A low-cost approach for self-calibration of climbing robots

Mahmoud Tavakoli; Lino Marques; Anfbal T. de Almeida

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A low-cost approach for self-calibration of climbing robots

机译：一种低成本的攀岩机器人自我标定方法

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摘要

High accuracy is usually difficult to obtain with a robotic arm installed on a mobile base, since the errors of the base are transferred to the manipulator. This paper proposes a method to address this problem through integration of a self-calibration algorithm and low-cost sensors. The self-calibration algorithm might be repeated several times during execution of a mission by the robot and is only based on the internal sensors of the robot, meaning that external observers or reference point transceivers (e.g., ultrasonic transceivers) are not used. The proposed self-calibration system was implemented on a pole climbing robot and effectively improved the positioning accuracy of the climbing arm.

机译：通常，通过将机械臂安装在活动基座上很难获得高精度，因为基座的误差会传递到机械手。本文提出了一种通过整合自校准算法和低成本传感器来解决此问题的方法。自校准算法可能在机器人执行任务期间重复几次，并且仅基于机器人的内部传感器，这意味着不使用外部观察者或参考点收发器（例如，超声波收发器）。提出的自标定系统在爬杆机器人上实施，有效地提高了攀爬臂的定位精度。

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来源
《Robotica》 |2011年第1期|p.23-34|共12页
作者
Mahmoud Tavakoli; Lino Marques; Anfbal T. de Almeida;
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作者单位

Department of Electrical and Computer Engineering, Institute for Systems and Robotics, University of Coimbra,Coimbra 3030-290, Portugal;

Department of Electrical and Computer Engineering, Institute for Systems and Robotics, University of Coimbra,Coimbra 3030-290, Portugal;

Department of Electrical and Computer Engineering, Institute for Systems and Robotics, University of Coimbra,Coimbra 3030-290, Portugal;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类
关键词
climbing robots; mobile arms; self calibration; accelerometers; gripper; positioning error;

机译：攀爬机器人;移动武器;自校准加速度计抓手定位误差;

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1. New self-calibration approach to space robots based on hand-eye vision [J] . LIU Yu, LIU Hong, NI Feng-lei, 中南大学学报（英文版） . 2011,第004期

机译：基于手眼视觉的空间机器人自校准新方法
2. A Low-Cost, Light-Weight Climbing Robot for Inspection of Glass Curtains (vol 11, pg 106, 2014) [J] . Liang Ran, Altaf Meteb, Ahmad Eball, International Journal of Advanced Robotic Systems . 2015,第期

机译：用于检查玻璃窗帘的低成本，轻质攀爬机器人（第11卷，PG 106,2014）
3. A Low-cost, Light-weight Climbing Robot for Inspection of Class Curtains [J] . Liang Ran, Altaf Meteb, Ahmad Eball, International Journal of Advanced Robotic Systems . 2014,第期

机译：用于检查级窗帘的低成本，轻量级攀爬机器人
4. Development of a low-cost modular pole climbing robot [C] . Ripin, Z.M., Tan Beng Soon . 2000

机译：开发低成本的模块化爬杆机器人
5. ROCR is an oscillating climbing robot: Dynamically climbing sheer walls with a pendular two-link mass-shifting robot. [D] . Jensen-Segal, Samuel I. 2010

机译：ROCR是一种摆动式攀爬机器人：使用摆动式两连杆质量转移机器人动态攀登纯粹的墙壁。
6. A Vision-Based Self-Calibration Method for Robotic Visual Inspection Systems [O] . Shibin Yin, Yongjie Ren, Jigui Zhu, 2013

机译：机器人视觉检查系统的基于视觉的自校准方法
7. Development of a Bio-inspired Vision System for Mobile Micro-robots:In this paper, we present a new bio-inspired vision system for mobile micro-robots. The processing method takes inspiration from vision of locusts in detecting the fast approaching objects. Research suggested that locusts use wide-field visual neuron called the lobula giant movement detector to respond to imminent collisions. We employed the locusts' vision mechanism to motion control of a mobile robot. The selected image processing method is implemented on a developed extension module using a low-cost and fast ARM processor. The vision module is placed on top of a micro-robot to control its trajectory and to avoid obstacles. The observed results from several performed experiments demonstrated that the developed extension module and the inspired vision system are feasible to employ as a vision module for obstacle avoidance and motion control. [O] . Hu, Cheng, Arvin, Farshad, Yue, Shigang 2014

机译：开发用于移动微型机器人的生物启发视觉系统：在本文中，我们提出了一种用于移动微型机器人的新型生物启发视觉系统。该处理方法从检测快速接近物体的蝗虫视觉中获取灵感。研究表明，蝗虫使用称为小叶巨型运动探测器的宽视野神经元来应对即将发生的碰撞。我们采用蝗虫的视觉机制来控制移动机器人。所选择的图像处理方法使用低成本且快速的aRm处理器在开发的扩展模块上实现。视觉模块放置在微型机器人的顶部以控制其轨迹并避开障碍物。几次进行的实验观察到的结果表明，开发的扩展模块和灵感视觉系统可用作避障和运动控制的视觉模块。
8. Self-calibration of robot-sensor system [R] . Yeh, Pen-Shu 1990

机译：机器人传感器系统的自校准

A low-cost approach for self-calibration of climbing robots

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