A novel monocular visual navigation method for cotton-picking robot based on horizontal spline segmentation

International Symposium on Multispectral Image Processing and Pattern Recognition Pub Date : 2015-12-14 DOI:10.1117/12.2211305

Shengyong Xu, JuanJuan Wu, Li Zhu, Weihao Li, Yitian Wang, Na Wang

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引用次数: 2

Abstract

Visual navigation is a fundamental technique of intelligent cotton-picking robot. There are many components and cover in the cotton field, which make difficulties of furrow recognition and trajectory extraction. In this paper, a new field navigation path extraction method is presented. Firstly, the color image in RGB color space is pre-processed by the OTSU threshold algorithm and noise filtering. Secondly, the binary image is divided into numerous horizontally spline areas. In each area connected regions of neighboring images’ vertical center line are calculated by the Two-Pass algorithm. The center points of the connected regions are candidate points for navigation path. Thirdly, a series of navigation points are determined iteratively on the principle of the nearest distance between two candidate points in neighboring splines. Finally, the navigation path equation is fitted by the navigation points using the least squares method. Experiments prove that this method is accurate and effective. It is suitable for visual navigation in the complex environment of cotton field in different phases.

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基于水平样条分割的摘棉机器人单目视觉导航方法

视觉导航是智能摘棉机器人的一项基本技术。棉田中成分和覆盖物较多，给沟槽识别和轨迹提取带来了困难。本文提出了一种新的野外导航路径提取方法。首先，采用OTSU阈值算法和噪声滤波对RGB色彩空间中的彩色图像进行预处理;其次，将二值图像划分为多个水平样条区域。在每个区域内，通过Two-Pass算法计算相邻图像垂直中心线的连通区域。连通区域的中心点作为导航路径的候选点。第三，根据相邻样条中两个候选点之间距离最近的原则迭代确定一系列导航点;最后，利用最小二乘法对导航点进行导航路径方程拟合。实验证明了该方法的准确性和有效性。它适用于棉田不同阶段复杂环境下的视觉导航。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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International Symposium on Multispectral Image Processing and Pattern Recognition

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