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238 results on '"Zhou, Fengtao"'

1. Explain via Any Concept: Concept Bottleneck Model with Open Vocabulary Concepts

Author

Tan, Andong, Zhou, Fengtao, and Chen, Hao

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

The concept bottleneck model (CBM) is an interpretable-by-design framework that makes decisions by first predicting a set of interpretable concepts, and then predicting the class label based on the given concepts. Existing CBMs are trained with a fixed set of concepts (concepts are either annotated by the dataset or queried from language models). However, this closed-world assumption is unrealistic in practice, as users may wonder about the role of any desired concept in decision-making after the model is deployed. Inspired by the large success of recent vision-language pre-trained models such as CLIP in zero-shot classification, we propose "OpenCBM" to equip the CBM with open vocabulary concepts via: (1) Aligning the feature space of a trainable image feature extractor with that of a CLIP's image encoder via a prototype based feature alignment; (2) Simultaneously training an image classifier on the downstream dataset; (3) Reconstructing the trained classification head via any set of user-desired textual concepts encoded by CLIP's text encoder. To reveal potentially missing concepts from users, we further propose to iteratively find the closest concept embedding to the residual parameters during the reconstruction until the residual is small enough. To the best of our knowledge, our "OpenCBM" is the first CBM with concepts of open vocabularies, providing users the unique benefit such as removing, adding, or replacing any desired concept to explain the model's prediction even after a model is trained. Moreover, our model significantly outperforms the previous state-of-the-art CBM by 9% in the classification accuracy on the benchmark dataset CUB-200-2011., Comment: ECCV2024

Published
2024

2. Towards A Generalizable Pathology Foundation Model via Unified Knowledge Distillation

Author

Ma, Jiabo, Guo, Zhengrui, Zhou, Fengtao, Wang, Yihui, Xu, Yingxue, Cai, Yu, Zhu, Zhengjie, Jin, Cheng, Lin, Yi, Jiang, Xinrui, Han, Anjia, Liang, Li, Chan, Ronald Cheong Kin, Wang, Jiguang, Cheng, Kwang-Ting, and Chen, Hao

Subjects
Electrical Engineering and Systems Science - Image and Video Processing, Computer Science - Computer Vision and Pattern Recognition, Computer Science - Machine Learning
Abstract

Foundation models pretrained on large-scale datasets are revolutionizing the field of computational pathology (CPath). The generalization ability of foundation models is crucial for the success in various downstream clinical tasks. However, current foundation models have only been evaluated on a limited type and number of tasks, leaving their generalization ability and overall performance unclear. To address this gap, we established a most comprehensive benchmark to evaluate the performance of off-the-shelf foundation models across six distinct clinical task types, encompassing a total of 39 specific tasks. Our findings reveal that existing foundation models excel at certain task types but struggle to effectively handle the full breadth of clinical tasks. To improve the generalization of pathology foundation models, we propose a unified knowledge distillation framework consisting of both expert and self knowledge distillation, where the former allows the model to learn from the knowledge of multiple expert models, while the latter leverages self-distillation to enable image representation learning via local-global alignment. Based on this framework, a Generalizable Pathology Foundation Model (GPFM) is pretrained on a large-scale dataset consisting of 190 million images from around 86,000 public H&E whole slides across 34 major tissue types. Evaluated on the established benchmark, GPFM achieves an impressive average rank of 1.36, with 29 tasks ranked 1st, while the the second-best model, UNI, attains an average rank of 2.96, with only 4 tasks ranked 1st. The superior generalization of GPFM demonstrates its exceptional modeling capabilities across a wide range of clinical tasks, positioning it as a new cornerstone for feature representation in CPath.

