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180 results on '"Feng, Zeyu"'

1. Diffusion Meets Options: Hierarchical Generative Skill Composition for Temporally-Extended Tasks

Author

Feng, Zeyu, Luan, Hao, Ma, Kevin Yuchen, and Soh, Harold

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

Safe and successful deployment of robots requires not only the ability to generate complex plans but also the capacity to frequently replan and correct execution errors. This paper addresses the challenge of long-horizon trajectory planning under temporally extended objectives in a receding horizon manner. To this end, we propose DOPPLER, a data-driven hierarchical framework that generates and updates plans based on instruction specified by linear temporal logic (LTL). Our method decomposes temporal tasks into chain of options with hierarchical reinforcement learning from offline non-expert datasets. It leverages diffusion models to generate options with low-level actions. We devise a determinantal-guided posterior sampling technique during batch generation, which improves the speed and diversity of diffusion generated options, leading to more efficient querying. Experiments on robot navigation and manipulation tasks demonstrate that DOPPLER can generate sequences of trajectories that progressively satisfy the specified formulae for obstacle avoidance and sequential visitation. Demonstration videos are available online at: https://philiptheother.github.io/doppler/.

Published
2024

2. Pandora: Towards General World Model with Natural Language Actions and Video States

Author

Xiang, Jiannan, Liu, Guangyi, Gu, Yi, Gao, Qiyue, Ning, Yuting, Zha, Yuheng, Feng, Zeyu, Tao, Tianhua, Hao, Shibo, Shi, Yemin, Liu, Zhengzhong, Xing, Eric P., and Hu, Zhiting

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

World models simulate future states of the world in response to different actions. They facilitate interactive content creation and provides a foundation for grounded, long-horizon reasoning. Current foundation models do not fully meet the capabilities of general world models: large language models (LLMs) are constrained by their reliance on language modality and their limited understanding of the physical world, while video models lack interactive action control over the world simulations. This paper makes a step towards building a general world model by introducing Pandora, a hybrid autoregressive-diffusion model that simulates world states by generating videos and allows real-time control with free-text actions. Pandora achieves domain generality, video consistency, and controllability through large-scale pretraining and instruction tuning. Crucially, Pandora bypasses the cost of training-from-scratch by integrating a pretrained LLM (7B) and a pretrained video model, requiring only additional lightweight finetuning. We illustrate extensive outputs by Pandora across diverse domains (indoor/outdoor, natural/urban, human/robot, 2D/3D, etc.). The results indicate great potential of building stronger general world models with larger-scale training., Comment: Website: https://world-model.maitrix.org/

Published
2024

3. LTLDoG: Satisfying Temporally-Extended Symbolic Constraints for Safe Diffusion-based Planning

Author

Feng, Zeyu, Luan, Hao, Goyal, Pranav, and Soh, Harold

Subjects
Computer Science - Robotics, Computer Science - Machine Learning
Abstract

Operating effectively in complex environments while complying with specified constraints is crucial for the safe and successful deployment of robots that interact with and operate around people. In this work, we focus on generating long-horizon trajectories that adhere to novel static and temporally-extended constraints/instructions at test time. We propose a data-driven diffusion-based framework, LTLDoG, that modifies the inference steps of the reverse process given an instruction specified using finite linear temporal logic ($\text{LTL}_f$). LTLDoG leverages a satisfaction value function on $\text{LTL}_f$ and guides the sampling steps using its gradient field. This value function can also be trained to generalize to new instructions not observed during training, enabling flexible test-time adaptability. Experiments in robot navigation and manipulation illustrate that the method is able to generate trajectories that satisfy formulae that specify obstacle avoidance and visitation sequences. Code and supplementary material are available online at https://github.com/clear-nus/ltldog.

Published
2024
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4. Unified Generation, Reconstruction, and Representation: Generalized Diffusion with Adaptive Latent Encoding-Decoding

Author

Liu, Guangyi, Wang, Yu, Feng, Zeyu, Wu, Qiyu, Tang, Liping, Gao, Yuan, Li, Zhen, Cui, Shuguang, McAuley, Julian, Yang, Zichao, Xing, Eric P., and Hu, Zhiting

