in autonomous vehicles, or for object manipulation in robotics. Here we solved it using an end-to-end neuromorphic approach, combining two event-based cameras and a Spiking Neural Network (SNN) with a slightly modified U-Net-like encoder-decoder architecture, that we named StereoSpike. More specifically, we used the Multi Vehicle Stereo Event Camera Dataset (MVSEC). It provides a depth ground-truth, which was used to train StereoSpike in a supervised manner, using surrogate gradient descent. We propose a novel readout paradigm to obtain a dense analog prediction -- the depth of each pixel -- from the spikes of the decoder. We demonstrate that this architecture generalizes very well, even better than its non-spiking counterparts, leading to state-of-the-art test accuracy. To the best of our knowledge, it is the first time that such a large-scale regression problem is solved by a fully spiking network. Finally, we show that low firing rates (<10%) can be obtained via regularization, with a minimal cost in accuracy. This means that StereoSpike could be efficiently implemented on neuromorphic chips, opening the door for low power and real time embedded systems.

Published

2021

22. Processing of translational, radial and rotational optic flow in older adults

Author

Guénot, Jade, Trotter, Yves, Delaval, Angélique, Baurès, Robin, Soler, Vincent, and Cottereau, Benoit R.

Published

2023

23. Processing of translational, radial and rotational optic flow in older adults

Author

Jade Guénot, Yves Trotter, Angélique Delaval, Robin Baurès, Vincent Soler, and Benoit R. Cottereau

Subjects

Medicine, Science

Abstract

Abstract Aging impacts human observer’s performance in a wide range of visual tasks and notably in motion discrimination. Despite numerous studies, we still poorly understand how optic flow processing is impacted in healthy older adults. Here, we estimated motion coherence thresholds in two groups of younger (age: 18–30, n = 42) and older (70–90, n = 42) adult participants for the three components of optic flow (translational, radial and rotational patterns). Stimuli were dynamic random-dot kinematograms (RDKs) projected on a large screen. Participants had to report their perceived direction of motion (leftward versus rightward for translational, inward versus outward for radial and clockwise versus anti-clockwise for rotational patterns). Stimuli had an average speed of 7°/s (additional recordings were performed at 14°/s) and were either presented full-field or in peripheral vision. Statistical analyses showed that thresholds in older adults were similar to those measured in younger participants for translational patterns, thresholds for radial patterns were significantly increased in our slowest condition and thresholds for rotational patterns were significantly decreased. Altogether, these findings support the idea that aging does not lead to a general decline in visual perception but rather has specific effects on the processing of each optic flow component.

Published

2023

24. A Bloch analysis extended to weakly disordered periodic media

Author

Li, Yilun, Cottereau, Régis, and Tie, Bing

Published

2024

25. Operator approximation of the wave equation based on deep learning of Green's function

Author

Aldirany, Ziad, Cottereau, Régis, Laforest, Marc, and Prudhomme, Serge

Published

2024

26. 18F-FDG-PET dissemination features in diffuse large B cell lymphoma are predictive of outcome

Author

Cottereau, Anne-Ségolène, Nioche, Christophe, Dirand, Anne-Sophie, Clerc, Jérôme, Morschhauser, Franck, Casasnovas, Olivier, Meignan, Michel, and Buvat, Irène

Subjects

Physics - Medical Physics

Abstract

We assessed the predictive value of new radiomic features characterizing the lesion dissemination in baseline 18F-FDG PET and tested whether combining them with baseline metabolic tumour volume (MTV) could improve prediction of progression free survival (PFS) and overall survival (OS) in diffuse large B cell lymphoma (DLBCL) patients.