Published
2024

3. A Multimodal Knowledge-enhanced Whole-slide Pathology Foundation Model

Author

Xu, Yingxue, Wang, Yihui, Zhou, Fengtao, Ma, Jiabo, Yang, Shu, Lin, Huangjing, Wang, Xin, Wang, Jiguang, Liang, Li, Han, Anjia, Chan, Ronald Cheong Kin, and Chen, Hao

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Artificial Intelligence
Abstract

Remarkable strides in computational pathology have been made in the task-agnostic foundation model that advances the performance of a wide array of downstream clinical tasks. Despite the promising performance, there are still several challenges. First, prior works have resorted to either vision-only or vision-captions data, disregarding invaluable pathology reports and gene expression profiles which respectively offer distinct knowledge for versatile clinical applications. Second, the current progress in pathology FMs predominantly concentrates on the patch level, where the restricted context of patch-level pretraining fails to capture whole-slide patterns. Here we curated the largest multimodal dataset consisting of H\&E diagnostic whole slide images and their associated pathology reports and RNA-Seq data, resulting in 26,169 slide-level modality pairs from 10,275 patients across 32 cancer types. To leverage these data for CPath, we propose a novel whole-slide pretraining paradigm which injects multimodal knowledge at the whole-slide context into the pathology FM, called Multimodal Self-TAught PRetraining (mSTAR). The proposed paradigm revolutionizes the workflow of pretraining for CPath, which enables the pathology FM to acquire the whole-slide context. To our knowledge, this is the first attempt to incorporate multimodal knowledge at the slide level for enhancing pathology FMs, expanding the modelling context from unimodal to multimodal knowledge and from patch-level to slide-level. To systematically evaluate the capabilities of mSTAR, extensive experiments including slide-level unimodal and multimodal applications, are conducted across 7 diverse types of tasks on 43 subtasks, resulting in the largest spectrum of downstream tasks. The average performance in various slide-level applications consistently demonstrates significant performance enhancements for mSTAR compared to SOTA FMs., Comment: 45 pages, 9 figures

Published
2024

4. Multimodal Data Integration for Precision Oncology: Challenges and Future Directions

Author

Zhou, Huajun, Zhou, Fengtao, Zhao, Chenyu, Xu, Yingxue, Luo, Luyang, and Chen, Hao

Subjects
Quantitative Biology - Quantitative Methods, Computer Science - Artificial Intelligence
Abstract

The essence of precision oncology lies in its commitment to tailor targeted treatments and care measures to each patient based on the individual characteristics of the tumor. The inherent heterogeneity of tumors necessitates gathering information from diverse data sources to provide valuable insights from various perspectives, fostering a holistic comprehension of the tumor. Over the past decade, multimodal data integration technology for precision oncology has made significant strides, showcasing remarkable progress in understanding the intricate details within heterogeneous data modalities. These strides have exhibited tremendous potential for improving clinical decision-making and model interpretation, contributing to the advancement of cancer care and treatment. Given the rapid progress that has been achieved, we provide a comprehensive overview of about 300 papers detailing cutting-edge multimodal data integration techniques in precision oncology. In addition, we conclude the primary clinical applications that have reaped significant benefits, including early assessment, diagnosis, prognosis, and biomarker discovery. Finally, derived from the findings of this survey, we present an in-depth analysis that explores the pivotal challenges and reveals essential pathways for future research in the field of multimodal data integration for precision oncology., Comment: 15 pages, 4 figures

Published
2024

5. Post-hoc Part-prototype Networks

Author

Tan, Andong, Zhou, Fengtao, and Chen, Hao

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Post-hoc explainability methods such as Grad-CAM are popular because they do not influence the performance of a trained model. However, they mainly reveal "where" a model looks at for a given input, fail to explain "what" the model looks for (e.g., what is important to classify a bird image to a Scott Oriole?). Existing part-prototype networks leverage part-prototypes (e.g., characteristic Scott Oriole's wing and head) to answer both "where" and "what", but often under-perform their black box counterparts in the accuracy. Therefore, a natural question is: can one construct a network that answers both "where" and "what" in a post-hoc manner to guarantee the model's performance? To this end, we propose the first post-hoc part-prototype network via decomposing the classification head of a trained model into a set of interpretable part-prototypes. Concretely, we propose an unsupervised prototype discovery and refining strategy to obtain prototypes that can precisely reconstruct the classification head, yet being interpretable. Besides guaranteeing the performance, we show that our network offers more faithful explanations qualitatively and yields even better part-prototypes quantitatively than prior part-prototype networks., Comment: ICML 2024