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

The vast applications of deep generative models are anchored in three core capabilities -- generating new instances, reconstructing inputs, and learning compact representations -- across various data types, such as discrete text/protein sequences and continuous images. Existing model families, like variational autoencoders (VAEs), generative adversarial networks (GANs), autoregressive models, and (latent) diffusion models, generally excel in specific capabilities and data types but fall short in others. We introduce Generalized Encoding-Decoding Diffusion Probabilistic Models (EDDPMs) which integrate the core capabilities for broad applicability and enhanced performance. EDDPMs generalize the Gaussian noising-denoising in standard diffusion by introducing parameterized encoding-decoding. Crucially, EDDPMs are compatible with the well-established diffusion model objective and training recipes, allowing effective learning of the encoder-decoder parameters jointly with diffusion. By choosing appropriate encoder/decoder (e.g., large language models), EDDPMs naturally apply to different data types. Extensive experiments on text, proteins, and images demonstrate the flexibility to handle diverse data and tasks and the strong improvement over various existing models., Comment: ICML 2024 camera-ready. Code is available at https://github.com/guangyliu/EDDPM

Published
2024

5. Synslator: An Interactive Machine Translation Tool with Online Learning

Author

Wang, Jiayi, Wang, Ke, Zhou, Fengming, Wang, Chengyu, Fu, Zhiyong, Feng, Zeyu, Zhao, Yu, and Zhang, Yuqi

Subjects
Computer Science - Computation and Language
Abstract

Interactive machine translation (IMT) has emerged as a progression of the computer-aided translation paradigm, where the machine translation system and the human translator collaborate to produce high-quality translations. This paper introduces Synslator, a user-friendly computer-aided translation (CAT) tool that not only supports IMT, but is adept at online learning with real-time translation memories. To accommodate various deployment environments for CAT services, Synslator integrates two different neural translation models to handle translation memories for online learning. Additionally, the system employs a language model to enhance the fluency of translations in an interactive mode. In evaluation, we have confirmed the effectiveness of online learning through the translation models, and have observed a 13% increase in post-editing efficiency with the interactive functionalities of Synslator. A tutorial video is available at:https://youtu.be/K0vRsb2lTt8.

Published
2023

7. Endotracheal tube forces exerted on the larynx and a novel support device to reduce it

Author

Vahabzadeh‐Hagh, Andrew M, Marsh‐Armstrong, Brennan P, Patel, Shiv H, Lindenmuth, Luke, Feng, Zeyu, Gong, Rufu, Lin, Yun‐An, Pierce, Taylor, and Loh, Kenneth J

Subjects
Biomedical and Clinical Sciences, Clinical Sciences, Bioengineering, airway stenosis-clinical, endotracheal tube, laryngeal injury, laryngeal trauma, laryngology, larynx, pressure injury, airway stenosis—clinical
Abstract

ObjectiveEndotracheal tubes (ETTs) are commonly associated with laryngeal injury that may be short lasting and temporary or more severe and life altering. Injury is believed to result from forces that these ETTs exert on the larynx. Here we quantify the forces of ETTs of various sizes on the laryngotracheal complex to gain a more quantitative understanding of these potential damaging forces. Here we also perform preclinical testing of a novel support device to offload these forces.MethodsEndotracheal intubation was performed on a fresh human cadaver using various ETT sizes. A strain-sensitive graphene nanosheet sensor and a commercially available force sensing resistor were secured behind the larynx, anterior to the prevertebral fascia. The forces exerted on the larynx were measured for each of the commonly used ETTs. A novel support device, ETT clip (Endo Clip), was attached to the ETTs and changes in these forces were observed.ResultsForces exerted on the laryngotracheal complex by various ETTs were observed to increase with increasing tube size. This pressure can be significantly reduced with a novel ETT clip.ConclusionHere we demonstrate the first quantitative measurement of forces that ETTs exert on the larynx. We demonstrate a novel device that can easily clip onto an ETT reducing pressure on the laryngotracheal complex. This preclinical test paves the way for a human clinical trial.Level of evidence5.

Published
2023

8. Safety-Constrained Policy Transfer with Successor Features

Author

Feng, Zeyu, Zhang, Bowen, Bi, Jianxin, and Soh, Harold

Subjects
Computer Science - Machine Learning
Abstract

In this work, we focus on the problem of safe policy transfer in reinforcement learning: we seek to leverage existing policies when learning a new task with specified constraints. This problem is important for safety-critical applications where interactions are costly and unconstrained policies can lead to undesirable or dangerous outcomes, e.g., with physical robots that interact with humans. We propose a Constrained Markov Decision Process (CMDP) formulation that simultaneously enables the transfer of policies and adherence to safety constraints. Our formulation cleanly separates task goals from safety considerations and permits the specification of a wide variety of constraints. Our approach relies on a novel extension of generalized policy improvement to constrained settings via a Lagrangian formulation. We devise a dual optimization algorithm that estimates the optimal dual variable of a target task, thus enabling safe transfer of policies derived from successor features learned on source tasks. Our experiments in simulated domains show that our approach is effective; it visits unsafe states less frequently and outperforms alternative state-of-the-art methods when taking safety constraints into account.

