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1. LLARVA: Vision-Action Instruction Tuning Enhances Robot Learning

Author

Niu, Dantong, Sharma, Yuvan, Biamby, Giscard, Quenum, Jerome, Bai, Yutong, Shi, Baifeng, Darrell, Trevor, and Herzig, Roei

Subjects
Computer Science - Robotics, Computer Science - Computer Vision and Pattern Recognition, Computer Science - Machine Learning
Abstract

In recent years, instruction-tuned Large Multimodal Models (LMMs) have been successful at several tasks, including image captioning and visual question answering; yet leveraging these models remains an open question for robotics. Prior LMMs for robotics applications have been extensively trained on language and action data, but their ability to generalize in different settings has often been less than desired. To address this, we introduce LLARVA, a model trained with a novel instruction tuning method that leverages structured prompts to unify a range of robotic learning tasks, scenarios, and environments. Additionally, we show that predicting intermediate 2-D representations, which we refer to as "visual traces", can help further align vision and action spaces for robot learning. We generate 8.5M image-visual trace pairs from the Open X-Embodiment dataset in order to pre-train our model, and we evaluate on 12 different tasks in the RLBench simulator as well as a physical Franka Emika Panda 7-DoF robot. Our experiments yield strong performance, demonstrating that LLARVA - using 2-D and language representations - performs well compared to several contemporary baselines, and can generalize across various robot environments and configurations.

Published
2024

2. When Do We Not Need Larger Vision Models?

Author

Shi, Baifeng, Wu, Ziyang, Mao, Maolin, Wang, Xin, and Darrell, Trevor

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Scaling up the size of vision models has been the de facto standard to obtain more powerful visual representations. In this work, we discuss the point beyond which larger vision models are not necessary. First, we demonstrate the power of Scaling on Scales (S$^2$), whereby a pre-trained and frozen smaller vision model (e.g., ViT-B or ViT-L), run over multiple image scales, can outperform larger models (e.g., ViT-H or ViT-G) on classification, segmentation, depth estimation, Multimodal LLM (MLLM) benchmarks, and robotic manipulation. Notably, S$^2$ achieves state-of-the-art performance in detailed understanding of MLLM on the V* benchmark, surpassing models such as GPT-4V. We examine the conditions under which S$^2$ is a preferred scaling approach compared to scaling on model size. While larger models have the advantage of better generalization on hard examples, we show that features of larger vision models can be well approximated by those of multi-scale smaller models. This suggests most, if not all, of the representations learned by current large pre-trained models can also be obtained from multi-scale smaller models. Our results show that a multi-scale smaller model has comparable learning capacity to a larger model, and pre-training smaller models with S$^2$ can match or even exceed the advantage of larger models. We release a Python package that can apply S$^2$ on any vision model with one line of code: https://github.com/bfshi/scaling_on_scales., Comment: Code: https://github.com/bfshi/scaling_on_scales

Published
2024

4. Humanoid Locomotion as Next Token Prediction

Author

Radosavovic, Ilija, Zhang, Bike, Shi, Baifeng, Rajasegaran, Jathushan, Kamat, Sarthak, Darrell, Trevor, Sreenath, Koushil, and Malik, Jitendra

Subjects
Computer Science - Robotics, Computer Science - Computer Vision and Pattern Recognition, Computer Science - Machine Learning
Abstract

We cast real-world humanoid control as a next token prediction problem, akin to predicting the next word in language. Our model is a causal transformer trained via autoregressive prediction of sensorimotor trajectories. To account for the multi-modal nature of the data, we perform prediction in a modality-aligned way, and for each input token predict the next token from the same modality. This general formulation enables us to leverage data with missing modalities, like video trajectories without actions. We train our model on a collection of simulated trajectories coming from prior neural network policies, model-based controllers, motion capture data, and YouTube videos of humans. We show that our model enables a full-sized humanoid to walk in San Francisco zero-shot. Our model can transfer to the real world even when trained on only 27 hours of walking data, and can generalize to commands not seen during training like walking backward. These findings suggest a promising path toward learning challenging real-world control tasks by generative modeling of sensorimotor trajectories.