Published
2024

6. Cohort-Individual Cooperative Learning for Multimodal Cancer Survival Analysis

Author

Zhou, Huajun, Zhou, Fengtao, and Chen, Hao

Subjects
Electrical Engineering and Systems Science - Image and Video Processing, Computer Science - Computer Vision and Pattern Recognition
Abstract

Recently, we have witnessed impressive achievements in cancer survival analysis by integrating multimodal data, e.g., pathology images and genomic profiles. However, the heterogeneity and high dimensionality of these modalities pose significant challenges for extracting discriminative representations while maintaining good generalization. In this paper, we propose a Cohort-individual Cooperative Learning (CCL) framework to advance cancer survival analysis by collaborating knowledge decomposition and cohort guidance. Specifically, first, we propose a Multimodal Knowledge Decomposition (MKD) module to explicitly decompose multimodal knowledge into four distinct components: redundancy, synergy and uniqueness of the two modalities. Such a comprehensive decomposition can enlighten the models to perceive easily overlooked yet important information, facilitating an effective multimodal fusion. Second, we propose a Cohort Guidance Modeling (CGM) to mitigate the risk of overfitting task-irrelevant information. It can promote a more comprehensive and robust understanding of the underlying multimodal data, while avoiding the pitfalls of overfitting and enhancing the generalization ability of the model. By cooperating the knowledge decomposition and cohort guidance methods, we develop a robust multimodal survival analysis model with enhanced discrimination and generalization abilities. Extensive experimental results on five cancer datasets demonstrate the effectiveness of our model in integrating multimodal data for survival analysis., Comment: 10 pages, 9 figures

Published
2024

7. iMD4GC: Incomplete Multimodal Data Integration to Advance Precise Treatment Response Prediction and Survival Analysis for Gastric Cancer

Author

Zhou, Fengtao, Xu, Yingxue, Cui, Yanfen, Zhang, Shenyan, Zhu, Yun, He, Weiyang, Wang, Jiguang, Wang, Xin, Chan, Ronald, Lau, Louis Ho Shing, Han, Chu, Zhang, Dafu, Li, Zhenhui, and Chen, Hao

Subjects
Electrical Engineering and Systems Science - Image and Video Processing, Computer Science - Computer Vision and Pattern Recognition
Abstract

Gastric cancer (GC) is a prevalent malignancy worldwide, ranking as the fifth most common cancer with over 1 million new cases and 700 thousand deaths in 2020. Locally advanced gastric cancer (LAGC) accounts for approximately two-thirds of GC diagnoses, and neoadjuvant chemotherapy (NACT) has emerged as the standard treatment for LAGC. However, the effectiveness of NACT varies significantly among patients, with a considerable subset displaying treatment resistance. Ineffective NACT not only leads to adverse effects but also misses the optimal therapeutic window, resulting in lower survival rate. However, existing multimodal learning methods assume the availability of all modalities for each patient, which does not align with the reality of clinical practice. The limited availability of modalities for each patient would cause information loss, adversely affecting predictive accuracy. In this study, we propose an incomplete multimodal data integration framework for GC (iMD4GC) to address the challenges posed by incomplete multimodal data, enabling precise response prediction and survival analysis. Specifically, iMD4GC incorporates unimodal attention layers for each modality to capture intra-modal information. Subsequently, the cross-modal interaction layers explore potential inter-modal interactions and capture complementary information across modalities, thereby enabling information compensation for missing modalities. To evaluate iMD4GC, we collected three multimodal datasets for GC study: GastricRes (698 cases) for response prediction, GastricSur (801 cases) for survival analysis, and TCGA-STAD (400 cases) for survival analysis. The scale of our datasets is significantly larger than previous studies. The iMD4GC achieved impressive performance with an 80.2% AUC on GastricRes, 71.4% C-index on GastricSur, and 66.1% C-index on TCGA-STAD, significantly surpassing other compared methods., Comment: 27 pages, 9 figures, 3 tables (under review)

