Map generation for multiple image sensing sensor MISS under unknown robot egomotion

Proceedings of the 1997 IEEE/RSJ International Conference on Intelligent Robot and Systems. Innovative Robotics for Real-World Applications. IROS '97 Pub Date : 1997-09-07 DOI:10.1109/IROS.1997.655134

Y. Yagi, K. Egami, M. Yachida

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引用次数: 6

Abstract

We design a new multiple image sensing sensor (MISS), which consists of a single camera and two different types of optics: an omnidirectional image sensor COPIS (conic projection image sensor) and binocular vision, for navigating the robot and understanding interesting objects in an environment by integrating both sensory data. Since COPIS observes a 360 degree view around the robot, it can observe global information of features (azimuths of vertical edges). On the other hand, binocular vision can obtain a sequence of stereo images although a field of view is limited by the visual angle of lens. In this paper, we integrate merits of omnidirectional vision and binocular vision, and propose an efficient sensing system for generating an environmental map by using MISS. Without an assumption of the exact known motion of the robot, MISS can generate an environmental map and estimate egomotion of the robot from both sensory information sources. In particular, the method is suitable for map generation during long robot movement because deadlocking error of the robot does not accumulate. The system has been evaluated on a prototype of MISS in a real environment.

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未知机器人自运动下多图像传感传感器MISS的地图生成

我们设计了一种新的多图像传感传感器(MISS)，它由单个摄像头和两种不同类型的光学元件组成:全向图像传感器COPIS(圆锥投影图像传感器)和双目视觉，用于通过整合两种传感器数据来导航机器人和理解环境中有趣的物体。由于COPIS观察机器人周围的360度视图，它可以观察到特征的全局信息(垂直边缘的方位角)。另一方面，双目视觉虽然受到透镜视角的限制，但可以获得一系列立体图像。本文综合了全向视觉和双目视觉的优点，提出了一种利用MISS生成环境地图的高效传感系统。在不假设机器人的确切已知运动的情况下，MISS可以从两个感官信息源生成环境地图并估计机器人的自我运动。该方法不积累死锁误差，适用于机器人长时间运动时的地图生成。该系统已在一个真实环境中的MISS原型上进行了评估。

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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Proceedings of the 1997 IEEE/RSJ International Conference on Intelligent Robot and Systems. Innovative Robotics for Real-World Applications. IROS '97

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