Search

Your search keyword '"Jesslen A"' showing total 18 results
Start Over Author "Jesslen A"
18 results on '"Jesslen A"'

1. iNeMo: Incremental Neural Mesh Models for Robust Class-Incremental Learning

Author

Fischer, Tom, Liu, Yaoyao, Jesslen, Artur, Ahmed, Noor, Kaushik, Prakhar, Wang, Angtian, Yuille, Alan, Kortylewski, Adam, and Ilg, Eddy

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Machine Learning
Abstract

Different from human nature, it is still common practice today for vision tasks to train deep learning models only initially and on fixed datasets. A variety of approaches have recently addressed handling continual data streams. However, extending these methods to manage out-of-distribution (OOD) scenarios has not effectively been investigated. On the other hand, it has recently been shown that non-continual neural mesh models exhibit strong performance in generalizing to such OOD scenarios. To leverage this decisive property in a continual learning setting, we propose incremental neural mesh models that can be extended with new meshes over time. In addition, we present a latent space initialization strategy that enables us to allocate feature space for future unseen classes in advance and a positional regularization term that forces the features of the different classes to consistently stay in respective latent space regions. We demonstrate the effectiveness of our method through extensive experiments on the Pascal3D and ObjectNet3D datasets and show that our approach outperforms the baselines for classification by $2-6\%$ in the in-domain and by $6-50\%$ in the OOD setting. Our work also presents the first incremental learning approach for pose estimation. Our code and model can be found at https://github.com/Fischer-Tom/iNeMo., Comment: ECCV-24

Published
2024

2. Unsupervised Learning of Category-Level 3D Pose from Object-Centric Videos

Author

Sommer, Leonhard, Jesslen, Artur, Ilg, Eddy, and Kortylewski, Adam

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Category-level 3D pose estimation is a fundamentally important problem in computer vision and robotics, e.g. for embodied agents or to train 3D generative models. However, so far methods that estimate the category-level object pose require either large amounts of human annotations, CAD models or input from RGB-D sensors. In contrast, we tackle the problem of learning to estimate the category-level 3D pose only from casually taken object-centric videos without human supervision. We propose a two-step pipeline: First, we introduce a multi-view alignment procedure that determines canonical camera poses across videos with a novel and robust cyclic distance formulation for geometric and appearance matching using reconstructed coarse meshes and DINOv2 features. In a second step, the canonical poses and reconstructed meshes enable us to train a model for 3D pose estimation from a single image. In particular, our model learns to estimate dense correspondences between images and a prototypical 3D template by predicting, for each pixel in a 2D image, a feature vector of the corresponding vertex in the template mesh. We demonstrate that our method outperforms all baselines at the unsupervised alignment of object-centric videos by a large margin and provides faithful and robust predictions in-the-wild. Our code and data is available at https://github.com/GenIntel/uns-obj-pose3d.

Published
2024

3. NOVUM: Neural Object Volumes for Robust Object Classification

Author

Jesslen, Artur, Zhang, Guofeng, Wang, Angtian, Ma, Wufei, Yuille, Alan, Kortylewski, Adam, Goos, Gerhard, Series Editor, Hartmanis, Juris, Founding Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Yung, Moti, Editorial Board Member, Leonardis, Aleš, editor, Ricci, Elisa, editor, Roth, Stefan, editor, Russakovsky, Olga, editor, Sattler, Torsten, editor, and Varol, Gül, editor

Published
2025
Full Text
View/download PDF

4. Animal3D: A Comprehensive Dataset of 3D Animal Pose and Shape

Author

Xu, Jiacong, Zhang, Yi, Peng, Jiawei, Ma, Wufei, Jesslen, Artur, Ji, Pengliang, Hu, Qixin, Zhang, Jiehua, Liu, Qihao, Wang, Jiahao, Ji, Wei, Wang, Chen, Yuan, Xiaoding, Kaushik, Prakhar, Zhang, Guofeng, Liu, Jie, Xie, Yushan, Cui, Yawen, Yuille, Alan, and Kortylewski, Adam

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Machine Learning
Abstract

Accurately estimating the 3D pose and shape is an essential step towards understanding animal behavior, and can potentially benefit many downstream applications, such as wildlife conservation. However, research in this area is held back by the lack of a comprehensive and diverse dataset with high-quality 3D pose and shape annotations. In this paper, we propose Animal3D, the first comprehensive dataset for mammal animal 3D pose and shape estimation. Animal3D consists of 3379 images collected from 40 mammal species, high-quality annotations of 26 keypoints, and importantly the pose and shape parameters of the SMAL model. All annotations were labeled and checked manually in a multi-stage process to ensure highest quality results. Based on the Animal3D dataset, we benchmark representative shape and pose estimation models at: (1) supervised learning from only the Animal3D data, (2) synthetic to real transfer from synthetically generated images, and (3) fine-tuning human pose and shape estimation models. Our experimental results demonstrate that predicting the 3D shape and pose of animals across species remains a very challenging task, despite significant advances in human pose estimation. Our results further demonstrate that synthetic pre-training is a viable strategy to boost the model performance. Overall, Animal3D opens new directions for facilitating future research in animal 3D pose and shape estimation, and is publicly available., Comment: 11 pages, 5 figures, link to the dataset: https://xujiacong.github.io/Animal3D/

