Object Detection-Based Reinforcement Learning for Autonomous Point-to-Point Navigation

2022 World Automation Congress (WAC) Pub Date : 2022-10-11 DOI:10.23919/WAC55640.2022.9934448

Tyrell Lewis, Alexander Ibarra, M. Jamshidi

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引用次数: 1

Abstract

Autonomous navigation has been a fundamental area of research for real-world mobile robotic applications, having widespread utility across many industries from warehouse package delivery to residential cleaning services. Because of the complex nature of the robot’s environment, several challenges have prevented effectively implementing reinforcement learning-based algorithms trained in simulation. While difficulties can arise from the virtual environment lacking the sophistication to represent such a large and complex state space based on data-heavy sensor observations, the variance in MDP representations across related studies biases their fair comparison, performance, and repeatability. In this study, it is found that the design of the reward function used for training a vision-based mobile agent to perform collision-free point-goal navigation in simulation plays a significant role in overall performance. A novel approach is introduced where reward is also granted for successfully detecting a target object scaled according to prediction confidence. This strategy was found to significantly improve the point-goal navigation behavior compared to simpler reward function designs seen in similar related studies.

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基于目标检测的自主点对点导航强化学习

自主导航一直是现实世界移动机器人应用的一个基本研究领域，在从仓库包裹递送到住宅清洁服务的许多行业都有广泛的应用。由于机器人环境的复杂性，一些挑战阻碍了在模拟中训练的基于强化学习的算法的有效实施。尽管虚拟环境缺乏复杂性，无法基于大量数据的传感器观察来表示如此庞大而复杂的状态空间，但相关研究中MDP表示的差异会影响它们的公平比较、性能和可重复性。本研究发现，用于训练基于视觉的移动智能体在仿真中进行无碰撞点目标导航的奖励函数的设计对整体性能起着重要作用。提出了一种新的方法，根据预测置信度对成功检测到目标物体给予奖励。与类似相关研究中发现的更简单的奖励功能设计相比，该策略显著改善了点目标导航行为。

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2022 World Automation Congress (WAC)

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