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1. OmniManip: Towards General Robotic Manipulation via Object-Centric Interaction Primitives as Spatial Constraints

Author

Pan, Mingjie, Zhang, Jiyao, Wu, Tianshu, Zhao, Yinghao, Gao, Wenlong, and Dong, Hao

Subjects
Computer Science - Robotics
Abstract

The development of general robotic systems capable of manipulating in unstructured environments is a significant challenge. While Vision-Language Models(VLM) excel in high-level commonsense reasoning, they lack the fine-grained 3D spatial understanding required for precise manipulation tasks. Fine-tuning VLM on robotic datasets to create Vision-Language-Action Models(VLA) is a potential solution, but it is hindered by high data collection costs and generalization issues. To address these challenges, we propose a novel object-centric representation that bridges the gap between VLM's high-level reasoning and the low-level precision required for manipulation. Our key insight is that an object's canonical space, defined by its functional affordances, provides a structured and semantically meaningful way to describe interaction primitives, such as points and directions. These primitives act as a bridge, translating VLM's commonsense reasoning into actionable 3D spatial constraints. In this context, we introduce a dual closed-loop, open-vocabulary robotic manipulation system: one loop for high-level planning through primitive resampling, interaction rendering and VLM checking, and another for low-level execution via 6D pose tracking. This design ensures robust, real-time control without requiring VLM fine-tuning. Extensive experiments demonstrate strong zero-shot generalization across diverse robotic manipulation tasks, highlighting the potential of this approach for automating large-scale simulation data generation.

Published
2025

2. Machine Learning Approach for Estimating Magnetic Field Strength in Galaxy Clusters from Synchrotron Emission

Author

Zhang, Jiyao, Hu, Yue, and Lazarian, A.

Subjects
Astrophysics - Astrophysics of Galaxies
Abstract

Magnetic fields play a crucial role in various astrophysical processes within the intracluster medium, including heat conduction, cosmic ray acceleration, and the generation of synchrotron radiation. However, measuring magnetic field strength is typically challenging due to the limited availability of Faraday Rotation Measure sources. To address the challenge, we propose a novel method that employs Convolutional Neural Networks (CNNs) alongside synchrotron emission observations to estimate magnetic field strengths in galaxy clusters. Our CNN model is trained on either Magnetohydrodynamic (MHD) turbulence simulations or MHD galaxy cluster simulations, which incorporate complex dynamics such as cluster mergers and sloshing motions. The results demonstrate that CNNs can effectively estimate magnetic field strengths with median uncertainties of approximately $0.22\mu$G, $0.01\mu$G, and $0.1\mu$G for $\beta = 100$, 200, and 500 conditions, respectively. Additionally, we have confirmed that our CNN model remains robust against noise and variations in viewing angles with sufficient training, ensuring reliable performance under a wide range of observational conditions. We compare the CNN approach with the traditional magnetic field strength estimates method that assumes equipartition between cosmic ray electron energy and magnetic field energy. Unlike the equipartition method, this CNN approach does not rely on the equipartition assumption, offering a new perspective for comparing traditional estimates and enhancing our understanding of cosmic ray acceleration mechanisms., Comment: 13 pages, 9 figures, submitted to ApJ

Published
2024

3. Canonical Representation and Force-Based Pretraining of 3D Tactile for Dexterous Visuo-Tactile Policy Learning

Author

Wu, Tianhao, Li, Jinzhou, Zhang, Jiyao, Wu, Mingdong, and Dong, Hao

Subjects
Computer Science - Robotics
Abstract

Tactile sensing plays a vital role in enabling robots to perform fine-grained, contact-rich tasks. However, the high dimensionality of tactile data, due to the large coverage on dexterous hands, poses significant challenges for effective tactile feature learning, especially for 3D tactile data, as there are no large standardized datasets and no strong pretrained backbones. To address these challenges, we propose a novel canonical representation that reduces the difficulty of 3D tactile feature learning and further introduces a force-based self-supervised pretraining task to capture both local and net force features, which are crucial for dexterous manipulation. Our method achieves an average success rate of 78% across four fine-grained, contact-rich dexterous manipulation tasks in real-world experiments, demonstrating effectiveness and robustness compared to other methods. Further analysis shows that our method fully utilizes both spatial and force information from 3D tactile data to accomplish the tasks. The videos can be viewed at https://3dtacdex.github.io.