Published
2022

9. Composable Text Controls in Latent Space with ODEs

Author

Liu, Guangyi, Feng, Zeyu, Gao, Yuan, Yang, Zichao, Liang, Xiaodan, Bao, Junwei, He, Xiaodong, Cui, Shuguang, Li, Zhen, and Hu, Zhiting

Subjects
Computer Science - Computation and Language, Computer Science - Artificial Intelligence
Abstract

Real-world text applications often involve composing a wide range of text control operations, such as editing the text w.r.t. an attribute, manipulating keywords and structure, and generating new text of desired properties. Prior work typically learns/finetunes a language model (LM) to perform individual or specific subsets of operations. Recent research has studied combining operations in a plug-and-play manner, often with costly search or optimization in the complex sequence space. This paper proposes a new efficient approach for composable text operations in the compact latent space of text. The low-dimensionality and differentiability of the text latent vector allow us to develop an efficient sampler based on ordinary differential equations (ODEs) given arbitrary plug-in operators (e.g., attribute classifiers). By connecting pretrained LMs (e.g., GPT2) to the latent space through efficient adaption, we then decode the sampled vectors into desired text sequences. The flexible approach permits diverse control operators (sentiment, tense, formality, keywords, etc.) acquired using any relevant data from different domains. Experiments show that composing those operators within our approach manages to generate or edit high-quality text, substantially improving over previous methods in terms of generation quality and efficiency., Comment: EMNLP 2023 Camera Ready. Code available at: https://github.com/guangyliu/LatentOps

Published
2022

10. Psychomotor and visual skills underlying position specialization in 1352 elite youth baseball players

Author

Ho, Jessica, Liu, Sicong, Feng, Zeyu, and Appelbaum, Lawrence Gregory

Subjects
Prevention, Humans, Male, Adolescent, United States, Baseball, Athletic Performance, Athletes, Specialization, General Science & Technology
Abstract

Baseball is an international sport with participation from tens of thousands of people worldwide. In the United States, the Prospect Development Pipeline (PDP) is a collaborative effort between Major League Baseball and USA Baseball to establish a developmental pipeline leading to the professional draft. Players participating in the PDP undergo comprehensive evaluations that measure athletic performance, speed-of-processing, visual function, and on-field talent. The present study evaluated data from 1352 elite junior male PDP participants (aged 14 to 21) who signed informed consent, collected between 2017 and 2020, to identify latent abilities and their association with player specialization. Data were first subjected to Exploratory Factor Analysis (EFA) to reduce the 22 measured variables to a smaller set of latent abilities. The resulting factors were evaluated using multiple linear regression to predict each factor using age, height, weight, and position. EFA revealed a combination of physical and psychomotor skills accounting for 52% of the overall variance that grouped into four abilities: grip strength, functional vision, explosiveness, and rapid decision-making. Regression analyses demonstrated that these skills are associated with position assignments, controlling for age, weight, and height, and revealed that outfielders are the most explosive, infielders perform best on psychomotor measures, and catchers perform best on functional vision tests (ps < 0.001). These findings indicate skills that contribute to player specialization, providing new information about the developmental trajectory of junior elite baseball athletes that can be used for scouting and player development.

Published
2023

11. Effects of Identification and Pronunciation Training Methods on L2 Speech Perception and Production: Training Adult Japanese Speakers to Perceive and Produce English /r/-/l/

Author

Feng, Zeyu

Abstract

Adult Japanese speakers often experience difficulty learning English /r/-/l/. Previous research has reported the effectiveness of using perception-based high-variability identification training with natural speech stimuli on improving Japanese speakers' perception and production of /r/-/l/. Recent studies have also shown the effectiveness of using production-based multipronged pronunciation training with explicit instruction on articulatory movements and visualized spectrograms showing F3 frequencies of English /r/-/l/. The proposed study will compare the effects of identification training and pronunciation training on Japanese speakers' English /r/-/l/ learning, as well as the generalization of learning gains to novel phonetic environments. Further, the proposed study will contribute to speech perception and production research by exploring the relationship between perceptual learning and production learning.

