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1. Compression damage and failure mechanism of C/C-SiC satin woven composites with void defects

Author

XU Zhiyuan, TAN Zhiyong, XU Peifei, ZHANG Dahai, and FEI Qingguo

Subjects
woven composite, progressive damage, explosive fragment algorithm, digital simulation, compressive mechanical property, Materials of engineering and construction. Mechanics of materials, TA401-492
Abstract

To study the compressive mechanical properties and failure mechanism of satin woven composites with void defects, the longitudinal compression experiments on C/C-SiC satin woven composites with void defects were conducted. The microscopic strength prediction model of satin woven composites with void defects was established by introducing random pores through the explosive fragment algorithm based on the discrete element method. Based on this model, the progressive failure process of the mesoscopic model under meridional compression load was simulated, revealing the influence of pores on the damage process. The progressive damage process and failure mechanism prediction model are verified by experimental data. The results show that the main failure modes of the material under warp compression load are shear failure and delamination failure, manifesting in three forms: interlaminar local matrix cracking and associated, delamination between the matrix and the warp, complete or partial fracture along the warp and weft debonding and matrix separation, weft cracking. At the same time, the numerical simulation results are basically the same as the experimental values, which verifies the validity of the model of C/C-SiC satin woven composites with void defects, and provides an effective method for the study of mechanical properties of two-dimensional woven composites.

Published
2024
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2. A study on the impact of ultrasonic-stimulated clean fracturing fluid on the pore structure of medium to high rank coal

Author

Zuo Shaojie, Xu Zhiyuan, Zhou Dongping, Ma Zhenqian, Liu Chengwei, and Zhao Fuping

Subjects
Clean fracturing fluid, Ultrasonic, Pore structure, Coalbed gas, Fractal dimension, Medicine, Science
Abstract

Abstract The pore structure of coal plays a key role in the effectiveness of gas extraction. Conventional hydraulic fracturing techniques have limited success in modifying the pore structure using clean fracturing fluid (CFF), and the stimulating effects of ultrasonic can enhance the effectiveness of CFF in modifying coal pore structures. To research the effects of ultrasonic stimulation on the pore structure of medium to high-rank coal when using CFF, this study employed mercury intrusion porosimetry (MIP) and low-temperature nitrogen adsorption (LT-N2A) methods to analyze the changes in pore structures after cooperative modification. The results indicate that the pore volume and surface area of medium to high rank coal exhibit an increase and followed by a decrease with increasing R o,max values, while the average pore diameter and permeability demonstrate a decrease and followed by an increase with R o,max . Although there are some variations in the results of MIP and LT-N2A analysis for different pore size ranges, the overall findings suggest that ultrasonic stimulation in conjunction with CFF effectively alters the coal pore structure. The most significant improvement was observed in coking coal, where pore volume increased by 22%, pore area decreased by 11% and tortuosity decreased by 47%. The improvement of lean coal is the smallest, the pore volume increases by about 7%, and the surface area decreases by about 14%. It is found that the modification of coal pore volume is mainly concentrated in transition pores and macropores. These research outcomes provide valuable insights into the application of ultrasonic technology in coalbed gas extraction.

Published
2024
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3. Broadband wireless communication with space-time-varying polarization-converting metasurface

Author

Hu Qi, Chen Ke, Zheng Yilin, Xu Zhiyuan, Zhao Jianmin, Wang Jian, and Feng Yijun

Subjects
broadband, reconfigurable metasurfaces, space-time-varying, wireless communication, Physics, QC1-999
Abstract

Reconfigurable metasurfaces have emerged as a promising alternative to the conventional transmitter of wireless communication systems, due to their abilities of encoding digital information onto electromagnetic properties without complex radio-frequency chains. However, most of them are still limited to narrow operation bandwidth. Here, we propose a broadband metasurface-based wireless communication system that can actively adapt to multiple users located at versatile directions through joint modulation of digital signals in the time domain and wave scatterings in the space domain. As exemplary demonstrations, highly directive beams are generated to enhance regional signals in real-time customized for users in desired directions and reduce the signal leakage in undesired directions. Experiments are carried out to verify that the system can provide stable wireless communication service in a broad band of 3.7–5.1 GHz, within which the transmitted color picture enabled by the time-varying spatial modulation of metasurface can be successfully recovered at the user terminals. The proposed system may offer untapped potentials for next-generation communications and radar systems where regional signal enhancement, active adaption to users, and large channel capacities are required.

Published
2023
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4. SLICES-PLUS: A Crystal Representation Leveraging Spatial Symmetry

Author

Wang, Baoning, Xu, Zhiyuan, Han, Zhiyu, Nie, Qiwen, Xiao, Hang, and Yan, Gang

Subjects
Physics - Computational Physics, Condensed Matter - Materials Science, Physics - Applied Physics
Abstract

In recent years, the realm of crystalline materials has witnessed a surge in the development of generative models, predominantly aimed at the inverse design of crystals with tailored physical properties. However, spatial symmetry, which serves as a significant inductive bias, is often not optimally harnessed in the design process. This oversight tends to result in crystals with lower symmetry, potentially limiting the practical applications of certain functional materials. To bridge this gap, we introduce SLICES-PLUS, an enhanced variant of SLICES that emphasizes spatial symmetry. Our experiments in classification and generation have shown that SLICES-PLUS exhibits greater sensitivity and robustness in learning crystal symmetries compared to the original SLICES. Furthermore, by integrating SLICES-PLUS with a customized MatterGPT model, we have demonstrated its exceptional capability to target specific physical properties and crystal systems with precision. Finally, we explore autoregressive generation towards multiple elastic properties in few-shot learning. Our research represents a significant step forward in the realm of computational materials discovery.

