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23 results on '"Cui, Jieming"'

1. AnySkill: Learning Open-Vocabulary Physical Skill for Interactive Agents

Author

Cui, Jieming, Liu, Tengyu, Liu, Nian, Yang, Yaodong, Zhu, Yixin, and Huang, Siyuan

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

Traditional approaches in physics-based motion generation, centered around imitation learning and reward shaping, often struggle to adapt to new scenarios. To tackle this limitation, we propose AnySkill, a novel hierarchical method that learns physically plausible interactions following open-vocabulary instructions. Our approach begins by developing a set of atomic actions via a low-level controller trained via imitation learning. Upon receiving an open-vocabulary textual instruction, AnySkill employs a high-level policy that selects and integrates these atomic actions to maximize the CLIP similarity between the agent's rendered images and the text. An important feature of our method is the use of image-based rewards for the high-level policy, which allows the agent to learn interactions with objects without manual reward engineering. We demonstrate AnySkill's capability to generate realistic and natural motion sequences in response to unseen instructions of varying lengths, marking it the first method capable of open-vocabulary physical skill learning for interactive humanoid agents.

Published
2024

2. ProBio: A Protocol-guided Multimodal Dataset for Molecular Biology Lab

Author

Cui, Jieming, Gong, Ziren, Jia, Baoxiong, Huang, Siyuan, Zheng, Zilong, Ma, Jianzhu, and Zhu, Yixin

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

The challenge of replicating research results has posed a significant impediment to the field of molecular biology. The advent of modern intelligent systems has led to notable progress in various domains. Consequently, we embarked on an investigation of intelligent monitoring systems as a means of tackling the issue of the reproducibility crisis. Specifically, we first curate a comprehensive multimodal dataset, named ProBio, as an initial step towards this objective. This dataset comprises fine-grained hierarchical annotations intended for the purpose of studying activity understanding in BioLab. Next, we devise two challenging benchmarks, transparent solution tracking and multimodal action recognition, to emphasize the unique characteristics and difficulties associated with activity understanding in BioLab settings. Finally, we provide a thorough experimental evaluation of contemporary video understanding models and highlight their limitations in this specialized domain to identify potential avenues for future research. We hope ProBio with associated benchmarks may garner increased focus on modern AI techniques in the realm of molecular biology.

Published
2023

3. Full-Body Articulated Human-Object Interaction

Author

Jiang, Nan, Liu, Tengyu, Cao, Zhexuan, Cui, Jieming, zhang, Zhiyuan, Chen, Yixin, Wang, He, Zhu, Yixin, and Huang, Siyuan

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Fine-grained capturing of 3D HOI boosts human activity understanding and facilitates downstream visual tasks, including action recognition, holistic scene reconstruction, and human motion synthesis. Despite its significance, existing works mostly assume that humans interact with rigid objects using only a few body parts, limiting their scope. In this paper, we address the challenging problem of f-AHOI, wherein the whole human bodies interact with articulated objects, whose parts are connected by movable joints. We present CHAIRS, a large-scale motion-captured f-AHOI dataset, consisting of 16.2 hours of versatile interactions between 46 participants and 81 articulated and rigid sittable objects. CHAIRS provides 3D meshes of both humans and articulated objects during the entire interactive process, as well as realistic and physically plausible full-body interactions. We show the value of CHAIRS with object pose estimation. By learning the geometrical relationships in HOI, we devise the very first model that leverage human pose estimation to tackle the estimation of articulated object poses and shapes during whole-body interactions. Given an image and an estimated human pose, our model first reconstructs the pose and shape of the object, then optimizes the reconstruction according to a learned interaction prior. Under both evaluation settings (e.g., with or without the knowledge of objects' geometries/structures), our model significantly outperforms baselines. We hope CHAIRS will promote the community towards finer-grained interaction understanding. We will make the data/code publicly available.

