no code implementations • 31 Jul 2024 • Pengjie Zhang, Lin Zhu, Lizhi Wang, Hua Huang
By utilizing a shared feature similarities module, which integrates knowledge from other event flows via temporal or spatial interactions, and distinct task heads, our network can concurrently perform optical flow estimation from temporal inputs (e. g., two segments of event streams in the temporal domain) and stereo matching from spatial inputs (e. g., two segments of event streams from different viewpoints in the spatial domain).
no code implementations • 15 Jul 2024 • Lin Zhu, Yunlong Zheng, Yijun Zhang, Xiao Wang, Lizhi Wang, Hua Huang
However, current methods often prioritize the extraction of temporal information from continuous event flow, leading to an overemphasis on low-frequency texture features in the scene, resulting in over-smoothing and blurry artifacts.
no code implementations • 12 Jun 2024 • Yuanshen Guan, Ruikang Xu, Mingde Yao, Ruisheng Gao, Lizhi Wang, Zhiwei Xiong
In this paper, we propose a diffusion-promoted method for HDR video reconstruction, termed HDR-V-Diff, which incorporates a diffusion model to capture the HDR distribution.
no code implementations • 2 Jun 2024 • Muge Yan, Lizhi Wang, Lin Zhu, Hua Huang
Leveraging the HFC prior, we subsequently establish the frequency domain learning composed of a Spectral-wise self-Attention of Frequency (SAF) and a Spectral-spatial Interaction of Frequency (SIF) targeting low-frequency and high-frequency components, respectively.
1 code implementation • 24 Apr 2024 • Lizhi Wang, Feng Zhou, Bo Yu, Pu Cao, Jianqin Yin
Moreover, to reconstruct the unseen portions of the target, we propose a novel target replenishment technique driven by large-scale generative diffusion priors.
1 code implementation • CVPR 2024 • Lin Zhu, Kangmin Jia, Yifan Zhao, Yunshan Qi, Lizhi Wang, Hua Huang
Spike cameras, leveraging spike-based integration sampling and high temporal resolution, offer distinct advantages over standard cameras.
no code implementations • 4 Feb 2024 • Jie Lian, Lizhi Wang, Lin Zhu, Renwei Dian, Zhiwei Xiong, Hua Huang
To fill this gap, we propose physics-inspired degradation models (PIDM) to model the degradation of LR-HSI and HR-MSI, which comprises a spatial degradation network (SpaDN) and a spectral degradation network (SpeDN).
no code implementations • CVPR 2024 • Mengyue Geng, Lin Zhu, Lizhi Wang, Wei zhang, Ruiqin Xiong, Yonghong Tian
Visible and Infrared image Fusion (VIF) offers a comprehensive scene description by combining thermal infrared images with the rich textures from visible cameras.
1 code implementation • CVPR 2024 • Xin Wang, Lizhi Wang, Xiangtian Ma, Maoqing Zhang, Lin Zhu, Hua Huang
Dual-Camera Compressed Hyperspectral Imaging (DCCHI) offers the capability to reconstruct 3D Hyperspectral Image (HSI) by fusing compressive and Panchromatic (PAN) image, which has shown great potential for snapshot hyperspectral imaging in practice.
no code implementations • 20 Dec 2023 • Xinyuan Liu, Lizhi Wang, Lingen Li, Chang Chen, Xue Hu, Fenglong Song, Youliang Yan
Computational spectral imaging is drawing increasing attention owing to the snapshot advantage, and amplitude, phase, and wavelength encoding systems are three types of representative implementations.
no code implementations • 20 Dec 2023 • Hongyuan Wang, Lizhi Wang, Jiang Xu, Chang Chen, Xue Hu, Fenglong Song, Youliang Yan
By integrating unified spatial-spectral attention and linear dependence, our ECT can model exhaustive correlation within HSI.
1 code implementation • 6 Dec 2023 • Zhuoyan Liu, Bo wang, Lizhi Wang, Chenyu Mao, Ye Li
Multimodal semantic segmentation is developing rapidly, but the modality of RGB-Polarization remains underexplored.
Ranked #1 on Semantic Segmentation on UPLight
1 code implementation • 13 Oct 2023 • Hansen Feng, Lizhi Wang, Yiqi Huang, Yuzhi Wang, Lin Zhu, Hua Huang
Specifically, we integrate physical priors into neural proxies and introduce three efficient techniques: physics-guided noise decoupling (PND), physics-guided proxy model (PPM), and differentiable distribution loss (DDL).
no code implementations • 22 Sep 2023 • Zahra Khalilzadeh, Motahareh Kashanian, Saeed Khaki, Lizhi Wang
This dataset included details on 5, 838 distinct genotypes and daily weather data for a 214-day growing season, enabling comprehensive analysis.
