no code implementations • ECCV 2020 • Ziwei Wang, Quan Zheng, Jiwen Lu, Jie zhou
n this paper, we propose a Deep Hashing method with Active Pairwise Supervision(DH-APS).
no code implementations • 20 Mar 2024 • Quan Zheng, Hao Sun, Huiyao Xu, Fanjiang Xu
Unfortunately, synthesizing novel views remains to be a challenge for input views with heterogeneous brightness level captured under low-light condition.
no code implementations • 14 Mar 2024 • Frank Zhang, Yibo Zhang, Quan Zheng, Rui Ma, Wei Hua, Hujun Bao, Weiwei Xu, Changqing Zou
Text-driven 3D scene generation techniques have made rapid progress in recent years.
no code implementations • 12 Apr 2023 • Shuang Cui, Bingnan Wang, Quan Zheng
To address the issues, we propose a novel aberration correction method with an invertible architecture by leveraging its information-lossless property.
no code implementations • 10 Feb 2023 • Bingnan Wang, Fanjiang Xu, Quan Zheng
The purpose of facial image deblurring is to recover a clear image from a blurry input image, which can improve the recognition accuracy, etc.
no code implementations • 7 Aug 2022 • Quan Zheng, Ziwei Wang, Jie zhou, Jiwen Lu
Explaining deep convolutional neural networks has been recently drawing increasing attention since it helps to understand the networks' internal operations and why they make certain decisions.
no code implementations • 14 Jun 2022 • Mengyu Chu, Lingjie Liu, Quan Zheng, Erik Franz, Hans-Peter Seidel, Christian Theobalt, Rhaleb Zayer
With a hybrid architecture that separates static and dynamic contents, fluid interactions with static obstacles are reconstructed for the first time without additional geometry input or human labeling.
no code implementations • NeurIPS 2021 • Quan Zheng, Gurprit Singh, Hans-Peter Seidel
We propose to learn neural representations for participating media with a complete simulation of global illumination.
no code implementations • 23 Aug 2018 • Quan Zheng, Matthias Zwicker
Importance sampling is one of the most widely used variance reduction strategies in Monte Carlo rendering.