Published
2024

5. Discrete Policy: Learning Disentangled Action Space for Multi-Task Robotic Manipulation

Author

Wu, Kun, Zhu, Yichen, Li, Jinming, Wen, Junjie, Liu, Ning, Xu, Zhiyuan, Qiu, Qinru, and Tang, Jian

Subjects
Computer Science - Robotics
Abstract

Learning visuomotor policy for multi-task robotic manipulation has been a long-standing challenge for the robotics community. The difficulty lies in the diversity of action space: typically, a goal can be accomplished in multiple ways, resulting in a multimodal action distribution for a single task. The complexity of action distribution escalates as the number of tasks increases. In this work, we propose \textbf{Discrete Policy}, a robot learning method for training universal agents capable of multi-task manipulation skills. Discrete Policy employs vector quantization to map action sequences into a discrete latent space, facilitating the learning of task-specific codes. These codes are then reconstructed into the action space conditioned on observations and language instruction. We evaluate our method on both simulation and multiple real-world embodiments, including both single-arm and bimanual robot settings. We demonstrate that our proposed Discrete Policy outperforms a well-established Diffusion Policy baseline and many state-of-the-art approaches, including ACT, Octo, and OpenVLA. For example, in a real-world multi-task training setting with five tasks, Discrete Policy achieves an average success rate that is 26\% higher than Diffusion Policy and 15\% higher than OpenVLA. As the number of tasks increases to 12, the performance gap between Discrete Policy and Diffusion Policy widens to 32.5\%, further showcasing the advantages of our approach. Our work empirically demonstrates that learning multi-task policies within the latent space is a vital step toward achieving general-purpose agents.

Published
2024

6. Scaling Diffusion Policy in Transformer to 1 Billion Parameters for Robotic Manipulation

Author

Zhu, Minjie, Zhu, Yichen, Li, Jinming, Wen, Junjie, Xu, Zhiyuan, Liu, Ning, Cheng, Ran, Shen, Chaomin, Peng, Yaxin, Feng, Feifei, and Tang, Jian

Subjects
Computer Science - Robotics
Abstract

Diffusion Policy is a powerful technique tool for learning end-to-end visuomotor robot control. It is expected that Diffusion Policy possesses scalability, a key attribute for deep neural networks, typically suggesting that increasing model size would lead to enhanced performance. However, our observations indicate that Diffusion Policy in transformer architecture (\DP) struggles to scale effectively; even minor additions of layers can deteriorate training outcomes. To address this issue, we introduce Scalable Diffusion Transformer Policy for visuomotor learning. Our proposed method, namely \textbf{\methodname}, introduces two modules that improve the training dynamic of Diffusion Policy and allow the network to better handle multimodal action distribution. First, we identify that \DP~suffers from large gradient issues, making the optimization of Diffusion Policy unstable. To resolve this issue, we factorize the feature embedding of observation into multiple affine layers, and integrate it into the transformer blocks. Additionally, our utilize non-causal attention which allows the policy network to \enquote{see} future actions during prediction, helping to reduce compounding errors. We demonstrate that our proposed method successfully scales the Diffusion Policy from 10 million to 1 billion parameters. This new model, named \methodname, can effectively scale up the model size with improved performance and generalization. We benchmark \methodname~across 50 different tasks from MetaWorld and find that our largest \methodname~outperforms \DP~with an average improvement of 21.6\%. Across 7 real-world robot tasks, our ScaleDP demonstrates an average improvement of 36.25\% over DP-T on four single-arm tasks and 75\% on three bimanual tasks. We believe our work paves the way for scaling up models for visuomotor learning. The project page is available at scaling-diffusion-policy.github.io.

Published
2024

7. TinyVLA: Towards Fast, Data-Efficient Vision-Language-Action Models for Robotic Manipulation

Author

Wen, Junjie, Zhu, Yichen, Li, Jinming, Zhu, Minjie, Wu, Kun, Xu, Zhiyuan, Liu, Ning, Cheng, Ran, Shen, Chaomin, Peng, Yaxin, Feng, Feifei, and Tang, Jian

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

Vision-Language-Action (VLA) models have shown remarkable potential in visuomotor control and instruction comprehension through end-to-end learning processes. However, current VLA models face significant challenges: they are slow during inference and require extensive pre-training on large amounts of robotic data, making real-world deployment difficult. In this paper, we introduce a new family of compact vision-language-action models, called TinyVLA, which offers two key advantages over existing VLA models: (1) faster inference speeds, and (2) improved data efficiency, eliminating the need for pre-training stage. Our framework incorporates two essential components to build TinyVLA: (1) initializing the policy backbone with robust, high-speed multimodal models, and (2) integrating a diffusion policy decoder during fine-tuning to enable precise robot actions. We conducted extensive evaluations of TinyVLA in both simulation and on real robots, demonstrating that our approach significantly outperforms the state-of-the-art VLA model, OpenVLA, in terms of speed and data efficiency, while delivering comparable or superior performance. Additionally, TinyVLA exhibits strong generalization capabilities across various dimensions, including language instructions, novel objects, unseen positions, changes in object appearance, background variations, and environmental shifts, often matching or exceeding the performance of OpenVLA. We believe that \methodname offers an interesting perspective on utilizing pre-trained multimodal models for policy learning. Our project is at https://tiny-vla.github.io., Comment: add more citations

Published
2024

8. MMRo: Are Multimodal LLMs Eligible as the Brain for In-Home Robotics?

Author

Li, Jinming, Zhu, Yichen, Xu, Zhiyuan, Gu, Jindong, Zhu, Minjie, Liu, Xin, Liu, Ning, Peng, Yaxin, Feng, Feifei, and Tang, Jian