Published
2024

5. Rethinking Patch Dependence for Masked Autoencoders

Author

Fu, Letian, Lian, Long, Wang, Renhao, Shi, Baifeng, Wang, Xudong, Yala, Adam, Darrell, Trevor, Efros, Alexei A., and Goldberg, Ken

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

In this work, we re-examine inter-patch dependencies in the decoding mechanism of masked autoencoders (MAE). We decompose this decoding mechanism for masked patch reconstruction in MAE into self-attention and cross-attention. Our investigations suggest that self-attention between mask patches is not essential for learning good representations. To this end, we propose a novel pretraining framework: Cross-Attention Masked Autoencoders (CrossMAE). CrossMAE's decoder leverages only cross-attention between masked and visible tokens, with no degradation in downstream performance. This design also enables decoding only a small subset of mask tokens, boosting efficiency. Furthermore, each decoder block can now leverage different encoder features, resulting in improved representation learning. CrossMAE matches MAE in performance with 2.5 to 3.7$\times$ less decoding compute. It also surpasses MAE on ImageNet classification and COCO instance segmentation under the same compute. Code and models: https://crossmae.github.io

Published
2024

6. Recursive Visual Programming

Author

Ge, Jiaxin, Subramanian, Sanjay, Shi, Baifeng, Herzig, Roei, and Darrell, Trevor

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Computation and Language
Abstract

Visual Programming (VP) has emerged as a powerful framework for Visual Question Answering (VQA). By generating and executing bespoke code for each question, these methods demonstrate impressive compositional and reasoning capabilities, especially in few-shot and zero-shot scenarios. However, existing VP methods generate all code in a single function, resulting in code that is suboptimal in terms of both accuracy and interpretability. Inspired by human coding practices, we propose Recursive Visual Programming (RVP), which simplifies generated routines, provides more efficient problem solving, and can manage more complex data structures. RVP is inspired by human coding practices and approaches VQA tasks with an iterative recursive code generation approach, allowing decomposition of complicated problems into smaller parts. Notably, RVP is capable of dynamic type assignment, i.e., as the system recursively generates a new piece of code, it autonomously determines the appropriate return type and crafts the requisite code to generate that output. We show RVP's efficacy through extensive experiments on benchmarks including VSR, COVR, GQA, and NextQA, underscoring the value of adopting human-like recursive and modular programming techniques for solving VQA tasks through coding.

Published
2023

7. When Do We Not Need Larger Vision Models?

Author

Shi, Baifeng, Wu, Ziyang, Mao, Maolin, Wang, Xin, Darrell, Trevor, 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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8. Recursive Visual Programming

Author

Ge, Jiaxin, Subramanian, Sanjay, Shi, Baifeng, Herzig, Roei, Darrell, Trevor, 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. LLM-grounded Video Diffusion Models

Author

Lian, Long, Shi, Baifeng, Yala, Adam, Darrell, Trevor, and Li, Boyi

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

Text-conditioned diffusion models have emerged as a promising tool for neural video generation. However, current models still struggle with intricate spatiotemporal prompts and often generate restricted or incorrect motion. To address these limitations, we introduce LLM-grounded Video Diffusion (LVD). Instead of directly generating videos from the text inputs, LVD first leverages a large language model (LLM) to generate dynamic scene layouts based on the text inputs and subsequently uses the generated layouts to guide a diffusion model for video generation. We show that LLMs are able to understand complex spatiotemporal dynamics from text alone and generate layouts that align closely with both the prompts and the object motion patterns typically observed in the real world. We then propose to guide video diffusion models with these layouts by adjusting the attention maps. Our approach is training-free and can be integrated into any video diffusion model that admits classifier guidance. Our results demonstrate that LVD significantly outperforms its base video diffusion model and several strong baseline methods in faithfully generating videos with the desired attributes and motion patterns., Comment: ICLR 2024. Project Page: https://llm-grounded-video-diffusion.github.io/