Published
2020

16. Open-Set Hypothesis Transfer with Semantic Consistency

Author

Feng, Zeyu, Xu, Chang, and Tao, Dacheng

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

Unsupervised open-set domain adaptation (UODA) is a realistic problem where unlabeled target data contain unknown classes. Prior methods rely on the coexistence of both source and target domain data to perform domain alignment, which greatly limits their applications when source domain data are restricted due to privacy concerns. This paper addresses the challenging hypothesis transfer setting for UODA, where data from source domain are no longer available during adaptation on target domain. We introduce a method that focuses on the semantic consistency under transformation of target data, which is rarely appreciated by previous domain adaptation methods. Specifically, our model first discovers confident predictions and performs classification with pseudo-labels. Then we enforce the model to output consistent and definite predictions on semantically similar inputs. As a result, unlabeled data can be classified into discriminative classes coincided with either source classes or unknown classes. Experimental results show that our model outperforms state-of-the-art methods on UODA benchmarks.

Published
2020
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21. Establishing effective learning bridge cross multi-scale feature maps for object detection and semantic segmentation.

Author

Wang, Bo, Feng, Zeyu, Li, Jun, Sheng, Qinghong, Ling, Xiao, Liu, Xiang, and Wang, Haowen

Subjects
*SIMD (Computer architecture), *DETECTORS, *PYRAMIDS
Abstract

In the field of image object detection and semantic segmentation, improving the accuracy of object identification and segmentation is a primary goal. To achieve this, leveraging the potential of multi-scale information through feature map refinement and fusion has been widely recognized. However, existing feature fusion methods either design more complex feature pyramid networks, replace existing detectors, or incrementally introduce feature fusion modules, overlooking the effective approach of enhancing spatial information in deep feature maps. We propose a novel pluggable feature fusion paradigm termed ‘Effective Learning Bridge’. Our research introduces an efficient and adaptive learning mechanism that builds learning bridges between feature maps at different scales within the feature pyramid, thereby enhancing the spatial information of objects in deep feature maps. This mechanism is specifically designed for multi-scale feature maps and can be seamlessly integrated into any network incorporating feature maps. By altering the model’s backpropagation path, we successfully improve learning efficiency, which in turn enhances the accuracy of object detection and segmentation. Our proposed paradigm and method were extensively evaluated through experiments on SIMD, HRSID, and WHDLD datasets and benchmark models. The results unequivocally demonstrate the effectiveness of our approach in significantly improving the accuracy of object detection and semantic segmentation, as well as the overall learning efficiency of the model. [ABSTRACT FROM AUTHOR]

Published
2024
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22. Recent Applications of Sulfonium Salts in Synthesis and Catalysis.

Author

Timmann, Sven, Feng, Zeyu, and Alcarazo, Manuel

Abstract

The use of sulfonium salts in organic synthesis has experienced a dramatic increase during the last years that can arguably be attributed to three main factors; the development of more direct and efficient synthetic methods that make easily available sulfonium reagents of a wide structural variety, their intrinsic thermal stability, which facilitates their structural modification, handling and purification even on large scale, and the recognition that their reactivity resembles that of hypervalent iodine compounds and therefore, they can be used as replacement of such reagents for most of their uses. This renewed interest has led to the improvement of already existing reactions, as well as to the discovery of unprecedented transformations; in particular, by the implementation of photocatalytic protocols. This review aims to summarize the most recent advancements on the area focusing on the work published during and after 2020. The scope of the methods developed will be highlighted and their limitations critically evaluated. [ABSTRACT FROM AUTHOR]

Published
2024
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23. Semantics Expression of Peking Opera Painted Faces Based on Color Metrics

Author

Yang, Guancan, Gao, Shuang, Feng, Zeyu, Wang, Lingling, Xu, Yidan, Goos, Gerhard, Founding Editor, Hartmanis, Juris, Founding Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Woeginger, Gerhard, Editorial Board Member, Yung, Moti, Editorial Board Member, Toeppe, Katharina, editor, Yan, Hui, editor, and Chu, Samuel Kai Wah, editor

Published
2021
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42. Amplification and Dynamic Control of Circularly Polarized Luminescence in Poly (vinyl Alcohol)/CdSe@CdS Nanorod Assembly Twisted‐Stacking Hetero‐Structures.