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

It is fundamentally challenging for robots to serve as useful assistants in human environments because this requires addressing a spectrum of sub-problems across robotics, including perception, language understanding, reasoning, and planning. The recent advancements in Multimodal Large Language Models (MLLMs) have demonstrated their exceptional abilities in solving complex mathematical problems, mastering commonsense and abstract reasoning. This has led to the recent utilization of MLLMs as the brain in robotic systems, enabling these models to conduct high-level planning prior to triggering low-level control actions for task execution. However, it remains uncertain whether existing MLLMs are reliable in serving the brain role of robots. In this study, we introduce the first benchmark for evaluating Multimodal LLM for Robotic (MMRo) benchmark, which tests the capability of MLLMs for robot applications. Specifically, we identify four essential capabilities perception, task planning, visual reasoning, and safety measurement that MLLMs must possess to qualify as the robot's central processing unit. We have developed several scenarios for each capability, resulting in a total of 14 metrics for evaluation. We present experimental results for various MLLMs, including both commercial and open-source models, to assess the performance of existing systems. Our findings indicate that no single model excels in all areas, suggesting that current MLLMs are not yet trustworthy enough to serve as the cognitive core for robots. Our data can be found in https://mm-robobench.github.io/.

Published
2024

9. FlowDepth: Decoupling Optical Flow for Self-Supervised Monocular Depth Estimation

Author

Sun, Yiyang, Xu, Zhiyuan, Wang, Xiaonian, and Yao, Jing

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

Self-supervised multi-frame methods have currently achieved promising results in depth estimation. However, these methods often suffer from mismatch problems due to the moving objects, which break the static assumption. Additionally, unfairness can occur when calculating photometric errors in high-freq or low-texture regions of the images. To address these issues, existing approaches use additional semantic priori black-box networks to separate moving objects and improve the model only at the loss level. Therefore, we propose FlowDepth, where a Dynamic Motion Flow Module (DMFM) decouples the optical flow by a mechanism-based approach and warps the dynamic regions thus solving the mismatch problem. For the unfairness of photometric errors caused by high-freq and low-texture regions, we use Depth-Cue-Aware Blur (DCABlur) and Cost-Volume sparsity loss respectively at the input and the loss level to solve the problem. Experimental results on the KITTI and Cityscapes datasets show that our method outperforms the state-of-the-art methods.

Published
2024

10. Mipha: A Comprehensive Overhaul of Multimodal Assistant with Small Language Models

Author

Zhu, Minjie, Zhu, Yichen, Liu, Xin, Liu, Ning, Xu, Zhiyuan, Shen, Chaomin, Peng, Yaxin, Ou, Zhicai, Feng, Feifei, and Tang, Jian

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

Multimodal Large Language Models (MLLMs) have showcased impressive skills in tasks related to visual understanding and reasoning. Yet, their widespread application faces obstacles due to the high computational demands during both the training and inference phases, restricting their use to a limited audience within the research and user communities. In this paper, we investigate the design aspects of Multimodal Small Language Models (MSLMs) and propose an efficient multimodal assistant named Mipha, which is designed to create synergy among various aspects: visual representation, language models, and optimization strategies. We show that without increasing the volume of training data, our Mipha-3B outperforms the state-of-the-art large MLLMs, especially LLaVA-1.5-13B, on multiple benchmarks. Through detailed discussion, we provide insights and guidelines for developing strong MSLMs that rival the capabilities of MLLMs. Our code is available at https://github.com/zhuyiche/llava-phi.

Published
2024

11. A Survey on Robotics with Foundation Models: toward Embodied AI

Author

Xu, Zhiyuan, Wu, Kun, Wen, Junjie, Li, Jinming, Liu, Ning, Che, Zhengping, and Tang, Jian

Subjects
Computer Science - Robotics, Computer Science - Artificial Intelligence
Abstract

While the exploration for embodied AI has spanned multiple decades, it remains a persistent challenge to endow agents with human-level intelligence, including perception, learning, reasoning, decision-making, control, and generalization capabilities, so that they can perform general-purpose tasks in open, unstructured, and dynamic environments. Recent advances in computer vision, natural language processing, and multi-modality learning have shown that the foundation models have superhuman capabilities for specific tasks. They not only provide a solid cornerstone for integrating basic modules into embodied AI systems but also shed light on how to scale up robot learning from a methodological perspective. This survey aims to provide a comprehensive and up-to-date overview of foundation models in robotics, focusing on autonomous manipulation and encompassing high-level planning and low-level control. Moreover, we showcase their commonly used datasets, simulators, and benchmarks. Importantly, we emphasize the critical challenges intrinsic to this field and delineate potential avenues for future research, contributing to advancing the frontier of academic and industrial discourse.

Published
2024

12. Language-Conditioned Robotic Manipulation with Fast and Slow Thinking

Author

Zhu, Minjie, Zhu, Yichen, Li, Jinming, Wen, Junjie, Xu, Zhiyuan, Che, Zhengping, Shen, Chaomin, Peng, Yaxin, Liu, Dong, Feng, Feifei, and Tang, Jian