Published
2023

11. Mandarin Lombard Flavor Classification

Author

Liu, Qingmu, Yang, Yuhong, Li, Baifeng, Chen, Hongyang, Tu, Weiping, and Lin, Song

Subjects
Computer Science - Sound, Electrical Engineering and Systems Science - Audio and Speech Processing
Abstract

The Lombard effect refers to individuals' unconscious modulation of vocal effort in response to variations in the ambient noise levels, intending to enhance speech intelligibility. The impact of different decibel levels and types of background noise on Lombard effects remains unclear. Building upon the characteristic of Lombard speech that individuals adjust their speech to improve intelligibility dynamically based on the self-feedback speech, we propose a flavor classification approach for the Lombard effect. We first collected Mandarin Lombard speech under different noise conditions, then simulated self-feedback speech, and ultimately conducted the statistical test on the word correct rate. We found that both SSN and babble noise types result in four distinct categories of Mandarin Lombard speech in the range of 30 to 80 dBA with different transition points.

Published
2023

12. EMALG: An Enhanced Mandarin Lombard Grid Corpus with Meaningful Sentences

Author

Li, Baifeng, Liu, Qingmu, Yang, Yuhong, Chen, Hongyang, Tu, Weiping, and Lin, Song

Subjects
Computer Science - Sound, Electrical Engineering and Systems Science - Audio and Speech Processing
Abstract

This study investigates the Lombard effect, where individuals adapt their speech in noisy environments. We introduce an enhanced Mandarin Lombard grid (EMALG) corpus with meaningful sentences , enhancing the Mandarin Lombard grid (MALG) corpus. EMALG features 34 speakers and improves recording setups, addressing challenges faced by MALG with nonsense sentences. Our findings reveal that in Mandarin, meaningful sentences are more effective in enhancing the Lombard effect. Additionally, we uncover that female exhibit a more pronounced Lombard effect than male when uttering meaningful sentences. Moreover, our results reaffirm the consistency in the Lombard effect comparison between English and Mandarin found in previous research.

Published
2023

13. GPRC5A promotes lung colonization of esophageal squamous cell carcinoma

Author

Hongyu Zhou, Licheng Tan, Baifeng Zhang, Dora Lai Wan Kwong, Ching Ngar Wong, Yu Zhang, Beibei Ru, Yingchen Lyu, Kin To Hugo Siu, Jie Luo, Yuma Yang, Qin Liu, Yixin Chen, Weiguang Zhang, Chaohui He, Peng Jiang, Yanru Qin, Beilei Liu, and Xin-Yuan Guan

Subjects
Science
Abstract

Abstract Emerging evidence suggests that cancer cells may disseminate early, prior to the formation of traditional macro-metastases. However, the mechanisms underlying the seeding and transition of early disseminated cancer cells (DCCs) into metastatic tumors remain poorly understood. Through single-cell RNA sequencing, we show that early lung DCCs from esophageal squamous cell carcinoma (ESCC) exhibit a trophoblast-like ‘tumor implantation’ phenotype, which enhances their dissemination and supports metastatic growth. Notably, ESCC cells overexpressing GPRC5A demonstrate improved implantation and persistence, resulting in macro-metastases in the lungs. Clinically, elevated GPRC5A level is associated with poorer outcomes in a cohort of 148 ESCC patients. Mechanistically, GPRC5A is found to potentially interact with WWP1, facilitating the polyubiquitination and degradation of LATS1, thereby activating YAP1 signaling pathways essential for metastasis. Importantly, targeting YAP1 axis with CA3 or TED-347 significantly diminishes early implantation and macro-metastases. Thus, the GPRC5A/WWP1/LATS1/YAP1 pathway represents a crucial target for therapeutic intervention in ESCC lung metastases.