2 code implementations • 12 Sep 2023 • Anthony Cioppa, Silvio Giancola, Vladimir Somers, Floriane Magera, Xin Zhou, Hassan Mkhallati, Adrien Deliège, Jan Held, Carlos Hinojosa, Amir M. Mansourian, Pierre Miralles, Olivier Barnich, Christophe De Vleeschouwer, Alexandre Alahi, Bernard Ghanem, Marc Van Droogenbroeck, Abdullah Kamal, Adrien Maglo, Albert Clapés, Amr Abdelaziz, Artur Xarles, Astrid Orcesi, Atom Scott, Bin Liu, Byoungkwon Lim, Chen Chen, Fabian Deuser, Feng Yan, Fufu Yu, Gal Shitrit, Guanshuo Wang, Gyusik Choi, Hankyul Kim, Hao Guo, Hasby Fahrudin, Hidenari Koguchi, Håkan Ardö, Ibrahim Salah, Ido Yerushalmy, Iftikar Muhammad, Ikuma Uchida, Ishay Be'ery, Jaonary Rabarisoa, Jeongae Lee, Jiajun Fu, Jianqin Yin, Jinghang Xu, Jongho Nang, Julien Denize, Junjie Li, Junpei Zhang, Juntae Kim, Kamil Synowiec, Kenji Kobayashi, Kexin Zhang, Konrad Habel, Kota Nakajima, Licheng Jiao, Lin Ma, Lizhi Wang, Luping Wang, Menglong Li, Mengying Zhou, Mohamed Nasr, Mohamed Abdelwahed, Mykola Liashuha, Nikolay Falaleev, Norbert Oswald, Qiong Jia, Quoc-Cuong Pham, Ran Song, Romain Hérault, Rui Peng, Ruilong Chen, Ruixuan Liu, Ruslan Baikulov, Ryuto Fukushima, Sergio Escalera, Seungcheon Lee, Shimin Chen, Shouhong Ding, Taiga Someya, Thomas B. Moeslund, Tianjiao Li, Wei Shen, Wei zhang, Wei Li, Wei Dai, Weixin Luo, Wending Zhao, Wenjie Zhang, Xinquan Yang, Yanbiao Ma, Yeeun Joo, Yingsen Zeng, Yiyang Gan, Yongqiang Zhu, Yujie Zhong, Zheng Ruan, Zhiheng Li, Zhijian Huang, Ziyu Meng
More information on the tasks, challenges, and leaderboards are available on https://www. soccer-net. org.
1 code implementation • 24 Aug 2023 • Yuanshen Guan, Ruikang Xu, Mingde Yao, Lizhi Wang, Zhiwei Xiong
Image fusion aims to generate a high-quality image from multiple images captured under varying conditions.
1 code implementation • 6 Aug 2023 • Lin Zhu, Yunlong Zheng, Mengyue Geng, Lizhi Wang, Hua Huang
Spike camera is a new type of bio-inspired vision sensor that records light intensity in the form of a spike array with high temporal resolution (20, 000 Hz).
1 code implementation • 8 Jul 2023 • Tong Li, Hansen Feng, Lizhi Wang, Zhiwei Xiong, Hua Huang
Image denoising is a fundamental problem in computational photography, where achieving high perception with low distortion is highly demanding.
no code implementations • 17 Jul 2022 • Faezeh Akhavizadegan, Javad Ansarifar, Lizhi Wang, Sotirios V. Archontoulis
Optimizing management practices and selecting the best cultivar for planting play a significant role in increasing agricultural food production and decreasing environmental footprint.
1 code implementation • 13 Jul 2022 • Hansen Feng, Lizhi Wang, Yuzhi Wang, Hua Huang
Low-light raw denoising is an important and valuable task in computational photography where learning-based methods trained with paired real data are mainstream.