Published
2024

8. Feature Re-Embedding: Towards Foundation Model-Level Performance in Computational Pathology

Author

Tang, Wenhao, Zhou, Fengtao, Huang, Sheng, Zhu, Xiang, Zhang, Yi, and Liu, Bo

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Multiple instance learning (MIL) is the most widely used framework in computational pathology, encompassing sub-typing, diagnosis, prognosis, and more. However, the existing MIL paradigm typically requires an offline instance feature extractor, such as a pre-trained ResNet or a foundation model. This approach lacks the capability for feature fine-tuning within the specific downstream tasks, limiting its adaptability and performance. To address this issue, we propose a Re-embedded Regional Transformer (R$^2$T) for re-embedding the instance features online, which captures fine-grained local features and establishes connections across different regions. Unlike existing works that focus on pre-training powerful feature extractor or designing sophisticated instance aggregator, R$^2$T is tailored to re-embed instance features online. It serves as a portable module that can seamlessly integrate into mainstream MIL models. Extensive experimental results on common computational pathology tasks validate that: 1) feature re-embedding improves the performance of MIL models based on ResNet-50 features to the level of foundation model features, and further enhances the performance of foundation model features; 2) the R$^2$T can introduce more significant performance improvements to various MIL models; 3) R$^2$T-MIL, as an R$^2$T-enhanced AB-MIL, outperforms other latest methods by a large margin.The code is available at: https://github.com/DearCaat/RRT-MIL., Comment: Accepted by CVPR2024

Published
2024

9. Explain via Any Concept: Concept Bottleneck Model with Open Vocabulary Concepts

Author

Tan, Andong, Zhou, Fengtao, Chen, Hao, 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
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10. Cross-Modal Translation and Alignment for Survival Analysis

Author

Zhou, Fengtao and Chen, Hao

Subjects
Electrical Engineering and Systems Science - Image and Video Processing, Computer Science - Computer Vision and Pattern Recognition, Computer Science - Machine Learning
Abstract

With the rapid advances in high-throughput sequencing technologies, the focus of survival analysis has shifted from examining clinical indicators to incorporating genomic profiles with pathological images. However, existing methods either directly adopt a straightforward fusion of pathological features and genomic profiles for survival prediction, or take genomic profiles as guidance to integrate the features of pathological images. The former would overlook intrinsic cross-modal correlations. The latter would discard pathological information irrelevant to gene expression. To address these issues, we present a Cross-Modal Translation and Alignment (CMTA) framework to explore the intrinsic cross-modal correlations and transfer potential complementary information. Specifically, we construct two parallel encoder-decoder structures for multi-modal data to integrate intra-modal information and generate cross-modal representation. Taking the generated cross-modal representation to enhance and recalibrate intra-modal representation can significantly improve its discrimination for comprehensive survival analysis. To explore the intrinsic crossmodal correlations, we further design a cross-modal attention module as the information bridge between different modalities to perform cross-modal interactions and transfer complementary information. Our extensive experiments on five public TCGA datasets demonstrate that our proposed framework outperforms the state-of-the-art methods., Comment: Accepted by ICCV2023

Published
2023

11. Multiple Instance Learning Framework with Masked Hard Instance Mining for Whole Slide Image Classification

Author

Tang, Wenhao, Huang, Sheng, Zhang, Xiaoxian, Zhou, Fengtao, Zhang, Yi, and Liu, Bo

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Artificial Intelligence
Abstract