Published
2024
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14. Direct anterior decompression in patients with ossification of the posterior longitudinal ligament significantly relieves short-segment spinal cord high signal

Author

Zichuan Wu, Xuhong Zhang, Hanlin Song, Aochen Xu, Baifeng Sun, Chen Xu, Min Qi, and Yang Liu

Subjects
Ossification of the posterior longitudinal ligament, Cervical spondylotic myelopathy, High cord signals, Magnetic resonance imaging, Signal change ratio, Anterior approaches, Diseases of the musculoskeletal system, RC925-935
Abstract

Abstract Background In patients with ossification of the posterior longitudinal ligament of the cervical spine (OPLL), high spinal cord signal (HCS) is frequently observed in the spinal cord of the corresponding segment. However, studies on the differences in the improvement of high spinal cord signal due to different surgical approaches are limited. The aim of this study was to investigate the improvement of high spinal cord signal in long and short segments with different choices of surgical approaches. Methods In this study, we conducted a meticulous review of medical records for patients diagnosed with ossification of the posterior longitudinal ligament (OPLL). Demographic variables, including gender, age, and body mass index (BMI), were systematically recorded. We evaluated the severity of neurological impairment using the Japanese Orthopaedic Association (JOA) scores both preoperatively and at multiple postoperative follow-up points. Neurological assessments were complemented by serial magnetic resonance imaging (MRI) T2-weighted imaging (T2WI) to measure the extent of high-signal changes (HCS) in the spinal cord, and the alteration of the HCS was quantified by the SCR (the ratio between the signal intensity value of the HCS region and the signal intensity value of the normal spinal cord region at C7-T1). Results In the short-segment high signal change (HCS) group, comparisons of JOA score improvement (Recovery1) and HCS improvement (CR1) at 6 months postoperatively did not demonstrate significant differences between the surgical approaches (P > 0.05; Table 1). However, at the 2-year follow-up, patients who underwent anterior surgery exhibited significantly greater improvements in both JOA scores (Recovery2) and HCS (CR2), with statistical significance achieved (P 0.05; Table 2). Conclusions In patients with OPLL who present with spinal cord high signal, anterior surgery by resection of the ossified posterior longitudinal ligament and direct decompression is more conducive to regression of small spinal cord high signal and improvement of clinical neurological function if the extent of spinal cord high signal is small.

Published
2024
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15. Appraising the causal effects of circulating micronutrients on liver cirrhosis: Evidence from large‐scale Mendelian randomization analysis

Author

Junlong Lin, Jialin Chen, Zhichao Li, Baifeng Qian, and Yunpeng Hua

Subjects
liver cirrhosis, Mendelian randomization, micronutrient, vitamin D, Diseases of the digestive system. Gastroenterology, RC799-869
Abstract

Abstract Aims Observational research has identified links between micronutrient levels and chronic liver disease. However, the lack of randomized controlled experiments has impeded the ability to establish a cause‐and‐effect connection regarding micronutrients and cirrhosis of the liver. This Mendelian randomization (MR) analysis aimed to examine the causal impact of micronutrients on liver cirrhosis. Methods We selected genetic instrumental variables related to 12 micronutrients from genome‐wide studies on individuals of European descent, covering an array of over 9,851,867 single nucleotide polymorphisms and 460,351 participants. Data from patients with cirrhosis in the FinnGen database (https://www.finngen.fi/fi) were used. A two‐sample MR approach was employed to establish genetically causal estimates. Primary analyses used random effects and inverse variance weighted (IVW) methods, with additional sensitivity analyses for validation. MR–Egger intercept analysis and Cochran's Q test assessed horizontal pleiotropy and heterogeneity. Furthermore, multivariable Mendelian randomization (MVMR) was conducted to address potential confounding variables. Results IVW and weighted median methods showed that most micronutrients included were not significantly associated with a genetic susceptibility to liver cirrhosis. However, MR analysis demonstrated a significant association between circulating vitamin D levels and a reduced risk of liver cirrhosis (odds ratio IVW = 0.53, p

Published
2024
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16. Deformation mechanism diagram and deformation instability of a Mo–Re alloy during the hot compression

Author

Jun Wu, Congqing Liu, Yong He, Junsong Zhang, Xing Yin, Ke Huang, Baifeng Luan, and Jingjing Liao