Author

Wen, Li, Xie, Yifan, Yang, Peng, Zhang, Hongli, Li, Jiahe, Feng, Zeyu, and Zou, Gang

Subjects
NANORODS, LUMINESCENCE, INFORMATION technology, SMART devices, OPTOELECTRONIC devices
Abstract

Chiroptical materials with strong and switchable circularly polarized luminescence (CPL) properties have gained considerable interest due to their feasible applications in optoelectronic devices, sensing, and information encryption. However, in most cases, their luminescence dissymmetry factor (glum) and figure of merit (FOM) values remain very low. Herein, a novel heterogeneous twisted‐stacking structure is proposed, which endows with strong CPL amplification (a maximum of ≈15‐fold enhancement) over traditional homogeneous structures and a high FOM value up to 0.11. Interestingly, their CPL performance (including the sign, magnitude, and spectral position) and the FOM values can be precisely manipulated or even inversed by simply uniaxial stretching, since the phase retardation of the anisotropic poly (vinyl alcohol) layer can be controlled. Moreover, by combining with the viologen gel electrochromic system, the in situ voltage‐driven switching and patterning of the CPL signal can be successfully achieved, with low operation voltage and good cycling stability. This study provides a creative strategy for fabricating strong and electrical switchable CPL‐active materials, which promise new opportunities in miniaturized smart electrochiroptical devices for future information technology. [ABSTRACT FROM AUTHOR]

Published
2024
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45. Endotracheal tube forces exerted on the larynx and a novel support device to reduce it.

Author

Marsh-Armstrong, Brennan, Marsh-Armstrong, Brennan, Patel, Shiv, Lindenmuth, Luke, Feng, Zeyu, Gong, Rufu, Lin, Yun-An, Pierce, Taylor, Loh, Kenneth, Vahabzadeh-Hagh, Andrew, Marsh-Armstrong, Brennan, Marsh-Armstrong, Brennan, Patel, Shiv, Lindenmuth, Luke, Feng, Zeyu, Gong, Rufu, Lin, Yun-An, Pierce, Taylor, Loh, Kenneth, and Vahabzadeh-Hagh, Andrew

Abstract

OBJECTIVE: Endotracheal tubes (ETTs) are commonly associated with laryngeal injury that may be short lasting and temporary or more severe and life altering. Injury is believed to result from forces that these ETTs exert on the larynx. Here we quantify the forces of ETTs of various sizes on the laryngotracheal complex to gain a more quantitative understanding of these potential damaging forces. Here we also perform preclinical testing of a novel support device to offload these forces. METHODS: Endotracheal intubation was performed on a fresh human cadaver using various ETT sizes. A strain-sensitive graphene nanosheet sensor and a commercially available force sensing resistor were secured behind the larynx, anterior to the prevertebral fascia. The forces exerted on the larynx were measured for each of the commonly used ETTs. A novel support device, ETT clip (Endo Clip), was attached to the ETTs and changes in these forces were observed. RESULTS: Forces exerted on the laryngotracheal complex by various ETTs were observed to increase with increasing tube size. This pressure can be significantly reduced with a novel ETT clip. CONCLUSION: Here we demonstrate the first quantitative measurement of forces that ETTs exert on the larynx. We demonstrate a novel device that can easily clip onto an ETT reducing pressure on the laryngotracheal complex. This preclinical test paves the way for a human clinical trial. LEVEL OF EVIDENCE: 5.

Published
2023

46. Inverse design of chiral functional film by a robotic AI-Chemist

Author

Zou, Gang, primary, Xie, Yifan, additional, Feng, Shuo, additional, Deng, LinXiao, additional, Cai, Aoran, additional, Gan, Liyu, additional, Jiang, Zifan, additional, Yang, Peng, additional, Ye, Guilin, additional, Liu, Zaiqing, additional, Wen, Li, additional, Zhu, Qing, additional, Zhang, Wanjun, additional, Zhang, Zhanpeng, additional, Li, Jiahe, additional, Feng, Zeyu, additional, Zhang, Chutian, additional, Du, Wenjie, additional, Xu, Lixin, additional, Jiang, Jun, additional, and Chen, Xin, additional

Published
2023
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48. Composable Text Controls in Latent Space with ODEs

Author

Liu, Guangyi, primary, Feng, Zeyu, additional, Gao, Yuan, additional, Yang, Zichao, additional, Liang, Xiaodan, additional, Bao, Junwei, additional, He, Xiaodong, additional, Cui, Shuguang, additional, Li, Zhen, additional, and Hu, Zhiting, additional

Published
2023
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