Published

2020

27. Multi-level neural networks for accurate solutions of boundary-value problems

Author

Aldirany, Ziad, Cottereau, Régis, Laforest, Marc, and Prudhomme, Serge

Published

2024

28. Metabolic tumor volume predicts outcome in patients with advanced stage follicular lymphoma from the RELEVANCE trial

Author

Cottereau, A.S., Rebaud, L., Trotman, J., Feugier, P., Nastoupil, L.J., Bachy, E., Flinn, I.W., Haioun, C., Ysebaert, L., Bartlett, N.L., Tilly, H., Casasnovas, O., Ricci, R., Portugues, C., Buvat, I., Meignan, M., and Morschhauser, F.

Published

2024

29. tRNS boosts visual perceptual learning in participants with bilateral macular degeneration

Author

Giulio Contemori, Marcello Maniglia, Jade Guénot, Vincent Soler, Marta Cherubini, Benoit R. Cottereau, and Yves Trotter

Subjects

macular degeneration, perceptual learning, tRNS, contrast detection, transfer of learning, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Perceptual learning (PL) has shown promise in enhancing residual visual functions in patients with age-related macular degeneration (MD), however it requires prolonged training and evidence of generalization to untrained visual functions is limited. Recent studies suggest that combining transcranial random noise stimulation (tRNS) with perceptual learning produces faster and larger visual improvements in participants with normal vision. Thus, this approach might hold the key to improve PL effects in MD. To test this, we trained two groups of MD participants on a contrast detection task with (n = 5) or without (n = 7) concomitant occipital tRNS. The training consisted of a lateral masking paradigm in which the participant had to detect a central low contrast Gabor target. Transfer tasks, including contrast sensitivity, near and far visual acuity, and visual crowding, were measured at pre-, mid and post-tests. Combining tRNS and perceptual learning led to greater improvements in the trained task, evidenced by a larger increment in contrast sensitivity and reduced inhibition at the shortest target to flankers’ distance. The overall amount of transfer was similar between the two groups. These results suggest that coupling tRNS and perceptual learning has promising potential applications as a clinical rehabilitation strategy to improve vision in MD patients.

Published

2024

30. High frequency attenuation of elastic waves transmitted at an angle through a randomly-fluctuating horizontally-layered slab

Author

Colvez, M. and Cottereau, R.

Published

2023

31. Efficacy and safety of crizotinib in ALK-positive systemic anaplastic large-cell lymphoma in children, adolescents, and adult patients: results of the French AcSé-crizotinib trial

Author

Brugières, Laurence, Cozic, Nathalie, Houot, Roch, Rigaud, Charlotte, Sibon, David, Arfi-Rouche, Julia, Bories, Pierre, Cottereau, Anne S., Delmer, Alain, Ducassou, Stephane, Garnier, Nathalie, Lamant, Laurence, Leruste, Amaury, Millot, Frederic, Moalla, S., Morschhauser, Franck, Nolla, Marie, Pagnier, Anne, Reguerre, Yves, Renaud, Loic, Schmitt, Anne, Simonin, Mathieu, Verschuur, Arnaud, Hoog Labouret, Nathalie, Mahier Ait Oukhatar, Celine, and Vassal, Gilles

Published

2023

32. Tumeurs neuroendocrines digestives bien différenciées: focus sur les tumeurs pancréatiques

Author

Pellat, Anna, Barat, Maxime, Cottereau, Anne-Ségolène, Terris, Benoit, and Coriat, Romain

Published

2023

33. European Association of Nuclear Medicine (EANM) Focus 4 consensus recommendations: molecular imaging and therapy in haematological tumours

Author

Nanni, Cristina, Kobe, Carsten, Baeßler, Bettina, Baues, Christian, Boellaard, Ronald, Borchmann, Peter, Buck, Andreas, Buvat, Irène, Chapuy, Björn, Cheson, Bruce D, Chrzan, Robert, Cottereau, Ann-Segolene, Dührsen, Ulrich, Eikenes, Live, Hutchings, Martin, Jurczak, Wojciech, Kraeber-Bodéré, Françoise, Lopci, Egesta, Luminari, Stefano, MacLennan, Steven, Mikhaeel, N George, Nijland, Marcel, Rodríguez-Otero, Paula, Treglia, Giorgio, Withofs, Nadia, Zamagni, Elena, Zinzani, Pier Luigi, Zijlstra, Josée M, Herrmann, Ken, and Kunikowska, Jolanta

Published

2023

34. Towards an optimization of functional localizers in non-human primate neuroimaging with (fMRI) frequency-tagging

Author

Laurent, Marie-Alphée, Audurier, Pauline, De Castro, Vanessa, Gao, Xiaoqing, Durand, Jean-Baptiste, Jonas, Jacques, Rossion, Bruno, and Cottereau, Benoit R.

