3D REALTIME SIMULATION FRAMEWORK FOR WALL-CLIMBING ROBOTS - TOWARDS THE NEW CLIMBING ROBOT CREA

机译：3D攀岩机器人实时仿真框架 - 朝向新的攀岩机器人Crea

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Simulation frameworks are common tools to test new algorithms or to analyze the behavior of a robot before executing the control software on the real machine. This tremendously reduces time and effort during the development process. This paper presents a component based framework for simulating different wall-climbing robots that use negative pressure adhesion in combination with a drive system. Key aspect of the simulation is the vacuum adhesion system: Surface characteristics and features in the environment influence its overall performance, which is calculated based on a thermodynamic model of the airflows. The framework tremendously improves the development process of the new wall-climbing robot CREA by the possibility to validate controllers and algorithms offline and in realtime beforehand.

机译：仿真框架是测试新算法的常用工具或在执行真机上执行控制软件之前分析机器人的行为。这在开发过程中大幅减少了时间和精力。本文介绍了一种基于组件的框架，用于模拟使用负压粘附与驱动系统的不同压力粘附的不同壁攀爬机器人的框架。仿真的关键方面是真空粘合系统：环境中的表面特性和特征影响其整体性能，这是基于气流的热力学模型计算的。通过验证控制器和算法的可能事先验证控制器和算法，框架大大提高了新的壁攀岩机器人Crea的开发过程。

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《International Conference on Climbing and Walking Robots and the Support Technologies for Mobile Machines》|2014年||共8页
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作者
DANIEL SCHMIDT; KARSTEN BERNS;
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中图分类 TP24-53;
关键词
Wall-climbing robot; Vacuum adhesion; Concrete surfaces; Simulation; Thermodynamic model;

机译：攀岩机器人;真空粘附;混凝土表面;模拟;热力学模型;

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1. Visual Positioning of Distant Wall-Climbing Robots Using Convolutional Neural Networks [J] . Journal of Intelligent & Robotic Systems: Theory & Application . 2020,第3a4期

机译：使用卷积神经网络的遥远壁攀岩机器人的视觉定位
2. Wall-Climbing Robots with Permanent-Magnet Contact Devices: Design and Control Concept of the Contact Devices [J] . Syrykh N. V, Chashchukhin V. G. Journal of computer & systems sciences international . 2019,第5期

机译：带有永磁接触装置的爬壁机器人：接触装置的设计和控制概念
3. A Three-row Opposed Gripping Mechanism with Bioinspired Spiny Toes for Wall-climbing Robots [J] . Chao Xie, Xuan Wu, Xiaojie Wang 仿生工程学报（英文版） . 2019,第006期

机译：具有生物启发性刺脚趾的三行对立抓取机制，适用于攀爬机器人
4. 3D REALTIME SIMULATION FRAMEWORK FOR WALL-CLIMBING ROBOTS - TOWARDS THE NEW CLIMBING ROBOT CREA [C] . DANIEL SCHMIDT, KARSTEN BERNS International Conference on Climbing and Walking Robots and the Support Technologies for Mobile Machines . 2014

机译：3D攀岩机器人实时仿真框架 - 朝向新的攀岩机器人Crea
5. Biologically-inspired synthetic dry adhesives for wall-climbing robots. [D] . Murphy, Michael P. 2008

机译：受生物启发的攀爬机器人合成干胶。
6. Research on Kinematics and Stability of a Bionic Wall-Climbing Hexapod Robot [O] . Shoulin Xu, Bin He, Heming Hu 2019

机译：仿生壁爬式六足机器人的运动学和稳定性研究
7. 3D Realtime Simulation Framework for a Wall-Climbing Robot using Negative-Pressure Adhesion [O] . Daniel Schmidt, Jens Wettach, Karsten Berns 2013

机译：使用负压粘附的爬壁机器人的3D实时仿真框架
8. Cooperative Wall-climbing Robots in 3D Environments for Surveillance and Target Tracking [R] . Xiao, J., Zhu, Z. 2009

机译：用于监视和目标跟踪的3D环境中的协作爬墙机器人

3D REALTIME SIMULATION FRAMEWORK FOR WALL-CLIMBING ROBOTS - TOWARDS THE NEW CLIMBING ROBOT CREA

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