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

The language-conditioned robotic manipulation aims to transfer natural language instructions into executable actions, from simple pick-and-place to tasks requiring intent recognition and visual reasoning. Inspired by the dual process theory in cognitive science, which suggests two parallel systems of fast and slow thinking in human decision-making, we introduce Robotics with Fast and Slow Thinking (RFST), a framework that mimics human cognitive architecture to classify tasks and makes decisions on two systems based on instruction types. Our RFST consists of two key components: 1) an instruction discriminator to determine which system should be activated based on the current user instruction, and 2) a slow-thinking system that is comprised of a fine-tuned vision language model aligned with the policy networks, which allows the robot to recognize user intention or perform reasoning tasks. To assess our methodology, we built a dataset featuring real-world trajectories, capturing actions ranging from spontaneous impulses to tasks requiring deliberate contemplation. Our results, both in simulation and real-world scenarios, confirm that our approach adeptly manages intricate tasks that demand intent recognition and reasoning. The project is available at https://jlm-z.github.io/RSFT/, Comment: accepted to ICRA2024

Published
2024

13. Object-Centric Instruction Augmentation for Robotic Manipulation

Author

Wen, Junjie, Zhu, Yichen, Zhu, Minjie, Li, Jinming, Xu, Zhiyuan, Che, Zhengping, Shen, Chaomin, Peng, Yaxin, Liu, Dong, Feng, Feifei, and Tang, Jian

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

Humans interpret scenes by recognizing both the identities and positions of objects in their observations. For a robot to perform tasks such as \enquote{pick and place}, understanding both what the objects are and where they are located is crucial. While the former has been extensively discussed in the literature that uses the large language model to enrich the text descriptions, the latter remains underexplored. In this work, we introduce the \textit{Object-Centric Instruction Augmentation (OCI)} framework to augment highly semantic and information-dense language instruction with position cues. We utilize a Multi-modal Large Language Model (MLLM) to weave knowledge of object locations into natural language instruction, thus aiding the policy network in mastering actions for versatile manipulation. Additionally, we present a feature reuse mechanism to integrate the vision-language features from off-the-shelf pre-trained MLLM into policy networks. Through a series of simulated and real-world robotic tasks, we demonstrate that robotic manipulator imitation policies trained with our enhanced instructions outperform those relying solely on traditional language instructions., Comment: accepted to ICRA2024

Published
2024

14. Multi-Clue Reasoning with Memory Augmentation for Knowledge-based Visual Question Answering

Author

Yin, Chengxiang, Che, Zhengping, Wu, Kun, Xu, Zhiyuan, and Tang, Jian

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Visual Question Answering (VQA) has emerged as one of the most challenging tasks in artificial intelligence due to its multi-modal nature. However, most existing VQA methods are incapable of handling Knowledge-based Visual Question Answering (KB-VQA), which requires external knowledge beyond visible contents to answer questions about a given image. To address this issue, we propose a novel framework that endows the model with capabilities of answering more general questions, and achieves a better exploitation of external knowledge through generating Multiple Clues for Reasoning with Memory Neural Networks (MCR-MemNN). Specifically, a well-defined detector is adopted to predict image-question related relation phrases, each of which delivers two complementary clues to retrieve the supporting facts from external knowledge base (KB), which are further encoded into a continuous embedding space using a content-addressable memory. Afterwards, mutual interactions between visual-semantic representation and the supporting facts stored in memory are captured to distill the most relevant information in three modalities (i.e., image, question, and KB). Finally, the optimal answer is predicted by choosing the supporting fact with the highest score. We conduct extensive experiments on two widely-used benchmarks. The experimental results well justify the effectiveness of MCR-MemNN, as well as its superiority over other KB-VQA methods.

Published
2023

15. Cross-Modal Reasoning with Event Correlation for Video Question Answering

Author

Yin, Chengxiang, Che, Zhengping, Wu, Kun, Xu, Zhiyuan, Qiu, Qinru, and Tang, Jian

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Video Question Answering (VideoQA) is a very attractive and challenging research direction aiming to understand complex semantics of heterogeneous data from two domains, i.e., the spatio-temporal video content and the word sequence in question. Although various attention mechanisms have been utilized to manage contextualized representations by modeling intra- and inter-modal relationships of the two modalities, one limitation of the predominant VideoQA methods is the lack of reasoning with event correlation, that is, sensing and analyzing relationships among abundant and informative events contained in the video. In this paper, we introduce the dense caption modality as a new auxiliary and distill event-correlated information from it to infer the correct answer. To this end, we propose a novel end-to-end trainable model, Event-Correlated Graph Neural Networks (EC-GNNs), to perform cross-modal reasoning over information from the three modalities (i.e., caption, video, and question). Besides the exploitation of a brand new modality, we employ cross-modal reasoning modules for explicitly modeling inter-modal relationships and aggregating relevant information across different modalities, and we propose a question-guided self-adaptive multi-modal fusion module to collect the question-oriented and event-correlated evidence through multi-step reasoning. We evaluate our model on two widely-used benchmark datasets and conduct an ablation study to justify the effectiveness of each proposed component.

Published
2023

16. Exploring Gradient Explosion in Generative Adversarial Imitation Learning: A Probabilistic Perspective

Author

Wang, Wanying, Zhu, Yichen, Zhou, Yirui, Shen, Chaomin, Tang, Jian, Xu, Zhiyuan, Peng, Yaxin, and Zhang, Yangchun

Subjects
Computer Science - Machine Learning, Computer Science - Artificial Intelligence
Abstract

Generative Adversarial Imitation Learning (GAIL) stands as a cornerstone approach in imitation learning. This paper investigates the gradient explosion in two types of GAIL: GAIL with deterministic policy (DE-GAIL) and GAIL with stochastic policy (ST-GAIL). We begin with the observation that the training can be highly unstable for DE-GAIL at the beginning of the training phase and end up divergence. Conversely, the ST-GAIL training trajectory remains consistent, reliably converging. To shed light on these disparities, we provide an explanation from a theoretical perspective. By establishing a probabilistic lower bound for GAIL, we demonstrate that gradient explosion is an inevitable outcome for DE-GAIL due to occasionally large expert-imitator policy disparity, whereas ST-GAIL does not have the issue with it. To substantiate our assertion, we illustrate how modifications in the reward function can mitigate the gradient explosion challenge. Finally, we propose CREDO, a simple yet effective strategy that clips the reward function during the training phase, allowing the GAIL to enjoy high data efficiency and stable trainability., Comment: AAAI2024