Published
2022

20. InfraredPhotodissociation Spectroscopy of Mass-Selected Homoleptic CobaltCarbonyl Cluster Cations in the Gas Phase.

Author

Cui, Jieming, Zhou, Xiaojie, Wang, Guanjun, Chi, Chaoxian, Li, Zhen Hua, and Zhou, Mingfei

Subjects
*PHOTODISSOCIATION, *INFRARED spectroscopy, *HOMOLEPTIC compounds, *COBALT carbonyls, *CATIONS, *GAS phase reactions
Abstract

Infraredspectra of mass-selected homoleptic cobalt carbonyl cluster cationsincluding dinuclear Co2(CO)8+andCo2(CO)9+, trinuclear Co3(CO)10+and Co3(CO)11+, as well as tetranuclear Co4(CO)12+are measured via infrared photodissociation spectroscopyin the carbonyl stretching frequency region. The geometric structuresof these complexes are determined by comparison of the experimentalspectra with those calculated by density functional theory. The Co2(CO)8+cation is characterized to havea Co–Co bonded structure with Cssymmetry involving a bridging CO ligand. The Co2(CO)9+cation is determined to be a mixture of the CO-taggedCo2(CO)8+–CO complex and theCo(CO)5+–Co(CO)4ion–molecularcomplex. The Co3(CO)10+cation isthe coordination-saturated trinuclear cluster, which is characterizedto have a triangle Co3core with C2symmetry involving two edge-bridging and eight terminal COligands. The Co3(CO)11+cation isa weakly bound complex involving a Co3(CO)10+core ion. The Co4(CO)12+cluster cation is deduced to have a tetrahedral Co4+core structure with three edge-bridging and nine terminalcarbonyls. [ABSTRACT FROM AUTHOR]

Published
2014
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21. Infrared Photodissociation Spectroscopy of Mass SelectedHomoleptic Copper Carbonyl Cluster Cations in the Gas Phase.

Author

Cui, Jieming, Zhou, Xiaojie, Wang, Guanjun, Chi, Chaoxian, Liu, Zhipan, and Zhou, Mingfei

Subjects
*PHOTODISSOCIATION, *INFRARED photography, *HOMOLEPTIC compounds, *COPPER carbonyls, *CATIONS, *GAS phase reactions, *CARBONYL group
Abstract

Infrared spectra of mass-selectedhomoleptic copper carbonyl clustercations including dinuclear Cu2(CO)6+and Cu2(CO)7+, trinuclear Cu3(CO)7+, Cu3(CO)8+, and Cu3(CO)9+, andtetranuclear Cu4(CO)8+are measuredvia infrared photodissociation spectroscopy in the carbonyl stretchingfrequency region. The structures are established by comparison ofthe experimental spectra with simulated spectra derived from densityfunctional calculations. The Cu2(CO)6+cation is characterized to have an unbridged D3dstructure with a Cu–Cu half bond.The Cu2(CO)7+cation is determinedto be a weakly bound complex involving a Cu2(CO)6+core ion. The trinuclear Cu3(CO)7+and Cu3(CO)8+clustercations are determined to have triangle Cu3core structureswith C2symmetry involving two Cu(CO)3groups and one Cu(CO)xgroup(x= 1 or 2). In contrast, the trinuclear Cu3(CO)9+cluster cation is determinedto have an open chain-like (OC)3Cu–Cu(CO)3–Cu(CO)3structure. The tetranuclear Cu4(CO)8+cluster cation is characterized to havea tetrahedral Cu4+core structure with all carbonylgroups terminally bonded. [ABSTRACT FROM AUTHOR]

Published
2013
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22. Infrared PhotodissociationSpectroscopic and TheoreticalStudy of Homoleptic Dinuclear Chromium Carbonyl Cluster Cations witha Linear Bridging Carbonyl Group.

Author

Zhou, Xiaojie, Cui, Jieming, Li, Zhen Hua, Wang, Guanjun, and Zhou, Mingfei

Subjects
*PHOTODISSOCIATION, *CHROMIUM carbonyls, *CLUSTER analysis (Statistics), *CATIONS, *LINEAR systems, *CARBONYL group, *INFRARED spectra
Abstract

Infrared spectra of mass-selected homoleptic dinuclearchromiumcarbonyl cluster cations Cr2(CO)n+with n= 7–9 are measuredvia infrared photodissociation spectroscopy in the carbonyl stretchingfrequency region in the gas phase. The structures are establishedby comparison of the experimental spectra with the simulated spectraderived from density functional calculations. The Cr2(CO)n+cluster cations are characterizedto have the (OC)5Cr–C–O–Cr(CO)n−6+structures with a linearbridging carbonyl group bonded to one chromium atom through its carbonatom and to the other chromium atom through its oxygen atom. The clustercations all have a sextet ground state with the positive charge andthe unpaired electrons located on the Cr(CO)n−6moiety. The formation of the linear bridging structureswithout Cr–Cr bonding can be rationalized that chromium formsstrong Cr–CO bonds but weak Cr–Cr bonds. [ABSTRACT FROM AUTHOR]

Published
2012
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