Published
2024

4. Human-centered In-building Embodied Delivery Benchmark

Author

Xu, Zhuoqun, Liu, Yang, Li, Xiaoqi, Zhang, Jiyao, and Dong, Hao

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

Recently, the concept of embodied intelligence has been widely accepted and popularized, leading people to naturally consider the potential for commercialization in this field. In this work, we propose a specific commercial scenario simulation, human-centered in-building embodied delivery. Furthermore, for this scenario, we have developed a brand-new virtual environment system from scratch, constructing a multi-level connected building space modeled after a polar research station. This environment also includes autonomous human characters and robots with grasping and mobility capabilities, as well as a large number of interactive items. Based on this environment, we have built a delivery dataset containing 13k language instructions to guide robots in providing services. We simulate human behavior through human characters and sample their various needs in daily life. Finally, we proposed a method centered around a large multimodal model to serve as the baseline system for this dataset. Compared to past embodied data work, our work focuses on a virtual environment centered around human-robot interaction for commercial scenarios. We believe this will bring new perspectives and exploration angles to the embodied community.

Published
2024

5. Omni6DPose: A Benchmark and Model for Universal 6D Object Pose Estimation and Tracking

Author

Zhang, Jiyao, Huang, Weiyao, Peng, Bo, Wu, Mingdong, Hu, Fei, Chen, Zijian, Zhao, Bo, and Dong, Hao

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

6D Object Pose Estimation is a crucial yet challenging task in computer vision, suffering from a significant lack of large-scale datasets. This scarcity impedes comprehensive evaluation of model performance, limiting research advancements. Furthermore, the restricted number of available instances or categories curtails its applications. To address these issues, this paper introduces Omni6DPose, a substantial dataset characterized by its diversity in object categories, large scale, and variety in object materials. Omni6DPose is divided into three main components: ROPE (Real 6D Object Pose Estimation Dataset), which includes 332K images annotated with over 1.5M annotations across 581 instances in 149 categories; SOPE(Simulated 6D Object Pose Estimation Dataset), consisting of 475K images created in a mixed reality setting with depth simulation, annotated with over 5M annotations across 4162 instances in the same 149 categories; and the manually aligned real scanned objects used in both ROPE and SOPE. Omni6DPose is inherently challenging due to the substantial variations and ambiguities. To address this challenge, we introduce GenPose++, an enhanced version of the SOTA category-level pose estimation framework, incorporating two pivotal improvements: Semantic-aware feature extraction and Clustering-based aggregation. Moreover, we provide a comprehensive benchmarking analysis to evaluate the performance of previous methods on this large-scale dataset in the realms of 6D object pose estimation and pose tracking.

Published
2024

7. RoboKeyGen: Robot Pose and Joint Angles Estimation via Diffusion-based 3D Keypoint Generation

Author

Tian, Yang, Zhang, Jiyao, Huang, Guowei, Wang, Bin, Wang, Ping, Pang, Jiangmiao, and Dong, Hao

Subjects
Computer Science - Robotics
Abstract

Estimating robot pose and joint angles is significant in advanced robotics, enabling applications like robot collaboration and online hand-eye calibration.However, the introduction of unknown joint angles makes prediction more complex than simple robot pose estimation, due to its higher dimensionality.Previous methods either regress 3D keypoints directly or utilise a render&compare strategy. These approaches often falter in terms of performance or efficiency and grapple with the cross-camera gap problem.This paper presents a novel framework that bifurcates the high-dimensional prediction task into two manageable subtasks: 2D keypoints detection and lifting 2D keypoints to 3D. This separation promises enhanced performance without sacrificing the efficiency innate to keypoint-based techniques.A vital component of our method is the lifting of 2D keypoints to 3D keypoints. Common deterministic regression methods may falter when faced with uncertainties from 2D detection errors or self-occlusions.Leveraging the robust modeling potential of diffusion models, we reframe this issue as a conditional 3D keypoints generation task. To bolster cross-camera adaptability, we introduce theNormalised Camera Coordinate Space (NCCS), ensuring alignment of estimated 2D keypoints across varying camera intrinsics.Experimental results demonstrate that the proposed method outperforms the state-of-the-art render\&compare method and achieves higher inference speed.Furthermore, the tests accentuate our method's robust cross-camera generalisation capabilities.We intend to release both the dataset and code in https://nimolty.github.io/Robokeygen/, Comment: Accepted by ICRA 2024