Published
2023

17. Experimental study of grouted sleeve lapping connector under tensile load

Author

Yu Qiong and Xu Zhiyuan

Subjects
Engineering (General). Civil engineering (General), TA1-2040
Abstract

The performance of the grouted sleeve lapping connector that is used to connect reinforcement bars in a precast concrete structure is studied. A total of 63 specimens, varying in bar diameter and lap length, were tested under tensile load. The failure modes, ultimate tensile strength values and load-displacement curves of the specimens are discussed in the study. Two equations are proposed for calculating the average lapping bond stress and critical lap length.

Published
2017
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18. Analysis of Emergency Information Management Research Hotspots Based on Bibliometric and Co-occurrence Analysis

Author

Zou Qingyun, Gao Feng, and Xu Zhiyuan

Subjects
emergency information management, information system, information management, information disclosure, information communication, Bibliography. Library science. Information resources
Abstract

[Purpose/significance] Emergency information management is an interdisciplinary field of emergency management and information management. Summarizing the major research output is helpful to strengthen the effective utilization of information resources in emergency management research, and to provide references for the follow-up development and practical exploration of emergency information management research. [Method/process] By retrieving concerned literature from CNKI, this paper used the bibliometric and co-word clustering analysis methods to analyze the domestic emergency management research output. [Result/conclusion] Domestic emergency information management research mainly focuses on five hot topics: disaster emergency information management, crisis information disclosure, emergency information management system, emergency response, wisdom emergency management. China should strengthen the emergency management information base for future theoretical research, and build the emergency information management theoretical framework.

Published
2017
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20. Optimization Techniques for a Physical Model of Human Vocalisation

Author

Cámara, Mateo, Xu, Zhiyuan, Zong, Yisu, Blanco, José Luis, and Reiss, Joshua D.

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

We present a non-supervised approach to optimize and evaluate the synthesis of non-speech audio effects from a speech production model. We use the Pink Trombone synthesizer as a case study of a simplified production model of the vocal tract to target non-speech human audio signals --yawnings. We selected and optimized the control parameters of the synthesizer to minimize the difference between real and generated audio. We validated the most common optimization techniques reported in the literature and a specifically designed neural network. We evaluated several popular quality metrics as error functions. These include both objective quality metrics and subjective-equivalent metrics. We compared the results in terms of total error and computational demand. Results show that genetic and swarm optimizers outperform least squares algorithms at the cost of executing slower and that specific combinations of optimizers and audio representations offer significantly different results. The proposed methodology could be used in benchmarking other physical models and audio types., Comment: Accepted to DAFx 2023

Published
2023

22. Microemulsion Oil Displacement Effect of Fracture Reservoirs

Author

Jia Jiangfen, Xu Zhengdong, Zhang Bin, Wang Peng, Kong Weizhong, Xu Zhiyuan, Xiong Wei, Jia Yuanzhao, and Cao Jiefeng

Subjects
Environmental sciences, GE1-350
Abstract

In order to compare the oil repellent effect of microemulsion drive and water drive, the remarkable effect of improving recovery rate of microemulsion drive is proved from the microemulsion aspect by analyzing the crack core oil drive experiment and the distribution law of the residual oil in the pore. The experimental results show that the yield rate of microemulsion drive can increase by 10.8% compared with the water drive, and the final recovery rate is as high as 49.7%, which shows that the recovery rate of microemulsion drive system has a significant effect. The proportion of residual oil with pore decreased with the decrease of pore radius, which shows that the pore radius has a significant effect on the distribution of residual oil. And compared with the matrix core, the proportion of residual oil pore in the fissure core is larger and the oil removal efficiency is relatively low.

Published
2020
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23. DTF-Net: Category-Level Pose Estimation and Shape Reconstruction via Deformable Template Field

Author

Wang, Haowen, Fan, Zhipeng, Zhao, Zhen, Che, Zhengping, Xu, Zhiyuan, Liu, Dong, Feng, Feifei, Huang, Yakun, Qiao, Xiuquan, and Tang, Jian

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

Estimating 6D poses and reconstructing 3D shapes of objects in open-world scenes from RGB-depth image pairs is challenging. Many existing methods rely on learning geometric features that correspond to specific templates while disregarding shape variations and pose differences among objects in the same category. As a result, these methods underperform when handling unseen object instances in complex environments. In contrast, other approaches aim to achieve category-level estimation and reconstruction by leveraging normalized geometric structure priors, but the static prior-based reconstruction struggles with substantial intra-class variations. To solve these problems, we propose the DTF-Net, a novel framework for pose estimation and shape reconstruction based on implicit neural fields of object categories. In DTF-Net, we design a deformable template field to represent the general category-wise shape latent features and intra-category geometric deformation features. The field establishes continuous shape correspondences, deforming the category template into arbitrary observed instances to accomplish shape reconstruction. We introduce a pose regression module that shares the deformation features and template codes from the fields to estimate the accurate 6D pose of each object in the scene. We integrate a multi-modal representation extraction module to extract object features and semantic masks, enabling end-to-end inference. Moreover, during training, we implement a shape-invariant training strategy and a viewpoint sampling method to further enhance the model's capability to extract object pose features. Extensive experiments on the REAL275 and CAMERA25 datasets demonstrate the superiority of DTF-Net in both synthetic and real scenes. Furthermore, we show that DTF-Net effectively supports grasping tasks with a real robot arm., Comment: The first two authors are with equal contributions. Paper accepted by ACM MM 2023

Published
2023
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24. Vocal Tract Area Estimation by Gradient Descent

Author

Südholt, David, Cámara, Mateo, Xu, Zhiyuan, and Reiss, Joshua D.