The whole slide image (WSI) classification is often formulated as a multiple instance learning (MIL) problem. Since the positive tissue is only a small fraction of the gigapixel WSI, existing MIL methods intuitively focus on identifying salient instances via attention mechanisms. However, this leads to a bias towards easy-to-classify instances while neglecting hard-to-classify instances. Some literature has revealed that hard examples are beneficial for modeling a discriminative boundary accurately. By applying such an idea at the instance level, we elaborate a novel MIL framework with masked hard instance mining (MHIM-MIL), which uses a Siamese structure (Teacher-Student) with a consistency constraint to explore the potential hard instances. With several instance masking strategies based on attention scores, MHIM-MIL employs a momentum teacher to implicitly mine hard instances for training the student model, which can be any attention-based MIL model. This counter-intuitive strategy essentially enables the student to learn a better discriminating boundary. Moreover, the student is used to update the teacher with an exponential moving average (EMA), which in turn identifies new hard instances for subsequent training iterations and stabilizes the optimization. Experimental results on the CAMELYON-16 and TCGA Lung Cancer datasets demonstrate that MHIM-MIL outperforms other latest methods in terms of performance and training cost. The code is available at: https://github.com/DearCaat/MHIM-MIL., Comment: Published on ICCV2023

Published
2023

13. Boosting Multi-Label Image Classification with Complementary Parallel Self-Distillation

Author

Xu, Jiazhi, Huang, Sheng, Zhou, Fengtao, Huangfu, Luwen, Zeng, Daniel, and Liu, Bo

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Artificial Intelligence
Abstract

Multi-Label Image Classification (MLIC) approaches usually exploit label correlations to achieve good performance. However, emphasizing correlation like co-occurrence may overlook discriminative features of the target itself and lead to model overfitting, thus undermining the performance. In this study, we propose a generic framework named Parallel Self-Distillation (PSD) for boosting MLIC models. PSD decomposes the original MLIC task into several simpler MLIC sub-tasks via two elaborated complementary task decomposition strategies named Co-occurrence Graph Partition (CGP) and Dis-occurrence Graph Partition (DGP). Then, the MLIC models of fewer categories are trained with these sub-tasks in parallel for respectively learning the joint patterns and the category-specific patterns of labels. Finally, knowledge distillation is leveraged to learn a compact global ensemble of full categories with these learned patterns for reconciling the label correlation exploitation and model overfitting. Extensive results on MS-COCO and NUS-WIDE datasets demonstrate that our framework can be easily plugged into many MLIC approaches and improve performances of recent state-of-the-art approaches. The explainable visual study also further validates that our method is able to learn both the category-specific and co-occurring features. The source code is released at https://github.com/Robbie-Xu/CPSD., Comment: accepted by IJCAI2022

Published
2022

18. Deep Semantic Dictionary Learning for Multi-label Image Classification

Author

Zhou, Fengtao, Huang, Sheng, and Xing, Yun

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Compared with single-label image classification, multi-label image classification is more practical and challenging. Some recent studies attempted to leverage the semantic information of categories for improving multi-label image classification performance. However, these semantic-based methods only take semantic information as type of complements for visual representation without further exploitation. In this paper, we present an innovative path towards the solution of the multi-label image classification which considers it as a dictionary learning task. A novel end-to-end model named Deep Semantic Dictionary Learning (DSDL) is designed. In DSDL, an auto-encoder is applied to generate the semantic dictionary from class-level semantics and then such dictionary is utilized for representing the visual features extracted by Convolutional Neural Network (CNN) with label embeddings. The DSDL provides a simple but elegant way to exploit and reconcile the label, semantic and visual spaces simultaneously via conducting the dictionary learning among them. Moreover, inspired by iterative optimization of traditional dictionary learning, we further devise a novel training strategy named Alternately Parameters Update Strategy (APUS) for optimizing DSDL, which alternately optimizes the representation coefficients and the semantic dictionary in forward and backward propagation. Extensive experimental results on three popular benchmarks demonstrate that our method achieves promising performances in comparison with the state-of-the-arts. Our codes and models have been released at {https://github.com/ZFT-CQU/DSDL}., Comment: Accepted by AAAI2021