Published

2023

35. Event-based Extraction of Navigation Features from Unsupervised Learning of Optic Flow Patterns.

Author

Paul Fricker, Tushar Chauhan, Christophe Hurter, and Benoit R. Cottereau

Published

2022

36. A landscape method to unveil high-frequency localized modes in random acoustic metamaterials

Author

Cottereau, Régis, speaker

Abstract

Mechanical media with randomly fluctuating parameters are fundamentally different from periodic (or homogeneous) media in that, above a certain threshold (and depending on dimensionality), eigenmodes are localized. While that feature may be extremely useful in practice, for any application involving vibration isolation, numerical methods currently lack for the prediction of these localized eigenmodes at a reasonable cost. Recently, the so-called localization landscape method was proposed [1] to predict such localized modes in quantum systems (Schrödinger equation). It allows to predict the locus of all the lowest localized eigenmodes by solving one single (cheap) elliptic problem. Although very elegant, this method is not useful for classical (acoustic) equations because the lower eigenmodes for this equation are de-localized and essentially hide the higher modes, which are of interest. The talk will discuss and compare the operators corresponding to the quantum and classical equations and describe a technique to use the localization landscape method with the acoustic operator.

Published

2023

37. RoboDepth: Robust Out-of-Distribution Depth Estimation under Corruptions.

Author

Lingdong Kong, Shaoyuan Xie, Hanjiang Hu, Lai Xing Ng, Benoit Cottereau, and Wei Tsang Ooi

Published

2023

38. Severity and phenotypes of dyspnea in asthma: Impact of comorbidities

Author

Bousso, Awa, Chuffart, Celine, Leroy, Maxime, Gicquello, Alice, Cottereau, Aurelie, Hennegrave, Florence, Beurnier, Antoine, Stoup, Thomas, Pereira, Sophie, Morelot-Panzini, Capucine, Taille, Camille, Bautin, Nathalie, Fry, Stephanie, Perez, Thierry, Garcia, Gilles, and Chenivesse, Cecile

Published

2023

39. Artificial intelligence in adrenal imaging: A critical review of current applications

Author

Barat, Maxime, Gaillard, Martin, Cottereau, Anne-Ségolène, Fishman, Elliot K., Assié, Guillaume, Jouinot, Anne, Hoeffel, Christine, Soyer, Philippe, and Dohan, Anthony

Published

2023

40. A tumor volume and performance status model to predict outcome before treatment in diffuse large B-cell lymphoma

Author

Thieblemont, Catherine, Chartier, Loic, Dührsen, Ulrich, Vitolo, Umberto, Barrington, Sally F., Zaucha, Jan M., Vercellino, Laetitia, Gomes Silva, Maria, Patrocinio-Carvalho, Ines, Decazes, Pierre, Viailly, Pierre-Julien, Tilly, Herve, Berriolo-Riedinger, Alina, Casasnovas, Oliver, Hüttmann, Andreas, Ilyas, Hajira, Mikhaeel, N. George, Dunn, Joel, Cottereau, Anne-Ségolène, Schmitz, Christine, Kostakoglu, Lale, Paulson, Joseph N., Nielsen, Tina, and Meignan, Michael

Published

2022

41. Introducing a moving load in a simulation in time over a truncated unbounded domain

Author

Dec, Patryk, Cottereau, Régis, and Faure, Baldrik

Published

2022

42. Optical flow estimation from event-based cameras and spiking neural networks

Author

Javier Cuadrado, Ulysse Rançon, Benoit R. Cottereau, Francisco Barranco, and Timothée Masquelier