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

Articulatory features can provide interpretable and flexible controls for the synthesis of human vocalizations by allowing the user to directly modify parameters like vocal strain or lip position. To make this manipulation through resynthesis possible, we need to estimate the features that result in a desired vocalization directly from audio recordings. In this work, we propose a white-box optimization technique for estimating glottal source parameters and vocal tract shapes from audio recordings of human vowels. The approach is based on inverse filtering and optimizing the frequency response of a wave\-guide model of the vocal tract with gradient descent, propagating error gradients through the mapping of articulatory features to the vocal tract area function. We apply this method to the task of matching the sound of the Pink Trombone, an interactive articulatory synthesizer, to a given vocalization. We find that our method accurately recovers control functions for audio generated by the Pink Trombone itself. We then compare our technique against evolutionary optimization algorithms and a neural network trained to predict control parameters from audio. A subjective evaluation finds that our approach outperforms these black-box optimization baselines on the task of reproducing human vocalizations., Comment: Accepted to DAFx 2023

Published
2023

25. RDFC-GAN: RGB-Depth Fusion CycleGAN for Indoor Depth Completion

Author

Wang, Haowen, Che, Zhengping, Yang, Yufan, Wang, Mingyuan, Xu, Zhiyuan, Qiao, Xiuquan, Qi, Mengshi, Feng, Feifei, and Tang, Jian

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

Raw depth images captured in indoor scenarios frequently exhibit extensive missing values due to the inherent limitations of the sensors and environments. For example, transparent materials frequently elude detection by depth sensors; surfaces may introduce measurement inaccuracies due to their polished textures, extended distances, and oblique incidence angles from the sensor. The presence of incomplete depth maps imposes significant challenges for subsequent vision applications, prompting the development of numerous depth completion techniques to mitigate this problem. Numerous methods excel at reconstructing dense depth maps from sparse samples, but they often falter when faced with extensive contiguous regions of missing depth values, a prevalent and critical challenge in indoor environments. To overcome these challenges, we design a novel two-branch end-to-end fusion network named RDFC-GAN, which takes a pair of RGB and incomplete depth images as input to predict a dense and completed depth map. The first branch employs an encoder-decoder structure, by adhering to the Manhattan world assumption and utilizing normal maps from RGB-D information as guidance, to regress the local dense depth values from the raw depth map. The other branch applies an RGB-depth fusion CycleGAN, adept at translating RGB imagery into detailed, textured depth maps while ensuring high fidelity through cycle consistency. We fuse the two branches via adaptive fusion modules named W-AdaIN and train the model with the help of pseudo depth maps. Comprehensive evaluations on NYU-Depth V2 and SUN RGB-D datasets show that our method significantly enhances depth completion performance particularly in realistic indoor settings., Comment: Haowen Wang and Zhengping Che are with equal contributions. Paper accepted by IEEE Transactions on Pattern Analysis and Machine Intelligence (TPAMI). An earlier version has been accepted by CVPR 2022 (arXiv:2203.10856). arXiv admin note: text overlap with arXiv:2203.10856

Published
2023
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27. Stereotactic radiosurgery (SRS) for patients with brainstem cerebral cavernous malformations (CCMs): an international, multicentric study

Author

Dayawansa, Sam, Dumot, Chloe, Mantziaris, Georgios, Xu, Zhiyuan, Pikis, Stylianos, Peker, Selcuk, Samanci, Yavuz, Ardor, Gokce D., Nabeel, Ahmed M., Reda, Wael A., Tawadros, Sameh R., Abdelkarim, Khaled, El-Shehaby, Amr M. N., Eldin, Reem M. Emad, Elazzazi, Ahmed H., Moreno, Nuria Martínez, Álvarez, Roberto Martínez, Liscak, Roman, May, Jaromir, Mathieu, David, Tourigny, Jean-Nicolas, Tripathi, Manjul, Rajput, Akshay, Kumar, Narendra, Kaur, Rupinder, Picozzi, Piero, Franzini, Andrea, Speckter, Herwin, Hernandez, Wenceslao, Brito, Anderson, Warnick, Ronald E., Alzate, Juan, Kondziolka, Douglas, Bowden, Greg N., Patel, Samir, and Sheehan, Jason P.

Published
2024
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30. METI: deep profiling of tumor ecosystems by integrating cell morphology and spatial transcriptomics

Author

Jiang, Jiahui, Liu, Yunhe, Qin, Jiangjiang, Chen, Jianfeng, Wu, Jingjing, Pizzi, Melissa P., Lazcano, Rossana, Yamashita, Kohei, Xu, Zhiyuan, Pei, Guangsheng, Cho, Kyung Serk, Chu, Yanshuo, Sinjab, Ansam, Peng, Fuduan, Yan, Xinmiao, Han, Guangchun, Wang, Ruiping, Dai, Enyu, Dai, Yibo, Czerniak, Bogdan A., Futreal, Andrew, Maitra, Anirban, Lazar, Alexander, Kadara, Humam, Jazaeri, Amir A., Cheng, Xiangdong, Ajani, Jaffer, Gao, Jianjun, Hu, Jian, and Wang, Linghua

Published
2024
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39. CMG-Net: An End-to-End Contact-Based Multi-Finger Dexterous Grasping Network