Ranked #1 on Image Denoising on SID SonyA7S2 x100
no code implementations • 2 Jul 2022 • Javad Ansarifar, Faezeh Akhavizadegan, Lizhi Wang
In the 2021 Syngenta crop challenge in analytics, Syngenta raised the problem to design an optimization model for the planting time scheduling in the 2020 year-round breeding process so that there is a consistent harvest quantity each week.
no code implementations • CVPR 2022 • Lingen Li, Lizhi Wang, Weitao Song, Lei Zhang, Zhiwei Xiong, Hua Huang
In this paper, we propose the quantization-aware deep optics for diffractive snapshot hyperspectral imaging.
no code implementations • 24 Dec 2021 • Ruikang Xu, Mingde Yao, Chang Chen, Lizhi Wang, Zhiwei Xiong
In this paper, we propose Neural Spectral Reconstruction (NeSR) to lift this limitation, by introducing a novel continuous spectral representation.
no code implementations • 22 Jul 2021 • Saba Moeinizade, Guiping Hu, Lizhi Wang
Genomic selection (GS) is a technique that plant breeders use to select individuals to mate and produce new generations of species.
no code implementations • CVPR 2021 • Shipeng Zhang, Lizhi Wang, Lei Zhang, Hua Huang
Snapshot hyperspectral imaging has been developed to capture the spectral information of dynamic scenes.
no code implementations • 17 Mar 2021 • Saeed Khaki, Nima Safaei, Hieu Pham, Lizhi Wang
To help mitigate this data collection bottleneck in wheat breeding, we propose a novel deep learning framework to accurately and efficiently count wheat heads to aid in the gathering of real-time data for decision making.
no code implementations • 22 Jan 2021 • Niankai Cheng, Hua Huang, Lei Zhang, Lizhi Wang
In this paper, we propose an effective high-order tensor optimization based method to boost the reconstruction fidelity for snapshot hyperspectral imaging.
no code implementations • 5 Dec 2020 • Saeed Khaki, Hieu Pham, Lizhi Wang
A model that predicts the yield of multiple crops and concurrently considers the interaction between multiple crop yields.
no code implementations • 23 Oct 2020 • Saeed Khaki, Hieu Pham, Ye Han, Wade Kent, Lizhi Wang
The future landscape of modern farming and plant breeding is rapidly changing due to the complex needs of our society.
no code implementations • 20 Jul 2020 • Saeed Khaki, Hieu Pham, Ye Han, Andy Kuhl, Wade Kent, Lizhi Wang
In this paper, we propose a novel deep learning method for counting on-ear corn kernels in-field to aid in the gathering of real-time data and, ultimately, to improve decision making to maximize yield.
no code implementations • CVPR 2020 • Lizhi Wang, Chen Sun, Maoqing Zhang, Ying Fu, Hua Huang
In this paper, we propose an interpretable neural network for computational spectral imaging.
no code implementations • 26 Mar 2020 • Saeed Khaki, Hieu Pham, Ye Han, Andy Kuhl, Wade Kent, Lizhi Wang
The sliding window approach uses a convolutional neural network (CNN) for kernel detection.
1 code implementation • 27 Jan 2020 • Saeed Khaki, Zahra Khalilzadeh, Lizhi Wang
In the 2020 Syngenta Crop Challenge, Syngenta released several large datasets that recorded the historical yield performances of around 4% of total cross combinations of 593 inbreds with 496 testers which were planted in 280 locations between 2016 and 2018 and asked participants to predict the yield performance of cross combinations of inbreds and testers that have not been planted based on the historical yield data collected from crossing other inbreds and testers.
4 code implementations • 20 Nov 2019 • Saeed Khaki, Lizhi Wang, Sotirios V. Archontoulis
Crop yield prediction is extremely challenging due to its dependence on multiple factors such as crop genotype, environmental factors, management practices, and their interactions.
1 code implementation • 2 Jun 2019 • Saeed Khaki, Zahra Khalilzadeh, Lizhi Wang
Environmental stresses such as drought and heat can cause substantial yield loss in agriculture.
no code implementations • CVPR 2019 • Lizhi Wang, Chen Sun, Ying Fu, Min H. Kim, Hua Huang
In this paper, we present a novel hyperspectral image reconstruction algorithm that substitutes the traditional hand-crafted prior with a data-driven prior, based on an optimization-inspired network.
1 code implementation • 7 Feb 2019 • Saeed Khaki, Lizhi Wang
Crop yield is a highly complex trait determined by multiple factors such as genotype, environment, and their interactions.
Ranked #1 on Crop Yield Prediction on 2018 Syngenta (2016 val)
no code implementations • CVPR 2017 • Zhiwei Xiong, Lizhi Wang, Huiqun Li, Dong Liu, Feng Wu
This paper presents the first snapshot hyperspectral light field imager in practice.
no code implementations • CVPR 2015 • Lizhi Wang, Zhiwei Xiong, Dahua Gao, Guangming Shi, Wen-Jun Zeng, Feng Wu
We propose a novel dual-camera design to acquire 4D high-speed hyperspectral (HSHS) videos with high spatial and spectral resolution.