Subjects

optical flow, event vision, spiking neural networks, neuromorphic computing, edge AI, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Event-based cameras are raising interest within the computer vision community. These sensors operate with asynchronous pixels, emitting events, or “spikes”, when the luminance change at a given pixel since the last event surpasses a certain threshold. Thanks to their inherent qualities, such as their low power consumption, low latency, and high dynamic range, they seem particularly tailored to applications with challenging temporal constraints and safety requirements. Event-based sensors are an excellent fit for Spiking Neural Networks (SNNs), since the coupling of an asynchronous sensor with neuromorphic hardware can yield real-time systems with minimal power requirements. In this work, we seek to develop one such system, using both event sensor data from the DSEC dataset and spiking neural networks to estimate optical flow for driving scenarios. We propose a U-Net-like SNN which, after supervised training, is able to make dense optical flow estimations. To do so, we encourage both minimal norm for the error vector and minimal angle between ground-truth and predicted flow, training our model with back-propagation using a surrogate gradient. In addition, the use of 3d convolutions allows us to capture the dynamic nature of the data by increasing the temporal receptive fields. Upsampling after each decoding stage ensures that each decoder's output contributes to the final estimation. Thanks to separable convolutions, we have been able to develop a light model (when compared to competitors) that can nonetheless yield reasonably accurate optical flow estimates.

Published

2023

43. Towards an optimization of functional localizers in non-human primate neuroimaging with (fMRI) frequency-tagging

Author

Marie-Alphée Laurent, Pauline Audurier, Vanessa De Castro, Xiaoqing Gao, Jean-Baptiste Durand, Jacques Jonas, Bruno Rossion, and Benoit R. Cottereau

Subjects

Face recognition, Macaque, FMRI, Vision, Non-human primate, Frequency-tagging, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Non-human primate (NHP) neuroimaging can provide essential insights into the neural basis of human cognitive functions. While functional magnetic resonance imaging (fMRI) localizers can play an essential role in reaching this objective (Russ et al., 2021), they often differ substantially across species in terms of paradigms, measured signals, and data analysis, biasing the comparisons. Here we introduce a functional frequency-tagging face localizer for NHP imaging, successfully developed in humans and outperforming standard face localizers (Gao et al., 2018). FMRI recordings were performed in two awake macaques. Within a rapid 6 Hz stream of natural non-face objects images, human or monkey face stimuli were presented in bursts every 9 s. We also included control conditions with phase-scrambled versions of all images. As in humans, face-selective activity was objectively identified and quantified at the peak of the face-stimulation frequency (0.111 Hz) and its second harmonic (0.222 Hz) in the Fourier domain. Focal activations with a high signal-to-noise ratio were observed in regions previously described as face-selective, mainly in the STS (clusters PL, ML, MF; also, AL, AF), both for human and monkey faces. Robust face-selective activations were also found in the prefrontal cortex of one monkey (PVL and PO clusters). Face-selective neural activity was highly reliable and excluded all contributions from low-level visual cues contained in the amplitude spectrum of the stimuli. These observations indicate that fMRI frequency-tagging provides a highly valuable approach to objectively compare human and monkey visual recognition systems within the same framework.

Published

2023

44. Intérêt de l’interprétation collégiale de l’échographie cervicale, de la scintigraphie 99mTc-MIBI et de la TEP-TDM à la 18-Fluorocholine dans l’hyperparathyroïdie primaire : expérience du service de médecine nucléaire de l’hôpital Cochin

Author

Mekhail, S., Dudoignon, D., Delbot, T., Cottereau, A.S., Dechmi, A., Bienvenu, M., Koumakis, E., Cormier, C., Gaujoux, S., Groussin, L., Cochand-Priollet, B., Clerc, J., and Wartski, M.

