使用智能算法进行自主移动机器人的路径规划

Jorge Galarza-Falfan, E. E. García-Guerrero, O. A. Aguirre-Castro, O. López-Bonilla, Ulises Jesús Tamayo-Pérez, José Ricardo Cárdenas-Valdez, C. Hernández-Mejía, Susana Borrego-Dominguez, Everardo Inzunza-González
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摘要

机器学习技术正被更快地集成到机器人系统中,以提高其在动态环境中的效能和适应性。本研究的主要目标是提出一种开发自主移动机器人(AMR)的方法,该方法在深度学习(DL)的基础上集成了同步定位和绘图(SLAM)、里程测量和人工视觉。所有功能都在高性能 Jetson Nano 嵌入式系统上执行,特别强调基于 SLAM 的避障和使用自适应蒙特卡罗定位(AMCL)算法的路径规划。我们选择了两个卷积神经网络(CNN),因为它们在图像和模式识别任务中的有效性已得到证实。ResNet18 和 YOLOv3 算法可促进场景感知,使机器人能够有效地解释其所处环境。这两种算法都用于实时物体检测、识别机器人环境中的物体并对其进行分类。选择这些算法是为了评估其性能指标,这对实时应用至关重要。对所提出的 DL 模型进行的比较分析侧重于增强自主移动机器人的视觉系统。为了评估这些模型在导航复杂环境时的性能和适应性,我们进行了多次模拟和实际试验。使用 CNN ResNet18 的视觉系统平均准确率达到 98.5%,精确率达到 96.91%,召回率达到 97%,F1 分数达到 98.5%。然而,YOLOv3 模型的平均准确率为 96%,精确率为 96.2%,召回率为 96%,F1 分数为 95.99%。这些结果凸显了所提出的智能算法、强大的嵌入式硬件和传感器在机器人应用中的有效性。这项研究证明,先进的 DL 算法在机器人中运行良好,可用于运输和装配等多个领域。因此,智能系统可以更广泛地应用于 AMR 的操作和开发。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Path Planning for Autonomous Mobile Robot Using Intelligent Algorithms
Machine learning technologies are being integrated into robotic systems faster to enhance their efficacy and adaptability in dynamic environments. The primary goal of this research was to propose a method to develop an Autonomous Mobile Robot (AMR) that integrates Simultaneous Localization and Mapping (SLAM), odometry, and artificial vision based on deep learning (DL). All are executed on a high-performance Jetson Nano embedded system, specifically emphasizing SLAM-based obstacle avoidance and path planning using the Adaptive Monte Carlo Localization (AMCL) algorithm. Two Convolutional Neural Networks (CNNs) were selected due to their proven effectiveness in image and pattern recognition tasks. The ResNet18 and YOLOv3 algorithms facilitate scene perception, enabling the robot to interpret its environment effectively. Both algorithms were implemented for real-time object detection, identifying and classifying objects within the robot’s environment. These algorithms were selected to evaluate their performance metrics, which are critical for real-time applications. A comparative analysis of the proposed DL models focused on enhancing vision systems for autonomous mobile robots. Several simulations and real-world trials were conducted to evaluate the performance and adaptability of these models in navigating complex environments. The proposed vision system with CNN ResNet18 achieved an average accuracy of 98.5%, a precision of 96.91%, a recall of 97%, and an F1-score of 98.5%. However, the YOLOv3 model achieved an average accuracy of 96%, a precision of 96.2%, a recall of 96%, and an F1-score of 95.99%. These results underscore the effectiveness of the proposed intelligent algorithms, robust embedded hardware, and sensors in robotic applications. This study proves that advanced DL algorithms work well in robots and could be used in many fields, such as transportation and assembly. As a consequence of the findings, intelligent systems could be implemented more widely in the operation and development of AMRs.
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