四轴飞行器室内自主导航的分层结构学习

Vishakh Duggal, K. Bipin, Utsav Shah, K. Krishna
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引用次数: 3

摘要

普通单目四轴飞行器在室内环境中的自主导航需要复杂的感知、规划和控制方法。本文提出了一种微型四轴飞行器前置单目摄像头自主导航探索未知室内环境的系统。最初,系统使用我们提出的新颖的监督分层结构学习(hsl)技术从单个视频帧估计环境的密集深度图,该技术产生了高精度水平和更好的泛化。提出的hsl方法将整个深度范围离散为多个集。它通过将类集划分为两个子集,其中子集表示父集的分配深度范围,从而分层递归地构建这些集,形成二叉树。利用支持向量机(svm)对二叉树的每个内部节点分别进行二叉分类。而自顶向下方法对图像的每个像素的深度估计从根节点开始,重复分类,直到到达代表其估计深度的任何叶节点。生成的深度图作为卷积神经网络(cnn)的输入提供,卷积神经网络生成飞行计划命令。最后,轨迹规划和控制模块采用凸规划技术生成无碰撞最小时间轨迹,该轨迹遵循这些飞行规划命令并为四轴飞行器产生适当的控制输入。结果明确地传达了hsl的深度感知优势,而在典型室内走廊中成功的重复飞行证实了管道的有效性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Hierarchical structured learning for indoor autonomous navigation of Quadcopter
Autonomous navigation of generic monocular quadcopter in the indoor environment requires sophisticated approaches for perception, planning and control. This paper presents a system which enables a miniature quadcopter with a frontal monocular camera to autonomously navigate and explore the unknown indoor environment. Initially, the system estimates dense depth map of the environment from a single video frame using our proposed novel supervised Hierarchical Structured Learning (hsl) technique, which yields both high accuracy levels and better generalization. The proposed hsl approach discretizes the overall depth range into multiple sets. It structures these sets hierarchically and recursively through partitioning the set of classes into two subsets with subsets representing apportioned depth range of the parent set, forming a binary tree. The binary classification method is applied to each internal node of binary tree separately using Support Vector Machine (svm). Whereas, the depth estimation of each pixel of the image starts from the root node in top-down approach, classifying repetitively till it reaches any of the leaf node representing its estimated depth. The generated depth map is provided as an input to Convolutional Neural Network (cnn), which generates flight planning commands. Finally, trajectory planning and control module employs a convex programming technique to generate collision-free minimum time trajectory which follows these flight planning commands and produces appropriate control inputs for the quadcopter. The results convey unequivocally the advantages of depth perception by hsl, while repeatable flights of successful nature in typical indoor corridors confirm the efficacy of the pipeline.
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