Published
2024

8. Beyond Numbers: Creating Analogies to Enhance Data Comprehension and Communication with Generative AI

Author

Chen, Qing, Shuai, Wei, Zhang, Jiyao, Sun, Zhida, and Cao, Nan

Subjects
Computer Science - Human-Computer Interaction
Abstract

Unfamiliar measurements usually hinder readers from grasping the scale of the numerical data, understanding the content, and feeling engaged with the context. To enhance data comprehension and communication, we leverage analogies to bridge the gap between abstract data and familiar measurements. In this work, we first conduct semi-structured interviews with design experts to identify design problems and summarize design considerations. Then, we collect an analogy dataset of 138 cases from various online sources. Based on the collected dataset, we characterize a design space for creating data analogies. Next, we build a prototype system, AnalogyMate, that automatically suggests data analogies, their corresponding design solutions, and generated visual representations powered by generative AI. The study results show the usefulness of AnalogyMate in aiding the creation process of data analogies and the effectiveness of data analogy in enhancing data comprehension and communication.

Published
2024

9. LVDiffusor: Distilling Functional Rearrangement Priors from Large Models into Diffusor

Author

Zeng, Yiming, Wu, Mingdong, Yang, Long, Zhang, Jiyao, Ding, Hao, Cheng, Hui, and Dong, Hao

Subjects
Computer Science - Robotics
Abstract

Object rearrangement, a fundamental challenge in robotics, demands versatile strategies to handle diverse objects, configurations, and functional needs. To achieve this, the AI robot needs to learn functional rearrangement priors in order to specify precise goals that meet the functional requirements. Previous methods typically learn such priors from either laborious human annotations or manually designed heuristics, which limits scalability and generalization. In this work, we propose a novel approach that leverages large models to distill functional rearrangement priors. Specifically, our approach collects diverse arrangement examples using both LLMs and VLMs and then distills the examples into a diffusion model. During test time, the learned diffusion model is conditioned on the initial configuration and guides the positioning of objects to meet functional requirements. In this manner, we create a handshaking point that combines the strengths of conditional generative models and large models. Extensive experiments on multiple domains, including real-world scenarios, demonstrate the effectiveness of our approach in generating compatible goals for object rearrangement tasks, significantly outperforming baseline methods.

Published
2023

10. RGBGrasp: Image-based Object Grasping by Capturing Multiple Views during Robot Arm Movement with Neural Radiance Fields

Author

Liu, Chang, Shi, Kejian, Zhou, Kaichen, Wang, Haoxiao, Zhang, Jiyao, and Dong, Hao

Subjects
Computer Science - Robotics
Abstract

Robotic research encounters a significant hurdle when it comes to the intricate task of grasping objects that come in various shapes, materials, and textures. Unlike many prior investigations that heavily leaned on specialized point-cloud cameras or abundant RGB visual data to gather 3D insights for object-grasping missions, this paper introduces a pioneering approach called RGBGrasp. This method depends on a limited set of RGB views to perceive the 3D surroundings containing transparent and specular objects and achieve accurate grasping. Our method utilizes pre-trained depth prediction models to establish geometry constraints, enabling precise 3D structure estimation, even under limited view conditions. Finally, we integrate hash encoding and a proposal sampler strategy to significantly accelerate the 3D reconstruction process. These innovations significantly enhance the adaptability and effectiveness of our algorithm in real-world scenarios. Through comprehensive experimental validations, we demonstrate that RGBGrasp achieves remarkable success across a wide spectrum of object-grasping scenarios, establishing it as a promising solution for real-world robotic manipulation tasks. The demonstrations of our method can be found on: https://sites.google.com/view/rgbgrasp

Published
2023

12. GraspGF: Learning Score-based Grasping Primitive for Human-assisting Dexterous Grasping

Author

Wu, Tianhao, Wu, Mingdong, Zhang, Jiyao, Gan, Yunchong, and Dong, Hao

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

The use of anthropomorphic robotic hands for assisting individuals in situations where human hands may be unavailable or unsuitable has gained significant importance. In this paper, we propose a novel task called human-assisting dexterous grasping that aims to train a policy for controlling a robotic hand's fingers to assist users in grasping objects. Unlike conventional dexterous grasping, this task presents a more complex challenge as the policy needs to adapt to diverse user intentions, in addition to the object's geometry. We address this challenge by proposing an approach consisting of two sub-modules: a hand-object-conditional grasping primitive called Grasping Gradient Field~(GraspGF), and a history-conditional residual policy. GraspGF learns `how' to grasp by estimating the gradient from a success grasping example set, while the residual policy determines `when' and at what speed the grasping action should be executed based on the trajectory history. Experimental results demonstrate the superiority of our proposed method compared to baselines, highlighting the user-awareness and practicality in real-world applications. The codes and demonstrations can be viewed at "https://sites.google.com/view/graspgf".