Published
2023

5. NOVUM: Neural Object Volumes for Robust Object Classification

Author

Jesslen, Artur, Zhang, Guofeng, Wang, Angtian, Ma, Wufei, Yuille, Alan, and Kortylewski, Adam

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Discriminative models for object classification typically learn image-based representations that do not capture the compositional and 3D nature of objects. In this work, we show that explicitly integrating 3D compositional object representations into deep networks for image classification leads to a largely enhanced generalization in out-of-distribution scenarios. In particular, we introduce a novel architecture, referred to as NOVUM, that consists of a feature extractor and a neural object volume for every target object class. Each neural object volume is a composition of 3D Gaussians that emit feature vectors. This compositional object representation allows for a highly robust and fast estimation of the object class by independently matching the features of the 3D Gaussians of each category to features extracted from an input image. Additionally, the object pose can be estimated via inverse rendering of the corresponding neural object volume. To enable the classification of objects, the neural features at each 3D Gaussian are trained discriminatively to be distinct from (i) the features of 3D Gaussians in other categories, (ii) features of other 3D Gaussians of the same object, and (iii) the background features. Our experiments show that NOVUM offers intriguing advantages over standard architectures due to the 3D compositional structure of the object representation, namely: (1) An exceptional robustness across a spectrum of real-world and synthetic out-of-distribution shifts and (2) an enhanced human interpretability compared to standard models, all while maintaining real-time inference and a competitive accuracy on in-distribution data., Comment: 14 pages, 4 figures, accepted at ECCV 2024, code is accessible at https://github.com/GenIntel/NOVUM

Published
2023

6. OOD-CV-v2: An extended Benchmark for Robustness to Out-of-Distribution Shifts of Individual Nuisances in Natural Images

Author

Zhao, Bingchen, Wang, Jiahao, Ma, Wufei, Jesslen, Artur, Yang, Siwei, Yu, Shaozuo, Zendel, Oliver, Theobalt, Christian, Yuille, Alan, and Kortylewski, Adam

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Enhancing the robustness of vision algorithms in real-world scenarios is challenging. One reason is that existing robustness benchmarks are limited, as they either rely on synthetic data or ignore the effects of individual nuisance factors. We introduce OOD-CV-v2, a benchmark dataset that includes out-of-distribution examples of 10 object categories in terms of pose, shape, texture, context and the weather conditions, and enables benchmarking of models for image classification, object detection, and 3D pose estimation. In addition to this novel dataset, we contribute extensive experiments using popular baseline methods, which reveal that: 1) Some nuisance factors have a much stronger negative effect on the performance compared to others, also depending on the vision task. 2) Current approaches to enhance robustness have only marginal effects, and can even reduce robustness. 3) We do not observe significant differences between convolutional and transformer architectures. We believe our dataset provides a rich test bed to study robustness and will help push forward research in this area. Our dataset can be accessed from https://bzhao.me/OOD-CV/, Comment: arXiv admin note: substantial text overlap with arXiv:2111.14341

Published
2023

11. Animal3D: A Comprehensive Dataset of 3D Animal Pose and Shape.

Author

Jiacong Xu, Yi Zhang 0099, Jiawei Peng, Wufei Ma, Artur Jesslen, Pengliang Ji, Qixin Hu, Jiehua Zhang, Qihao Liu, Jiahao Wang 0001, Wei Ji 0011, Chen Wang 0049, Xiaoding Yuan, Prakhar Kaushik, Guofeng Zhang 0020, Jie Liu 0044, Yushan Xie, Yawen Cui, Alan L. Yuille, and Adam Kortylewski

Published
2023
Full Text
View/download PDF

14. OOD-CV-v2 : An Extended Benchmark for Robustness to Out-of-Distribution Shifts of Individual Nuisances in Natural Images

Author

Zhao, Bingchen, Wang, Jiahao, Ma, Wufei, Jesslen, Artur, Yang, Siwei, Yu, Shaozuo, Zendel, Oliver, Theobalt, Christian, Yuille, Alan L., and Kortylewski, Adam

