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Your search keyword '"Fu, Yinghao"' showing total 13 results
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13 results on '"Fu, Yinghao"'

1. Neuro-Symbolic Temporal Point Processes

Author

Yang, Yang, Yang, Chao, Li, Boyang, Fu, Yinghao, and Li, Shuang

Subjects
Computer Science - Machine Learning
Abstract

Our goal is to $\textit{efficiently}$ discover a compact set of temporal logic rules to explain irregular events of interest. We introduce a neural-symbolic rule induction framework within the temporal point process model. The negative log-likelihood is the loss that guides the learning, where the explanatory logic rules and their weights are learned end-to-end in a $\textit{differentiable}$ way. Specifically, predicates and logic rules are represented as $\textit{vector embeddings}$, where the predicate embeddings are fixed and the rule embeddings are trained via gradient descent to obtain the most appropriate compositional representations of the predicate embeddings. To make the rule learning process more efficient and flexible, we adopt a $\textit{sequential covering algorithm}$, which progressively adds rules to the model and removes the event sequences that have been explained until all event sequences have been covered. All the found rules will be fed back to the models for a final rule embedding and weight refinement. Our approach showcases notable efficiency and accuracy across synthetic and real datasets, surpassing state-of-the-art baselines by a wide margin in terms of efficiency.

Published
2024

7. All‐Biomass‐Based Hierarchical Photonic Crystals with Multimode Modulable Structural Colors and Morphing Properties for Optical Encryption.

Author

Ji, Yue‐E, Wang, Yushu, Wang, Ziting, Wang, Tao, Fu, Yinghao, Zhu, Zhenghua, Wang, Yu, Ma, Lingling, and Lu, Yanqing

Abstract

Materials with structural coloration capable of multimode color manipulation are gaining growing significance for advanced encryption and high‐security anti‐counterfeiting applications. Among the most promising candidates are naturally derived biomaterials, owing to their renewable, biocompatible, and biodegradable features for developing sustainable, bio‐interfaced photonic platforms. Nevertheless, structural color encryption strategies developed from biological materials usually exhibit limited optical operation modes, lowering their encryption capability and security level. Here, an all‐biomass‐based photonic crystal platform is reported that hierarchically integrates chiral nematic and inverse opal structures through a combination of colloidal assembly, silk protein self‐assembly, and chiral self‐assembly of cellulose nanocrystals, enabling multiplex structural color manipulation in 2D and 3D spaces. The platform's Janus‐style integration brings specular and diffuse reflection, direction‐dependent reflection, circular dichroism, and birefringence into a single form, thereby facilitating multimode structural color tuning in a 2D plane by altering the illumination‐viewing modes. The inherent shape plasticity of silk proteins allows the subsequent creation of 3D photonic platforms with diverse configurations, offering additional spatial flexibility for color encoding. It is demonstrated that this all‐biomass‐based photonic framework exhibits versatile, multilevel, and high‐capacity encryption capability in 2D and 3D spaces, representing an innovative solution to bolster security measures against counterfeiting for future technologies. [ABSTRACT FROM AUTHOR]

Published
2024
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9. Angle‐Multiplexed 3D Photonic Superstructures with Multi‐Directional Switchable Structural Color for Information Transformation, Storage, and Encryption.

Author

Wang, Tao, Wang, Yu, Fu, Yinghao, Chen, Zhaoxian, Jiang, Chang, Ji, Yue‐E, and Lu, Yanqing

Subjects
STRUCTURAL colors, PHOTONIC crystals, CLOUD storage, IMAGE encryption, SPECTRAL sensitivity, INFORMATION processing, STORAGE
Abstract

Creating photonic crystals that can integrate and switch between multiple structural color images will greatly advance their utility in dynamic information transformation, high‐capacity storage, and advanced encryption, but has proven to be highly challenging. Here, it is reported that by programmably integrating newly developed 1D quasi‐periodic folding structures into a 3D photonic crystal, the generated photonic superstructure exhibits distinctive optical effects that combine independently manipulatable specular and anisotropic diffuse reflections within a versatile protein‐based platform, thus creating different optical channels for structural color imaging. The polymorphic transition of the protein format allows for the facile modulation of both folding patterns and photonic lattices and, therefore, the superstructure's spectral response within each channel. The capacity to manipulate the structural assembly of the superstructure enables the programmable encoding of multiple independent patterns into a single system, which can be decoded by the simple adjustment of lighting directions. The multifunctional utility of the photonic platform is demonstrated in information processing, showcasing its ability to achieve multimode transformation of information codes, multi‐code high‐capacity storage, and high‐level numerical information encryption. The present strategy opens new pathways for achieving multichannel transformable imaging, thereby facilitating the development of emerging information conversion, storage, and encryption media using photonic crystals. [ABSTRACT FROM AUTHOR]

Published
2024
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11. Silk-protein-based gradient hydrogels with multimode reprogrammable shape changes for biointegrated devices

Author

Wang, Yushu, primary, Li, Luhe, additional, Ji, Yue-E., additional, Wang, Tao, additional, Fu, Yinghao, additional, Li, Xinxin, additional, Li, Guicai, additional, Zheng, Tiantian, additional, Wu, Linliang, additional, Han, Qi, additional, Zhang, Ye, additional, Wang, Yu, additional, Kaplan, David L., additional, and Lu, Yanqing, additional

Published
2023
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13. Nynrinpreserves hematopoietic stem cell function by inhibiting the mitochondrial permeability transition pore opening

Author

Zhou, Chengfang, Kuang, Mei, Tao, Yin, Wang, Jianming, Luo, Yu, Fu, Yinghao, Chen, Zhe, Liu, Yuanyuan, Li, Zhigang, Wu, Weiru, Wang, Li, Dou, Ying, Wang, Junping, and Hou, Yu

Abstract

Mitochondria are key regulators of hematopoietic stem cell (HSC) homeostasis. Our research identifies the transcription factor Nynrin as a crucial regulator of HSC maintenance by modulating mitochondrial function. Nynrin is highly expressed in HSCs under both steady-state and stress conditions. The knockout Nynrindiminishes HSC frequency, dormancy, and self-renewal, with increased mitochondrial dysfunction indicated by abnormal mPTP opening, mitochondrial swelling, and elevated ROS levels. These changes reduce HSC radiation tolerance and promote necrosis-like phenotypes. By contrast, Nynrinoverexpression in HSCs diminishes irradiation (IR)-induced lethality. The deletion of Nynrin activates Ppif, leading to overexpression of cyclophilin D (CypD) and further mitochondrial dysfunction. Strategies such as Ppifhaploinsufficiency or pharmacological inhibition of CypD significantly mitigate these effects, restoring HSC function in Nynrin-deficient mice. This study identifies Nynrin as a critical regulator of mitochondrial function in HSCs, highlighting potential therapeutic targets for preserving stem cell viability during cancer treatment.

Published
2024
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