类人角色的动态平衡和合理的轨迹规划

Proceedings of the 20th ACM SIGGRAPH Symposium on Interactive 3D Graphics and Games Pub Date : 2016-02-27 DOI:10.1145/2856400.2856405

Chonhyon Park, J. S. Park, S. Tonneau, N. Mansard, F. Multon, J. Pettré, Dinesh Manocha

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引用次数: 9

摘要

我们提出了一种交互式运动规划算法来计算高自由度类人角色的合理轨迹。给定一个离散的接触配置序列，我们使用三相优化方法来确保得到的轨迹是无碰撞的，光滑的，并满足动态平衡约束。我们的方法可以在交互帧率下直接计算动态平衡和自然的运动，并且比以前的方法快得多。我们强调了它在复杂的人体运动基准上的表现，如行走、攀爬、爬行和蹲伏，其中离散配置是从运动学规划器生成的或从运动捕获数据集中提取的。

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Dynamically balanced and plausible trajectory planning for human-like characters

We present an interactive motion planning algorithm to compute plausible trajectories for high-DOF human-like characters. Given a discrete sequence of contact configurations, we use a three-phase optimization approach to ensure that the resulting trajectory is collision-free, smooth, and satisfies dynamic balancing constraints. Our approach can directly compute dynamically balanced and natural-looking motions at interactive frame rates and is considerably faster than prior methods. We highlight its performance on complex human motion benchmarks corresponding to walking, climbing, crawling, and crouching, where the discrete configurations are generated from a kinematic planner or extracted from motion capture datasets.

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Proceedings of the 20th ACM SIGGRAPH Symposium on Interactive 3D Graphics and Games

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