Published
2023

14. GenPose: Generative Category-level Object Pose Estimation via Diffusion Models

Author

Zhang, Jiyao, Wu, Mingdong, and Dong, Hao

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Object pose estimation plays a vital role in embodied AI and computer vision, enabling intelligent agents to comprehend and interact with their surroundings. Despite the practicality of category-level pose estimation, current approaches encounter challenges with partially observed point clouds, known as the multihypothesis issue. In this study, we propose a novel solution by reframing categorylevel object pose estimation as conditional generative modeling, departing from traditional point-to-point regression. Leveraging score-based diffusion models, we estimate object poses by sampling candidates from the diffusion model and aggregating them through a two-step process: filtering out outliers via likelihood estimation and subsequently mean-pooling the remaining candidates. To avoid the costly integration process when estimating the likelihood, we introduce an alternative method that trains an energy-based model from the original score-based model, enabling end-to-end likelihood estimation. Our approach achieves state-of-the-art performance on the REAL275 dataset, surpassing 50% and 60% on strict 5d2cm and 5d5cm metrics, respectively. Furthermore, our method demonstrates strong generalizability to novel categories sharing similar symmetric properties without fine-tuning and can readily adapt to object pose tracking tasks, yielding comparable results to the current state-of-the-art baselines.

Published
2023

16. Domain Randomization-Enhanced Depth Simulation and Restoration for Perceiving and Grasping Specular and Transparent Objects

Author

Dai, Qiyu, Zhang, Jiyao, Li, Qiwei, Wu, Tianhao, Dong, Hao, Liu, Ziyuan, Tan, Ping, and Wang, He

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Commercial depth sensors usually generate noisy and missing depths, especially on specular and transparent objects, which poses critical issues to downstream depth or point cloud-based tasks. To mitigate this problem, we propose a powerful RGBD fusion network, SwinDRNet, for depth restoration. We further propose Domain Randomization-Enhanced Depth Simulation (DREDS) approach to simulate an active stereo depth system using physically based rendering and generate a large-scale synthetic dataset that contains 130K photorealistic RGB images along with their simulated depths carrying realistic sensor noises. To evaluate depth restoration methods, we also curate a real-world dataset, namely STD, that captures 30 cluttered scenes composed of 50 objects with different materials from specular, transparent, to diffuse. Experiments demonstrate that the proposed DREDS dataset bridges the sim-to-real domain gap such that, trained on DREDS, our SwinDRNet can seamlessly generalize to other real depth datasets, e.g. ClearGrasp, and outperform the competing methods on depth restoration with a real-time speed. We further show that our depth restoration effectively boosts the performance of downstream tasks, including category-level pose estimation and grasping tasks. Our data and code are available at https://github.com/PKU-EPIC/DREDS, Comment: ECCV 2022

Published
2022

20. Homogenizing out-of-plane cation composition in perovskite solar cells

Author

Liang, Zheng, Zhang, Yong, Xu, Huifen, Chen, Wenjing, Liu, Boyuan, Zhang, Jiyao, Zhang, Hui, Wang, Zihan, Kang, Dong-Ho, Zeng, Jianrong, Gao, Xingyu, Wang, Qisheng, Hu, Huijie, Zhou, Hongmin, Cai, Xiangbin, Tian, Xingyou, Reiss, Peter, Xu, Baomin, Kirchartz, Thomas, Xiao, Zhengguo, Dai, Songyuan, Park, Nam-Gyu, Ye, Jiajiu, and Pan, Xu

Published
2023
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43. Photoredox- and Cobalt-Cocatalyzed Dehydrogenative Ring-Opening/Functionalization of Monodonor Cyclopropanes.

Author

Zhang, Jiyao, Huang, Haohao, and Zuo, Zhijun

Subjects
*DERACEMIZATION, *PHARMACEUTICAL chemistry, *ORGANIC synthesis, *FUNCTIONAL groups, *NUCLEOPHILES
Abstract