Subjects
Mo-Re alloy, Hot deformation constitutive equation, Processing maps, Dynamic recrystallization, Mining engineering. Metallurgy, TN1-997
Abstract

This study investigates the hot compression behavior of a molybdenum- Rhenium (Mo–Re) alloy, focusing on deformation mechanisms and instability. Utilizing electron backscattered diffraction (EBSD) and transmission electron microscope (TEM), we characterized the microstructure, grain orientation, and deformation behavior across temperatures (650, 750, 850, and 950 °C) and strain rates (0.01, 0.1, 1, and 10s-1). The study reveals that Mo–Re alloys exhibit high hot deformation resistance, necessitating optimal processing conditions for effective plastic deformation. Key findings by EBSD and TEM include the formation of dislocation networks and substructures enhancing grain plasticity. We established a constitutive equation and processing maps, providing valuable insights for industrial applications and future alloy development.

Published
2024
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17. Robot Learning with Sensorimotor Pre-training

Author

Radosavovic, Ilija, Shi, Baifeng, Fu, Letian, Goldberg, Ken, Darrell, Trevor, and Malik, Jitendra

Subjects
Computer Science - Robotics, Computer Science - Computer Vision and Pattern Recognition, Computer Science - Machine Learning
Abstract

We present a self-supervised sensorimotor pre-training approach for robotics. Our model, called RPT, is a Transformer that operates on sequences of sensorimotor tokens. Given a sequence of camera images, proprioceptive robot states, and actions, we encode the sequence into tokens, mask out a subset, and train a model to predict the missing content from the rest. We hypothesize that if a robot can predict the masked-out content it will have acquired a good model of the physical world that can enable it to act. RPT is designed to operate on latent visual representations which makes prediction tractable, enables scaling to larger models, and allows fast inference on a real robot. To evaluate our approach, we collected a dataset of 20,000 real-world trajectories over 9 months using a combination of motion planning and grasping algorithms. We find that sensorimotor pre-training consistently outperforms training from scratch, has favorable scaling properties, and enables transfer across different tasks, environments, and robots., Comment: CoRL 2023; Project page: https://robotic-pretrained-transformer.github.io

Published
2023

21. TOAST: Transfer Learning via Attention Steering

Author

Shi, Baifeng, Gai, Siyu, Darrell, Trevor, and Wang, Xin

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Computation and Language, Computer Science - Machine Learning
Abstract

Transfer learning involves adapting a pre-trained model to novel downstream tasks. However, we observe that current transfer learning methods often fail to focus on task-relevant features. In this work, we explore refocusing model attention for transfer learning. We introduce Top-Down Attention Steering (TOAST), a novel transfer learning algorithm that keeps the pre-trained backbone frozen, selects task-relevant features in the output, and feeds those features back to the model to steer the attention to the task-specific features. By refocusing the attention only, TOAST achieves state-of-the-art results on a number of transfer learning benchmarks, while having a small number of tunable parameters. Compared to fully fine-tuning, LoRA, and prompt tuning, TOAST substantially improves performance across a range of fine-grained visual classification datasets (e.g., 81.1% -> 86.2% on FGVC). TOAST also outperforms the fully fine-tuned Alpaca and Vicuna models on instruction-following language generation. Code is available at https://github.com/bfshi/TOAST., Comment: Code is available at https://github.com/bfshi/TOAST

Published
2023

22. Top-Down Visual Attention from Analysis by Synthesis

Author

Shi, Baifeng, Darrell, Trevor, and Wang, Xin

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Current attention algorithms (e.g., self-attention) are stimulus-driven and highlight all the salient objects in an image. However, intelligent agents like humans often guide their attention based on the high-level task at hand, focusing only on task-related objects. This ability of task-guided top-down attention provides task-adaptive representation and helps the model generalize to various tasks. In this paper, we consider top-down attention from a classic Analysis-by-Synthesis (AbS) perspective of vision. Prior work indicates a functional equivalence between visual attention and sparse reconstruction; we show that an AbS visual system that optimizes a similar sparse reconstruction objective modulated by a goal-directed top-down signal naturally simulates top-down attention. We further propose Analysis-by-Synthesis Vision Transformer (AbSViT), which is a top-down modulated ViT model that variationally approximates AbS, and achieves controllable top-down attention. For real-world applications, AbSViT consistently improves over baselines on Vision-Language tasks such as VQA and zero-shot retrieval where language guides the top-down attention. AbSViT can also serve as a general backbone, improving performance on classification, semantic segmentation, and model robustness., Comment: CVPR2023 highlight; Project page: https://sites.google.com/view/absvit

