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9 results on '"Ke, Bingxin"'

1. BetterDepth: Plug-and-Play Diffusion Refiner for Zero-Shot Monocular Depth Estimation

Author

Zhang, Xiang, Ke, Bingxin, Riemenschneider, Hayko, Metzger, Nando, Obukhov, Anton, Gross, Markus, Schindler, Konrad, and Schroers, Christopher

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

By training over large-scale datasets, zero-shot monocular depth estimation (MDE) methods show robust performance in the wild but often suffer from insufficiently precise details. Although recent diffusion-based MDE approaches exhibit appealing detail extraction ability, they still struggle in geometrically challenging scenes due to the difficulty of gaining robust geometric priors from diverse datasets. To leverage the complementary merits of both worlds, we propose BetterDepth to efficiently achieve geometrically correct affine-invariant MDE performance while capturing fine-grained details. Specifically, BetterDepth is a conditional diffusion-based refiner that takes the prediction from pre-trained MDE models as depth conditioning, in which the global depth context is well-captured, and iteratively refines details based on the input image. For the training of such a refiner, we propose global pre-alignment and local patch masking methods to ensure the faithfulness of BetterDepth to depth conditioning while learning to capture fine-grained scene details. By efficient training on small-scale synthetic datasets, BetterDepth achieves state-of-the-art zero-shot MDE performance on diverse public datasets and in-the-wild scenes. Moreover, BetterDepth can improve the performance of other MDE models in a plug-and-play manner without additional re-training.

Published
2024

2. Repurposing Diffusion-Based Image Generators for Monocular Depth Estimation

Author

Ke, Bingxin, Obukhov, Anton, Huang, Shengyu, Metzger, Nando, Daudt, Rodrigo Caye, and Schindler, Konrad

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Monocular depth estimation is a fundamental computer vision task. Recovering 3D depth from a single image is geometrically ill-posed and requires scene understanding, so it is not surprising that the rise of deep learning has led to a breakthrough. The impressive progress of monocular depth estimators has mirrored the growth in model capacity, from relatively modest CNNs to large Transformer architectures. Still, monocular depth estimators tend to struggle when presented with images with unfamiliar content and layout, since their knowledge of the visual world is restricted by the data seen during training, and challenged by zero-shot generalization to new domains. This motivates us to explore whether the extensive priors captured in recent generative diffusion models can enable better, more generalizable depth estimation. We introduce Marigold, a method for affine-invariant monocular depth estimation that is derived from Stable Diffusion and retains its rich prior knowledge. The estimator can be fine-tuned in a couple of days on a single GPU using only synthetic training data. It delivers state-of-the-art performance across a wide range of datasets, including over 20% performance gains in specific cases. Project page: https://marigoldmonodepth.github.io., Comment: CVPR 2024 camera ready

Published
2023

3. ImpliCity: City Modeling from Satellite Images with Deep Implicit Occupancy Fields

Author

Stucker, Corinne, Ke, Bingxin, Yue, Yuanwen, Huang, Shengyu, Armeni, Iro, and Schindler, Konrad

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

High-resolution optical satellite sensors, combined with dense stereo algorithms, have made it possible to reconstruct 3D city models from space. However, these models are, in practice, rather noisy and tend to miss small geometric features that are clearly visible in the images. We argue that one reason for the limited quality may be a too early, heuristic reduction of the triangulated 3D point cloud to an explicit height field or surface mesh. To make full use of the point cloud and the underlying images, we introduce ImpliCity, a neural representation of the 3D scene as an implicit, continuous occupancy field, driven by learned embeddings of the point cloud and a stereo pair of ortho-photos. We show that this representation enables the extraction of high-quality DSMs: with image resolution 0.5$\,$m, ImpliCity reaches a median height error of $\approx\,$0.7$\,$m and outperforms competing methods, especially w.r.t. building reconstruction, featuring intricate roof details, smooth surfaces, and straight, regular outlines., Comment: Accepted for publication in the International Annals of the Photogrammetry, Remote Sensing and Spatial Information Sciences (camera-ready version including keywords + supplementary material)

Published
2022
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8. Application of a spontaneously closed protective stoma in an ileal pouch-anal anastomosis: a preliminary study

Author

Wang, Jinhai, Ke, Bingxin, Lin, Jianjiang, Xu, Jiahe, and Chen, Wenbin

Subjects
Original Article
Abstract

Background: To evaluate the application value of a spontaneously closed protective stoma (SCPS) in an ileal pouch-anal anastomosis, which is a novel procedure first performed in our hospital in 2008. Materials and methods: Two males cases with ulcerative colitis and one female with familial adenomatous polyposis were treated with colorectal surgery at the First Affiliated Hospital of Zhejiang University since March 2010. The surgery was designed as total proctocolectomy with an ileal pouch-anal anastomosis and SCPS. The surgical plan and procedure was determined with the patients after analyzing their hospitalized records and follow-up information. Results: No operation-induced death or anastomotic leakage occurred. One patient had a persistent fever and another patient presented with postoperative urinary retention. The average time until flatulence occurred post-SCPS was 26 days, and the average time until the removal of the postoperative stomal tube was 46 days that healed well. Conclusions: An SCPS can effectively protect the anastomosis with a simple operation and avoid the second surgery. Patients with ulcerative colitis require a two-stage operation, those who were in poor health and had a long history of hormone treatment even requiring a three-stage operation. However, a one- or two-stage operation could help alleviate pain for patients who require multiple surgeries and reduce economic burden.

Published
2015

9. Application of a spontaneously closed protective stoma in an ileal pouch-anal anastomosis: a preliminary study.

Author

Wang J, Ke B, Lin J, Xu J, and Chen W

Abstract

Background: To evaluate the application value of a spontaneously closed protective stoma (SCPS) in an ileal pouch-anal anastomosis, which is a novel procedure first performed in our hospital in 2008., Materials and Methods: Two males cases with ulcerative colitis and one female with familial adenomatous polyposis were treated with colorectal surgery at the First Affiliated Hospital of Zhejiang University since March 2010. The surgery was designed as total proctocolectomy with an ileal pouch-anal anastomosis and SCPS. The surgical plan and procedure was determined with the patients after analyzing their hospitalized records and follow-up information., Results: No operation-induced death or anastomotic leakage occurred. One patient had a persistent fever and another patient presented with postoperative urinary retention. The average time until flatulence occurred post-SCPS was 26 days, and the average time until the removal of the postoperative stomal tube was 46 days that healed well., Conclusions: An SCPS can effectively protect the anastomosis with a simple operation and avoid the second surgery. Patients with ulcerative colitis require a two-stage operation, those who were in poor health and had a long history of hormone treatment even requiring a three-stage operation. However, a one- or two-stage operation could help alleviate pain for patients who require multiple surgeries and reduce economic burden.

Published
2015

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