Author

Wei, Mingze, Huang, Yaomin, Xu, Zhiyuan, Liu, Ning, Che, Zhengping, Zhang, Xinyu, Shen, Chaomin, Feng, Feifei, Shan, Chun, and Tang, Jian

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

In this paper, we propose a novel representation for grasping using contacts between multi-finger robotic hands and objects to be manipulated. This representation significantly reduces the prediction dimensions and accelerates the learning process. We present an effective end-to-end network, CMG-Net, for grasping unknown objects in a cluttered environment by efficiently predicting multi-finger grasp poses and hand configurations from a single-shot point cloud. Moreover, we create a synthetic grasp dataset that consists of five thousand cluttered scenes, 80 object categories, and 20 million annotations. We perform a comprehensive empirical study and demonstrate the effectiveness of our grasping representation and CMG-Net. Our work significantly outperforms the state-of-the-art for three-finger robotic hands. We also demonstrate that the model trained using synthetic data performs very well for real robots., Comment: The first two authors are with equal contributions. Paper accepted by ICRA 2023

Published
2023

40. CP$^3$: Channel Pruning Plug-in for Point-based Networks

Author

Huang, Yaomin, Liu, Ning, Che, Zhengping, Xu, Zhiyuan, Shen, Chaomin, Peng, Yaxin, Zhang, Guixu, Liu, Xinmei, Feng, Feifei, and Tang, Jian

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

Channel pruning can effectively reduce both computational cost and memory footprint of the original network while keeping a comparable accuracy performance. Though great success has been achieved in channel pruning for 2D image-based convolutional networks (CNNs), existing works seldom extend the channel pruning methods to 3D point-based neural networks (PNNs). Directly implementing the 2D CNN channel pruning methods to PNNs undermine the performance of PNNs because of the different representations of 2D images and 3D point clouds as well as the network architecture disparity. In this paper, we proposed CP$^3$, which is a Channel Pruning Plug-in for Point-based network. CP$^3$ is elaborately designed to leverage the characteristics of point clouds and PNNs in order to enable 2D channel pruning methods for PNNs. Specifically, it presents a coordinate-enhanced channel importance metric to reflect the correlation between dimensional information and individual channel features, and it recycles the discarded points in PNN's sampling process and reconsiders their potentially-exclusive information to enhance the robustness of channel pruning. Experiments on various PNN architectures show that CP$^3$ constantly improves state-of-the-art 2D CNN pruning approaches on different point cloud tasks. For instance, our compressed PointNeXt-S on ScanObjectNN achieves an accuracy of 88.52% with a pruning rate of 57.8%, outperforming the baseline pruning methods with an accuracy gain of 1.94%., Comment: Yaomin Huang and Ning Liu are with equal contributions. This paper has been accepted by CVPR 2023

Published
2023

43. Development of Nanobody-Displayed Whole-Cell Biosensors for the Colorimetric Detection of SARS-CoV-2.

Author

He, Yawen, Xu, Zhiyuan, Kasputis, Tom, Zhao, Xue, Ibañez, Itati, Pavan, Florencia, Bok, Marina, Malito, Juan, Parreno, Viviana, Yuan, Lijuan, Wright, R, and Chen, Juhong

Subjects
SARS-CoV-2, colorimetric detection, engineered yeast, gold nanoparticle, nanobody, whole-cell biosensor, Humans, COVID-19, Colorimetry, Gold, Metal Nanoparticles, SARS-CoV-2, Saccharomyces cerevisiae, Spike Glycoprotein, Coronavirus, Horseradish Peroxidase
Abstract

The accurate and effective detection of severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) is essential to preventing the spread of infectious diseases and ensuring human health. Herein, a nanobody-displayed whole-cell biosensor was developed for colorimetric detection of SARS-CoV-2 spike proteins. Serving as bioreceptors, yeast surfaces were genetically engineered to display SARS-CoV-2 binding of llama-derived single-domain antibodies (nanobodies) with high capture efficiency, facilitating the concentration and purification of SARS-CoV-2. Gold nanoparticles (AuNPs) employed as signal transductions were functionalized with horseradish peroxidase (HRP) and anti-SARS monoclonal antibodies to enhance the detection sensitivity. In the presence of SARS-CoV-2 spike proteins, the sandwiched binding will be formed by linking engineered yeast, SARS-CoV-2 spike proteins, and reporter AuNPs. The colorimetric signal was generated by the enzymatic reaction of HRP and its corresponding colorimetric substrate/chromogen system. At the optimal conditions, the developed whole-cell biosensor enables the sensitive detection of SARS-CoV-2 spike proteins in a linear range from 0.01 to 1 μg/mL with a limit of detection (LOD) of 0.037 μg/mL (about 4 × 108 virion particles/mL). Furthermore, the whole-cell biosensor was demonstrated to detect the spike protein of different SARS-CoV-2 variants in human serum, providing new possibilities for the detection of future SARS-CoV-2 variants.

Published
2023

44. Engineered Yeast Displaying Specific Norovirus-Binding Nanobodies for the Concentration and Detection of Human Norovirus in Food Matrix.