Catalytic ring-opening/functionalization of unactive cyclopropanes has proven to be a significant but challenging task in organic synthesis. Herein, we disclose the photoredox and cobalt cocatalyzed ring-opening/acceptorless dehydrogenative functionalization of monodonor cyclopropanes, which provides a promising platform to achieve a sustainable and atom-economic approach to assemble allylic N -acyl-acetal derivatives. The reaction features mild conditions, broad substrate scopes, and excellent functional group compatibilities. The optimized conditions accommodate various cycloalkylamides and primary, secondary, and tertiary alcohols, with applications in late-stage functionalization of pharmaceutically relevant compounds, stimulating the further utility in medicinal chemistry. Selective nucleophilic substitutions and further transformations of desired products with various carbon nucleophiles were succeed in a one-pot fashion, thus offering diverse acyclic or cyclic derivatives. 1 Introduction 2 Cooperative Photoredox and Cobalt-Catalyzed Dehydrogenative Functionalization of Allylic N -Acyl-acetal Derivatives 3 Mechanistic Study 4 Preliminary Studies of Asymmetric Transformation 5 Conclusion and Perspectives [ABSTRACT FROM AUTHOR]

Published
2025
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47. Optimal Subspace Analysis Based on Information-Entropy Increment

Author

Zhang, Zhongping, Liu, Iiaojiao, Zhang, Yuting, Zhang, Jiyao, Tian, Mingru, Filipe, Joaquim, Editorial Board Member, Ghosh, Ashish, Editorial Board Member, Prates, Raquel Oliveira, Editorial Board Member, Zhou, Lizhu, Editorial Board Member, Mei, Hong, editor, Zhang, Weiguo, editor, Fan, Wenfei, editor, Zhang, Zili, editor, Huang, Yihua, editor, Bu, Jiajun, editor, Gao, Yang, editor, and Wang, Li, editor

Published
2021
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48. Effects of Electroacupuncture Preconditioning at Baihui and Zusanli Acupoints on the Expression of Inflammatory Factors in Brain and Intestines of Rats with Cerebral Ischemia/Reperfusion

Author

ZHANG Jiyao, TANG Qiang, and ZHU Luwen

Subjects
cerebral ischemia reperfusion injury, electroacupuncture preconditioning, Baihui (DU20), Zusanli (ST36), interleukin-17A, interleukin-10, Medicine
Abstract

ObjectiveTo observe the effects of electroacupuncture preconditioning on the expression of interleukin-17A(IL-17A)and IL-10 in the brain and intestine of rats with cerebral ischemia/reperfusion and to explore the brain-gut protective effect of electroacupuncture preconditioning.MethodsA total of 36 male Sprague-Dawley rats were randomly divided into the sham group (S-con group), the model group (M-con group), and the electroacupuncture preconditioning group (EP group) ,with 12 cases in each group. The S-con group was operated according to the model of middle cerebral artery occlusion/reperfusion (MCAO/R) with no blocking of the cerebral blood flow and reperfusion. The M-con group was given the operation of MCAO/R model and the cerebral blood perfusion was restored after 120 minutes. The EP group was intervened by electroacupuncture preconditioning at Baihui (DU20) and Zusanli (ST36) acupoints for two weeks, and was given the operation of MCAO/R model after the last electroacupuncture intervention for 24 hours, the cerebral blood perfusion was restored after 120 minutes. Before surgery for one day, after reperfusion for 12 h and after reperfusion for 1,3,7 days, the grip tester was used to measure the forelimb grasping strength; after reperfusion for 7 days, ELISA methods was used to determine the content of IL-17A and IL-10 in serum, Western blot method was used to detect the expression of IL-17A and IL-10 protein in ischemic cortex and colon tissue, immunohistochemistry method was used to calculate the average optical density (AOD) value of IL-17A and IL-10 in ischemic cortex and colon tissue, and HE staining method was used to observe the pathological change of ischemic cortex.Results① Forelimb grasping strength: compared with the S-con group, the forelimb grasping strength of rats in the M-con group after reperfusion for 12 h, 1 d, 3 d, 7 d was decreased significantly (PPPPPPPPPPPP

Published
2021
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49. Photoinduced Cross-Coupling of Trifluoromethylarenes with Heteroarenes via Unactivated C(sp3)–F and C(sp2)–H Selective Cleavage

Author

Zhang, Jiyao, Zhang, Yuxiang, Qian, Lebin, and Zuo, Zhijun

Abstract

The installation of gem-difluoromethylene groups into two adjacent aryl groups is a formidable synthetic challenge despite their attractive structural, physical, and biochemical properties. Herein, we disclose a photoredox-catalyzed selective defluoroarylation of heteroarenes through inert C(sp3)–F and C(sp2)–H selective cleavage, which provides a straightforward route to access medicinally relevant aryl–heteroaryl or heteroaryl–heteroaryl difluoromethane scaffolds. Salient features of this reaction include readily accessible starting materials, metal-free conditions, and broad substrate scope.

Published
2025
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