基于位置动力学的多智能体三维仿真的平面局部行为

2020 IEEE International Conference on Artificial Intelligence and Virtual Reality (AIVR) Pub Date : 2020-12-01 DOI:10.1109/AIVR50618.2020.00044

R. Sharma, Tomer Weiss, Marcelo Kallmann

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引用次数: 3

摘要

基于位置的动力学(PBD)为平面场景中人群和多智能体的避碰行为建模提供了一个灵活的框架。在这项工作中，我们建议扩展该方法，使避碰反应可以在决定如何避免与其他代理碰撞时，以受控的方式利用每个代理周围的体积三维空间。我们建议使用分离平面来避免碰撞，使用首选或自动确定的平面。我们的结果证明了通过根据分离平面约束产生的运动来控制模拟代理的空间三维行为的能力。该方法具有通用性，可与不同的人群仿真技术相结合。我们还将我们的结果与基于互反速度障碍(RVOs)的三维避碰方法进行了比较。

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Plane-Based Local Behaviors for Multi-Agent 3D Simulations with Position-Based Dynamics

Position-Based Dynamics (PBD) has been shown to provide a flexible framework for modeling per-agent collision avoidance behavior for crowd and multi-agent simulations in planar scenarios. In this work, we propose to extend the approach such that collision avoidance reactions can utilize in a controlled way the volumetric 3D space around each agent when deciding how to avoid collisions with other agents. We propose to use separation planes for collision avoidance, using either preferred or automatically determined planes. Our results demonstrate the ability to control the spatial 3D behavior of simulated agents by constraining the produced movements according to the separation planes. Our method is generic and can be integrated with different crowd simulation techniques. We also compare our results with a 3D collision avoidance method based on Reciprocal Velocity Obstacles (RVOs).

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来源期刊

2020 IEEE International Conference on Artificial Intelligence and Virtual Reality (AIVR)

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