Published

2022

45. A landscape method to unveil high-frequency localized modes of the classical wave equation in heterogeneous media

Author

Cottereau, Régis, speaker

Abstract

In this work we investigate Anderson localization in random acoustic structures through the localization landscape theory. We discuss its limitations for acoustic waves and introduce modifications to recover useful information on localized modes.

Published

2022

46. 18F-fluorocholine PET/CT and conventional imaging in primary hyperparathyroidism

Author

Dudoignon, David, Delbot, Thierry, Cottereau, Anne Ségolène, Dechmi, Amina, Bienvenu, Marie, Koumakis, Eugénie, Cormier, Catherine, Gaujoux, Sébastien, Groussin, Lionel, Cochand-Priollet, Béatrix, Clerc, Jérome, and Wartski, Myriam

Published

2022

47. Canonical scattering problem in topological metamaterials: Valley-Hall modes through a bend.

Author

Torres, Theo, Bellis, Cédric, Cottereau, Régis, and Coutant, Antonin

Subjects

TOPOLOGICAL insulators, TRANSFER matrix, REFLECTANCE, BACKSCATTERING, GRAPHENE

Abstract

We study the amount of backscattering of Valley-Hall modes in a classical topological insulator. In reciprocal systems, the conservation of the valley index has been argued to be at the root of the high transmission of Valley-Hall modes observed in many experimental realizations. Here, we reconsider this hypothesis by quantitatively analysing the canonical scattering problem of interface Valley-Hall modes impinging on sharp bends that may or may not conserve the valley index. We consider a tight binding model of graphene ribbons with an interface and compute the reflection and transmission coefficients using the transfer matrix formalism. We find that, in all configurations considered, the transmission of Valley-Hall modes is close to being maximal, even in cases where the valley index is not conserved. Hence, there appears to be no correlation between valley conservation and good transmission. Our results serve as a reference case for the design of Valley-Hall type metamaterial. [ABSTRACT FROM AUTHOR]

Published

2024

48. Defect modes in imperfect periodic structures.

Author

Li, Yilun, Cottereau, Régis, and Tie, Bing

Published

2024

49. Identification of a Randomly-Fluctuating Continuous Model of the Ballasted Track Based on Measurements at the Pass-By of High-Speed Trains

Author

Dec, Patryk, Cottereau, Régis, Faure, Baldrik, Hirschel, Ernst Heinrich, Founding Editor, Schröder, Wolfgang, Series Editor, Boersma, Bendiks Jan, Editorial Board Member, Fujii, Kozo, Editorial Board Member, Haase, Werner, Editorial Board Member, Leschziner, Michael A., Editorial Board Member, Periaux, Jacques, Editorial Board Member, Pirozzoli, Sergio, Editorial Board Member, Rizzi, Arthur, Editorial Board Member, Roux, Bernard, Editorial Board Member, Shokin, Yurii I., Editorial Board Member, Mäteling, Esther, Managing Editor, Degrande, Geert, editor, Lombaert, Geert, editor, Anderson, David, editor, de Vos, Paul, editor, Gautier, Pierre-Etienne, editor, Iida, Masanobu, editor, Nelson, James Tuman, editor, Nielsen, Jens C. O., editor, Thompson, David J., editor, Tielkes, Thorsten, editor, and Towers, David A., editor

Published

2021

50. Positive Correlation Between 18F-FDG Uptake and Tumor-Proliferating Antigen Ki-67 Expression in Adrenocortical Carcinomas

Author

Libé, Rossella, Pais, Aurore, Violon, Florian, Guignat, Laurence, Bonnet, Fideline, Huillard, Olivier, Assié, Guillaume, Gaillard, Martin, Dousset, Bertrand, Gaujoux, Sébastien, Barat, Maxime, Dohan, Anthony, Sibony, Mathilde, Bertherat, Jérôme, Cottereau, Anne Segolene, Tenenbaum, Florence, Coste, Joël, and Groussin, Lionel

Published

2023