Author

Zhao, Xue, Rahman, Mahbubur, Xu, Zhiyuan, Kasputis, Tom, He, Yawen, Yuan, Lijuan, Wright, R, and Chen, Juhong

Subjects
engineered yeast, food safety, fresh produce, nanobody, norovirus, virus detection, Humans, Saccharomyces cerevisiae, Single-Domain Antibodies, Norovirus
Abstract

Human noroviruses pose grave threats to public health and economy. In this study, we genetically engineered yeast (Saccharomyces cerevisiae EBY100) to display specific norovirus-binding nanobodies (Nano-26 and Nano-85) on cell surface to facilitate the concentration of noroviruses for improved detection. Binding of norovirus virus-like particles (VLPs) to these nanobody-displaying yeasts was confirmed and characterized using confocal microscopy and flow cytometry. The ability of our engineered yeasts to capture norovirus VLPs can reach up to 91.3%. Furthermore, this approach was applied to concentrate and detect norovirus VLPs in a real food matrix. A wide linear detection range (1-104 pg/g) was observed, and the detection limit on spiked spinach was calculated as low as 0.071 pg/g. Overall, our engineered yeasts could be a promising approach to concentrate and purify noroviruses in food samples for easy detection, which allows us to prevent the spread of food-borne virus in the food supply chain.

Published
2023

45. DRNet: Early Recognition of Depression Based on National Health Survey Data

Author

Zhang, Haoyu, Zhang, Ping, Huang, Ganlu, Xu, Zhiyuan, Wang, Yueying, Niu, Kai, He, Zhiqiang, 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, Huang, De-Shuang, editor, Zhang, Chuanlei, editor, and Guo, Jiayang, editor

Published
2024
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46. PDSE: A Multiple Lesion Detector for CT Images Using PANet and Deformable Squeeze-and-Excitation Block

Author

Fan, Di, Yu, Heng, Xu, Zhiyuan, 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, Yap, Moi Hoon, editor, Kendrick, Connah, editor, Behera, Ardhendu, editor, Cootes, Timothy, editor, and Zwiggelaar, Reyer, editor

Published
2024
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47. Directed Acyclic Graph Factorization Machines for CTR Prediction via Knowledge Distillation

Author

Tian, Zhen, Bai, Ting, Zhang, Zibin, Xu, Zhiyuan, Lin, Kangyi, Wen, Ji-Rong, and Zhao, Wayne Xin

Subjects
Computer Science - Information Retrieval, Computer Science - Machine Learning
Abstract

With the growth of high-dimensional sparse data in web-scale recommender systems, the computational cost to learn high-order feature interaction in CTR prediction task largely increases, which limits the use of high-order interaction models in real industrial applications. Some recent knowledge distillation based methods transfer knowledge from complex teacher models to shallow student models for accelerating the online model inference. However, they suffer from the degradation of model accuracy in knowledge distillation process. It is challenging to balance the efficiency and effectiveness of the shallow student models. To address this problem, we propose a Directed Acyclic Graph Factorization Machine (KD-DAGFM) to learn the high-order feature interactions from existing complex interaction models for CTR prediction via Knowledge Distillation. The proposed lightweight student model DAGFM can learn arbitrary explicit feature interactions from teacher networks, which achieves approximately lossless performance and is proved by a dynamic programming algorithm. Besides, an improved general model KD-DAGFM+ is shown to be effective in distilling both explicit and implicit feature interactions from any complex teacher model. Extensive experiments are conducted on four real-world datasets, including a large-scale industrial dataset from WeChat platform with billions of feature dimensions. KD-DAGFM achieves the best performance with less than 21.5% FLOPs of the state-of-the-art method on both online and offline experiments, showing the superiority of DAGFM to deal with the industrial scale data in CTR prediction task. Our implementation code is available at: https://github.com/RUCAIBox/DAGFM.

Published
2022
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48. Label-Guided Auxiliary Training Improves 3D Object Detector

Author

Huang, Yaomin, Liu, Xinmei, Zhu, Yichen, Xu, Zhiyuan, Shen, Chaomin, Che, Zhengping, Zhang, Guixu, Peng, Yaxin, Feng, Feifei, and Tang, Jian

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

Detecting 3D objects from point clouds is a practical yet challenging task that has attracted increasing attention recently. In this paper, we propose a Label-Guided auxiliary training method for 3D object detection (LG3D), which serves as an auxiliary network to enhance the feature learning of existing 3D object detectors. Specifically, we propose two novel modules: a Label-Annotation-Inducer that maps annotations and point clouds in bounding boxes to task-specific representations and a Label-Knowledge-Mapper that assists the original features to obtain detection-critical representations. The proposed auxiliary network is discarded in inference and thus has no extra computational cost at test time. We conduct extensive experiments on both indoor and outdoor datasets to verify the effectiveness of our approach. For example, our proposed LG3D improves VoteNet by 2.5% and 3.1% mAP on the SUN RGB-D and ScanNetV2 datasets, respectively., Comment: Yaomin Huang and Xinmei Liu are with equal contribution. This paper has been accepted by ECCV 2022

Published
2022

49. Continual Few-Shot Learning with Adversarial Class Storage

Author

Wu, Kun, Yin, Chengxiang, Tang, Jian, Xu, Zhiyuan, Wang, Yanzhi, and Yang, Dejun

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

Humans have a remarkable ability to quickly and effectively learn new concepts in a continuous manner without forgetting old knowledge. Though deep learning has made tremendous successes on various computer vision tasks, it faces challenges for achieving such human-level intelligence. In this paper, we define a new problem called continual few-shot learning, in which tasks arrive sequentially and each task is associated with a few training samples. We propose Continual Meta-Learner (CML) to solve this problem. CML integrates metric-based classification and a memory-based mechanism along with adversarial learning into a meta-learning framework, which leads to the desirable properties: 1) it can quickly and effectively learn to handle a new task; 2) it overcomes catastrophic forgetting; 3) it is model-agnostic. We conduct extensive experiments on two image datasets, MiniImageNet and CIFAR100. Experimental results show that CML delivers state-of-the-art performance in terms of classification accuracy on few-shot learning tasks without catastrophic forgetting., Comment: 9 pages

Published
2022

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