Han Liang scite author profile

Han Liang

5Publications

16Citation Statements Received

155Citation Statements Given

How they've been cited

How they cite others

249

155

Affiliations

ShanghaiTech University

Publications

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ChallenCap: Monocular 3D Capture of Challenging Human Performances using Multi-Modal References

Pang

Chen

et al. 2021

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Capturing challenging human motions is critical for numerous applications, but it suffers from complex motion patterns and severe self-occlusion under the monocular setting. In this paper, we propose ChallenCap -a template-based approach to capture challenging 3D human motions using a single RGB camera in a novel learning-and-optimization framework, with the aid of multi-modal references. We propose a hybrid motion inference stage with a generation network, which utilizes a temporal encoder-decoder to extract the motion details from the pair-wise sparse-view reference, as well as a motion discriminator to utilize the unpaired marker-based references to extract specific challenging motion characteristics in a data-driven manner. We further adopt a robust motion optimization stage to increase the tracking accuracy, by jointly utilizing the learned motion details from the supervised multi-modal references as well as the reliable motion hints from the input image reference. Extensive experiments on our new challenging motion dataset demonstrate the effectiveness and robustness of our approach to capture challenging human motions.

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LiDAR-aid Inertial Poser: Large-scale Human Motion Capture by Sparse Inertial and LiDAR Sensors

Ren

Zhao

et al. 2023

IEEE Trans. Visual. Comput. Graphics

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ChallenCap: Monocular 3D Capture of Challenging Human Performances using Multi-Modal References

He¹,

Pang²,

Chen³

et al. 2021

Preprint

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HybridCap: Inertia-Aid Monocular Capture of Challenging Human Motions

Liang

et al. 2023

AAAI

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Monocular 3D motion capture (mocap) is beneficial to many applications. The use of a single camera, however, often fails to handle occlusions of different body parts and hence it is limited to capture relatively simple movements. We present a light-weight, hybrid mocap technique called HybridCap that augments the camera with only 4 Inertial Measurement Units (IMUs) in a novel learning-and-optimization framework. We first employ a weakly-supervised and hierarchical motion inference module based on cooperative pure residual recurrent blocks that serve as limb, body and root trackers as well as an inverse kinematics solver. Our network effectively narrows the search space of plausible motions via coarse-to-fine pose estimation and manages to tackle challenging movements with high efficiency. We further develop a hybrid optimization scheme that combines inertial feedback and visual cues to improve tracking accuracy. Extensive experiments on various datasets demonstrate HybridCap can robustly handle challenging movements ranging from fitness actions to Latin dance. It also achieves real-time performance up to 60 fps with state-of-the-art accuracy.

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Hierarchical Group Decision-Making Model for Robot Soccer Based on Finite-State Transition

Wang¹,

Ma²,

Chen³

et al. 2013

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-Aiming at the defect of centralized robot group control structure with large decision space dimension which causes heavy computation and communication burden, this page designs a hierarchical group decision-making model for robot soccer according to the multi-robot system hierarchical architecture and the finite-state of match states and robot roles. The mode significantly reduces MCU's computation burden and the communication burden, which can be used for the group-decision control in robot soccer match.

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Han Liang

ChallenCap: Monocular 3D Capture of Challenging Human Performances using Multi-Modal References

LiDAR-aid Inertial Poser: Large-scale Human Motion Capture by Sparse Inertial and LiDAR Sensors

ChallenCap: Monocular 3D Capture of Challenging Human Performances using Multi-Modal References

HybridCap: Inertia-Aid Monocular Capture of Challenging Human Motions

Hierarchical Group Decision-Making Model for Robot Soccer Based on Finite-State Transition

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