Published
2023

23. Dynamic response mechanism of layered coatings under impacts: Insights from the perspective of stress wave

Author

Mai Yang, Rong Tu, Mingquan Jiang, Wei Liu, Tenghua Gao, Baifeng Ji, Jun Li, Song Zhang, and Lianmeng Zhang

Subjects
Dynamic response mechanism, Stress wave, Layered coatings, FEM simulation, Interfaces, Materials of engineering and construction. Mechanics of materials, TA401-492
Abstract

Precision machining operations often lead to the failure of protective coatings on cutting tools due to common issues such as cracking, delamination, and peeling from cyclic impacts. While material selection and structural design are crucial for enhancing impact resistance, they primarily focus on static performance with limited consideration from the dynamic sights. This paper presents a novel dynamic design method for coatings, viewed through the lens of stress waves. We investigate the propagation behavior of stress waves in TaN/TiN and CrN/TiN coatings with layered structures. Our findings indicate that the attenuation of stress waves is dominated by the physical properties on both sides of the interface and the stride length. For interfaces with similar physical properties, the attenuation of stress waves is insensitive to the stride length, while for interfaces with different physical properties, the attenuation is regulated by the ratio of single-layer thickness to the full width at half maximum of the stress wave. These insights offer a strategy for extending the life of coatings and improving process safety under dynamic shocks.

Published
2024
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27. In-situ EBSD analysis of hydride phase transformation and its effect on micromechanical behavior in Zircaloy-4 under uniaxial tensile loading

Author

Huanzheng Sun, Hongling Zhou, Baifeng Luan, Yan Zhang, Xiaoyong Zhu, Chunrong Xu, Chao Sun, Korukonda L. Murty, Guohua Fan, and Qing Liu

Subjects
Hydride phase transformation (HPT), Orientation relationship (OR), Lattice rotation, In-situ EBSD, Zircaloy-4, Mining engineering. Metallurgy, TN1-997
Abstract

In this work, hydrogen charged Zircaloy-4 has been investigated under an in-situ electron backscatter diffraction during tensile loading. Aim were, first, to distinguish the hydride phase type and its spatial distribution, second to determine hydride phase transformation (HPT) and orientation relationship (OR) subjected to uniaxial tensile condition, and third to correlate the hydrides evolution and their effect on the micromechanical behavior, such as slip mode activation and lattice rotation, of Zircaloy-4. Apart from the applied stress, the analysis reveals that hydride reorientation is strongly related to temperature and loading mode. We noted that deformation induced δ-ZrH1.5 transformed to γ-ZrH and ε-ZrH2, and the former follows the confirmed OR {0001}α//{111}δ/γ with α//δ/γ, while the latter's OR changed to {10 1‾ 0}α//{121}ε with α//ε after HPT. The coexistence of δ-ZrH1.5 and γ-ZrH or ε-ZrH2 is observed, and the main corresponding OR is {111}δ//{111}γ with δ//γ, and {100}δ//{110}ε with δ//ε, respectively. The characterized microstructure and the measured lattice rotation results indicate that HPT delayed cracking in hydride and promoted deformation in parent grains. As the strain increases, the maintenance of hydride-matrix (H-M) coherent interfaces restricts further lattice rotation. HPT accelerates the hydride decomposition ascribed to the intensification of hydrogen diffusion under stress, and the hydride and the H-M interfaces act as priority sites for initiating microcracks. The sequence of HPT depends on the possibility of activated slip mode among grains. These findings contribute to developing the understanding of the HPT and hydrogen embrittlement.