Published
2020

25. Discovery of LLC355 as an Autophagy-Tethering Compound for the Degradation of Discoidin Domain Receptor 1

Author

Liu, Lianchao, primary, Zhao, Lijie, additional, Yang, Lujun, additional, Chai, Minxue, additional, Liu, Zhengyong, additional, Ma, Nan, additional, Wang, Yongxing, additional, Wu, Qinxue, additional, Guo, Jing, additional, Zhou, Fengtao, additional, Huang, Weixue, additional, Ren, Xiaomei, additional, Wang, Jian, additional, Ding, Ming, additional, Wang, Zhen, additional, and Ding, Ke, additional

Published
2024
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37. Access to 2,4‐Disubstituted Pyrrole‐Based Polymer with Long‐Wavelength and Stimuli‐Responsive Properties via Copper‐Catalyzed [3+2] Polycycloaddition.

Author

Wang, Lingna, Zhang, Jianbo, Li, Chunmei, Dang, Wanbin, Guo, Wei, Xie, Junjian, Zhou, Fengtao, and Zhang, Qiuyu

Subjects
GREEN light, POLYMERS, MATERIALS science, POLYVINYL alcohol, LUMINESCENCE
Abstract

Pyrrole‐based polymers (PBPs), a type of fascinating functional polymers, play a crucial role in materials science. However, efficient synthetic strategies of PBPs with diverse structures are mainly focused on conjugated polypyrroles and still remain challenging. Herein, an atom and step economy protocol is described to access various 2,4‐disubstituted PBPs by in situ formation of pyrrole core structure via copper‐catalyzed [3+2] polycycloaddition of dialkynones and diisocyanoacetates. A series of PBPs is prepared with high molecular weight (Mw up to 18 200 Da) and moderate to good yield (up to 87%), which possesses a fluorescent emission located in the green to yellow light region. Blending the PBPs with polyvinyl alcohol, the stretchable composite films exhibit a significant strengthening of the mechanical properties (tensile stress up to 59 MPa, elongation at break >400%) and an unprecedented stress‐responsive luminescence enhancement that over fourfold fluorescent emission intensity is maintained upon stretching up to 100%. On the basis of computational studies, the unique photophysical and mechanical properties are attributed to the substitution of carbonyl chromophores on the pyrrole unit. [ABSTRACT FROM AUTHOR]

Published
2024
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41. Discovery of a First-in-Class Degrader for the Lipid Kinase PIKfyve

Author

Li, Chungen, primary, Qiao, Yuanyuan, additional, Jiang, Xia, additional, Liu, Lianchao, additional, Zheng, Yang, additional, Qiu, Yudi, additional, Cheng, Caleb, additional, Zhou, Fengtao, additional, Zhou, Yang, additional, Huang, Weixue, additional, Ren, Xiaomei, additional, Wang, Yuzhuo, additional, Wang, Zhen, additional, Chinnaiyan, Arul M., additional, and Ding, Ke, additional

Published
2023
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42. Discovery of LLC0424 as a Potent and Selective in VivoNSD2 PROTAC Degrader

Author

Liu, Lianchao, Parolia, Abhijit, Liu, Yihan, Hou, Caiyun, He, Tongchen, Qiao, Yuanyuan, Eyunni, Sanjana, Luo, Jie, Li, Chungen, Wang, Yongxing, Zhou, Fengtao, Huang, Weixue, Ren, Xiaomei, Wang, Zhen, Chinnaiyan, Arul M., and Ding, Ke

Abstract

Nuclear receptor-binding SET domain-containing 2 (NSD2), a methyltransferase that primarily installs the dimethyl mark on lysine 36 of histone 3 (H3K36me2), has been recognized as a promising therapeutic target against cancer. However, existing NSD2 inhibitors suffer from low activity or inferior selectivity, and none of them can simultaneously remove the methyltransferase activity and chromatin binding function of NSD2. Herein we report the discovery of a novel NSD2 degrader LLC0424by leveraging the proteolysis-targeting chimera technology. LLC0424potently degraded NSD2 protein with a DC50value of 20 nM and a Dmaxvalue of 96% in acute lymphoblastic leukemia (ALL) RPMI-8402 cells. Mechanistic studies revealed LLC0424to selectively induce NSD2 degradation in a cereblon- and proteasome-dependent fashion. LLC0424also caused continuous downregulation of H3K36me2 and growth inhibition of ALL cell lines with NSD2 mutation. Importantly, intravenous or intraperitoneal injection of LLC0424showed potent NSD2 degradation in vivo.

