任务识别和未来人类活动预测的贝叶斯方法

The 23rd IEEE International Symposium on Robot and Human Interactive Communication Pub Date : 2014-10-20 DOI:10.1109/ROMAN.2014.6926339

Vito Magnanimo, Matteo Saveriano, Silvia Rossi, Dongheui Lee

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引用次数: 34

摘要

任务识别和未来人类活动预测是实现安全、有益的人机合作的重要手段。在真实场景中，机器人必须提取这些信息，将任务知识与传感器的上下文信息相结合，最大限度地减少可能的误解。在本文中，我们关注的是可以表示为一系列被操作对象和执行动作的任务。该任务使用动态贝叶斯网络(DBN)建模，DBN将被操纵的对象和执行的操作作为输入。对象和操作分别从RGB-D原始数据开始分类。DBN负责估计当前任务，预测未来最可能的动作-对象对，并纠正可能的错误分类。提出的方法的有效性在一个案例研究中得到验证，该案例研究由厨房场景的三个典型任务组成。

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A Bayesian approach for task recognition and future human activity prediction

Task recognition and future human activity prediction are of importance for a safe and profitable human-robot cooperation. In real scenarios, the robot has to extract this information merging the knowledge of the task with contextual information from the sensors, minimizing possible misunderstandings. In this paper, we focus on tasks that can be represented as a sequence of manipulated objects and performed actions. The task is modelled with a Dynamic Bayesian Network (DBN), which takes as input manipulated objects and performed actions. Objects and actions are separately classified starting from RGB-D raw data. The DBN is responsible for estimating the current task, predicting the most probable future pairs of action-object and correcting possible misclassification. The effectiveness of the proposed approach is validated on a case of study, consisting of three typical tasks of a kitchen scenario.

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The 23rd IEEE International Symposium on Robot and Human Interactive Communication

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