Abstract

Enhancing the robustness of vision algorithms in real-world scenarios is challenging. One reason is that existing robustness benchmarks are limited, as they either rely on synthetic data or ignore the effects of individual nuisance factors. We introduce OOD-CV-v2, a benchmark dataset that includes out-of-distribution examples of 10 object categories in terms of pose, shape, texture, context and the weather conditions, and enables benchmarking of models for image classification, object detection, and 3D pose estimation. In addition to this novel dataset, we contribute extensive experiments using popular baseline methods, which reveal that: 1) Some nuisance factors have a much stronger negative effect on the performance compared to others, also depending on the vision task. 2) Current approaches to enhance robustness have only marginal effects, and can even reduce robustness. 3) We do not observe significant differences between convolutional and transformer architectures. We believe our dataset provides a rich test bed to study robustness and will help push forward research in this area.

Published
2024
Full Text
View/download PDF

15. Robust 3D-aware Object Classification via Discriminative Render-and-Compare

Author

Jesslen, Artur, Zhang, Guofeng, Wang, Angtian, Yuille, Alan, Kortylewski, Adam, Jesslen, Artur, Zhang, Guofeng, Wang, Angtian, Yuille, Alan, and Kortylewski, Adam

Abstract

In real-world applications, it is essential to jointly estimate the 3D object pose and class label of objects, i.e., to perform 3D-aware classification.While current approaches for either image classification or pose estimation can be extended to 3D-aware classification, we observe that they are inherently limited: 1) Their performance is much lower compared to the respective single-task models, and 2) they are not robust in out-of-distribution (OOD) scenarios. Our main contribution is a novel architecture for 3D-aware classification, which builds upon a recent work and performs comparably to single-task models while being highly robust. In our method, an object category is represented as a 3D cuboid mesh composed of feature vectors at each mesh vertex. Using differentiable rendering, we estimate the 3D object pose by minimizing the reconstruction error between the mesh and the feature representation of the target image. Object classification is then performed by comparing the reconstruction losses across object categories. Notably, the neural texture of the mesh is trained in a discriminative manner to enhance the classification performance while also avoiding local optima in the reconstruction loss. Furthermore, we show how our method and feed-forward neural networks can be combined to scale the render-and-compare approach to larger numbers of categories. Our experiments on PASCAL3D+, occluded-PASCAL3D+, and OOD-CV show that our method outperforms all baselines at 3D-aware classification by a wide margin in terms of performance and robustness.

Published
2023

16. OOD-CV-v2: An extended Benchmark for Robustness to Out-of-Distribution Shifts of Individual Nuisances in Natural Images

Author

Zhao, B., Wang, J., Ma, W., Jesslen, A., Yang, S., Yu, S., Zendel, O., Theobalt, C., Yuille, A., and Kortylewski, A.

Abstract

Enhancing the robustness of vision algorithms in real-world scenarios ischallenging. One reason is that existing robustness benchmarks are limited, asthey either rely on synthetic data or ignore the effects of individual nuisancefactors. We introduce OOD-CV-v2, a benchmark dataset that includesout-of-distribution examples of 10 object categories in terms of pose, shape,texture, context and the weather conditions, and enables benchmarking of modelsfor image classification, object detection, and 3D pose estimation. In additionto this novel dataset, we contribute extensive experiments using popularbaseline methods, which reveal that: 1) Some nuisance factors have a muchstronger negative effect on the performance compared to others, also dependingon the vision task. 2) Current approaches to enhance robustness have onlymarginal effects, and can even reduce robustness. 3) We do not observesignificant differences between convolutional and transformer architectures. Webelieve our dataset provides a rich test bed to study robustness and will helppush forward research in this area. Our dataset can be accessed from http://www.ood-cv.org/challenge.html

Published
2023

18. Long-term results of amalgam versus glass ionomer cement as apical sealant after apicectomy

Author

Jesslen, P., Zetterqvist, L., and Heimdahl, A.

Abstract

A total of 67 teeth in 64 patients were treated with apicectomy and retrograde fillings. They were randomized to receive fillings of amalgam or glass ionomer cement in a comparative clinical study. Healing was evaluated clinically and radiographically after 1 and 5 years. Evaluation showed no difference in healing capacity between the two materials. Overall success rates in both groups were registered as 90% at 1 year and 85% at 5 years. Contamination with blood or saliva during insertion of the filling material did not affect healing adversely. The study shows that the 5-year follow-up result can be predicted in more than 95% of the cases at the 1-year follow-up. It can be concluded that glass ionomer cement is a valid alternative to amalgam as an apical sealant after apicectomy with equally good long-term clinical results.

Published
1995
Full Text
View/download PDF

Catalog

Books, media, physical & digital resources
See catalog results