生成模型增强的人体运动预测

Applied AI letters Pub Date : 2022-01-17 DOI:10.1002/ail2.63

Anthony Bourached, Ryan-Rhys Griffiths, Robert Gray, Ashwani Jha, Parashkev Nachev

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引用次数: 12

摘要

由于动作的自然异质性和组合性，预测人类运动的任务变得复杂，因此需要对分布变化的鲁棒性，直到分布外(OoD)。在这里，我们基于Human3.6M和卡内基梅隆大学(Carnegie Mellon University, CMU)的动作捕捉数据集制定了一个新的OoD基准，并引入了一个混合框架，通过生成模型增强区分性架构来增强OoD故障。当应用于当前最先进的判别模型时，我们表明所提出的方法在不牺牲分布内性能的情况下提高了OoD的鲁棒性，并且理论上可以促进模型的可解释性。我们建议在构建人体运动预测器时考虑到面向对象的挑战，并提供一个可扩展的通用框架，以强化多样化的判别体系结构以应对极端的分布转移。代码可从https://github.com/bouracha/OoDMotion获得。

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Generative model-enhanced human motion prediction

The task of predicting human motion is complicated by the natural heterogeneity and compositionality of actions, necessitating robustness to distributional shifts as far as out-of-distribution (OoD). Here, we formulate a new OoD benchmark based on the Human3.6M and Carnegie Mellon University (CMU) motion capture datasets, and introduce a hybrid framework for hardening discriminative architectures to OoD failure by augmenting them with a generative model. When applied to current state-of-the-art discriminative models, we show that the proposed approach improves OoD robustness without sacrificing in-distribution performance, and can theoretically facilitate model interpretability. We suggest human motion predictors ought to be constructed with OoD challenges in mind, and provide an extensible general framework for hardening diverse discriminative architectures to extreme distributional shift. The code is available at: https://github.com/bouracha/OoDMotion.

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Applied AI letters

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