Published
2024
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43. Effect of alkali activator on the performance of fly ashgeopolymer concrete.

Author

FANG Mingwei, WANG Dan, ZHOU Fengtao, and LI Rongjie

Abstract

Fly ash geopolymer concrete with different LiOH doping amounts (1 wt%, 3 wt%, 5 wt%, 7 wt%) was prepared using metakaolin, level I fly ash, and slag as raw materials, and LiOH as alkali activator. The influence of LiOH content on the mechanical properties and frost resistance of fly ash geopolymer concrete was studied. The results show that the addition of alkali activatorLiOH promotes the reaction of activated silicon and activated aluminum in geopolymer concrete, increases the amount of gel generated, and improves the density of concrete. When the doping amount of LiOH is 5 wt%, the compressive strength and flexural strength of concrete reach their maximum values, which are 48.91 and 5.56 MPa, respectively. The addition of an appropriate amount of LiOH improves the thermal stability and frost resistance of concrete. At 950 °C, when the LiOH doping amount is 5 wt%, the minimum weight loss of concrete is only 3.9%. When the freeze-thaw cycle is 100 times, the minimum mass loss rate of concrete with 5 wt% LiOH doping is 0.93%, and the maximum relative dynamic elastic modulus is 88.24%, indicating the best frost resistance performance. Comprehensive analysis shows that the optimal doping amount of LiOH is 5 wt%. [ABSTRACT FROM AUTHOR]

Published
2023
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44. Discovery of AXL Degraders with Improved Potencies in Triple-Negative Breast Cancer (TNBC) Cells

Author

He, Rui, primary, Song, Zhiqiang, additional, Bai, Yu, additional, He, Sheng, additional, Huang, Jing, additional, Wang, Yongxing, additional, Zhou, Fengtao, additional, Huang, Weixue, additional, Guo, Jing, additional, Wang, Zhen, additional, Tu, Zheng-Chao, additional, Ren, Xiaomei, additional, Zhang, Zhang, additional, Xu, Jian, additional, and Ding, Ke, additional

Published
2023
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47. Deep Semantic Dictionary Learning for Multi-label Image Classification

Author

Zhou, Fengtao, Huang, Sheng, and Xing, Yun

Subjects
FOS: Computer and information sciences, Computer Vision and Pattern Recognition (cs.CV), Computer Science - Computer Vision and Pattern Recognition, General Medicine
Abstract

Compared with single-label image classification, multi-label image classification is more practical and challenging. Some recent studies attempted to leverage the semantic information of categories for improving multi-label image classification performance. However, these semantic-based methods only take semantic information as type of complements for visual representation without further exploitation. In this paper, we present an innovative path towards the solution of the multi-label image classification which considers it as a dictionary learning task. A novel end-to-end model named Deep Semantic Dictionary Learning (DSDL) is designed. In DSDL, an auto-encoder is applied to generate the semantic dictionary from class-level semantics and then such dictionary is utilized for representing the visual features extracted by Convolutional Neural Network (CNN) with label embeddings. The DSDL provides a simple but elegant way to exploit and reconcile the label, semantic and visual spaces simultaneously via conducting the dictionary learning among them. Moreover, inspired by iterative optimization of traditional dictionary learning, we further devise a novel training strategy named Alternately Parameters Update Strategy (APUS) for optimizing DSDL, which alternately optimizes the representation coefficients and the semantic dictionary in forward and backward propagation. Extensive experimental results on three popular benchmarks demonstrate that our method achieves promising performances in comparison with the state-of-the-arts. Our codes and models have been released at {https://github.com/ZFT-CQU/DSDL}., Accepted by AAAI2021

Published
2021

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