Published
2024
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30. The role of metabolic reprogramming in immune escape of triple-negative breast cancer

Author

Ruochen Bao, Hongtao Qu, Baifeng Li, Kai Cheng, Yandong Miao, and Jiangtao Wang

Subjects
triple-negative breast cancer, immune escape, hypoxia, glucose metabolism, lipid metabolism, amino acid metabolism, Immunologic diseases. Allergy, RC581-607
Abstract

Triple-negative breast cancer (TNBC) has become a thorny problem in the treatment of breast cancer because of its high invasiveness, metastasis and recurrence. Although immunotherapy has made important progress in TNBC, immune escape caused by many factors, especially metabolic reprogramming, is still the bottleneck of TNBC immunotherapy. Regrettably, the mechanisms responsible for immune escape remain poorly understood. Exploring the mechanism of TNBC immune escape at the metabolic level provides a target and direction for follow-up targeting or immunotherapy. In this review, we focus on the mechanism that TNBC affects immune cells and interstitial cells through hypoxia, glucose metabolism, lipid metabolism and amino acid metabolism, and changes tumor metabolism and tumor microenvironment. This will help to find new targets and strategies for TNBC immunotherapy.

Published
2024
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31. Visual Attention Emerges from Recurrent Sparse Reconstruction

Author

Shi, Baifeng, Song, Yale, Joshi, Neel, Darrell, Trevor, and Wang, Xin

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Machine Learning
Abstract

Visual attention helps achieve robust perception under noise, corruption, and distribution shifts in human vision, which are areas where modern neural networks still fall short. We present VARS, Visual Attention from Recurrent Sparse reconstruction, a new attention formulation built on two prominent features of the human visual attention mechanism: recurrency and sparsity. Related features are grouped together via recurrent connections between neurons, with salient objects emerging via sparse regularization. VARS adopts an attractor network with recurrent connections that converges toward a stable pattern over time. Network layers are represented as ordinary differential equations (ODEs), formulating attention as a recurrent attractor network that equivalently optimizes the sparse reconstruction of input using a dictionary of "templates" encoding underlying patterns of data. We show that self-attention is a special case of VARS with a single-step optimization and no sparsity constraint. VARS can be readily used as a replacement for self-attention in popular vision transformers, consistently improving their robustness across various benchmarks. Code is released on GitHub (https://github.com/bfshi/VARS)., Comment: Released code: https://github.com/bfshi/VARS

Published
2022

40. Three novel umami peptides derived from the alcohol extract of the Pacific oyster (Crassostrea gigas): Identification, characterizations and interactions with T1R1/T1R3 taste receptors

Author

Baifeng Fu, Di Wu, Shuzhen Cheng, Xianbing Xu, Ling Zhang, Lishu Wang, Hesham R. El-Seedi, Hanxiong Liu, and Ming Du

Subjects
Oyster, umami peptides, iUmami-SCM, Taste characterization, Molecular docking, Nutrition. Foods and food supply, TX341-641
Abstract

Oyster (Crassostrea gigas), the main ingredient of oyster sauce, has a strong umami taste. In this study, three potential umami peptides, FLNQDEEAR (FR-9), FNKEE (FE-5), and EEFLK (EK-5), were identified and screened from the alcoholic extracts of the oyster using nano-HPLC-MS/MS analysis, iUmami-Scoring Card Method (iUmami-SCM) database and molecular docking (MD). Sensory evaluation and electronic tongue analysis were further used to confirm their tastes. The threshold of the three peptides ranged from 0.38 to 0.55 mg/mL. MD with umami receptors T1R1/T1R3 indicated that the electrostatic interaction and hydrogen bond interaction were the main forces involved. Besides, the Phe592 and Gln853 of T1R3 were the primary docking site for MD and played an important role in umami intensity. Peptides with two Glu residues at the terminus had stronger umami, especially at the C-terminus. These results contribute to the understanding of umami peptides in oysters and the interaction mechanism between umami peptides and umami receptors.

Published
2024
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