Synchronous Robotic Framework

2020 16th International Conference on Distributed Computing in Sensor Systems (DCOSS) Pub Date : 2020-05-01 DOI:10.1109/DCOSS49796.2020.00059

N. Balaji, Jyothsna Kilaru, Oscar Morales-Ponce

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引用次数: 1

Abstract

We present a synchronous robotic testbed called SyROF that allows fast implementation of robotic swarms. Our main goal is to lower the entry barriers to cooperative-robot systems for undergraduate and graduate students. The testbed provides a high-level programming environment that allows the implementation of Timed Input/Output Automata (TIOA). Sy-ROF offers the following unique characteristics: 1) a transparent mechanism to synchronize robot maneuvers, 2) a membership service with a failure detector, and 3) a transparent service to provide common knowledge in every round. These characteristics are fundamental to simplifying the implementation of robotic swarms. The software is organized in five layers: The lower layer consists of a real-time publish-subscribe system that allows efficient communication between tasks. The next layer is an implementation of a Kalman filter to estimate the position, orientation, and speed of the robot. The third layer consists of a synchronizer that synchronously executes the robot maneuvers, provides common knowledge to all the active participants, and handles failures. The fifth layer consists of the programming environment.

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同步机器人框架

我们提出了一个叫syof的同步机器人测试平台，它允许机器人群的快速实现。我们的主要目标是为本科生和研究生降低进入合作机器人系统的门槛。该测试平台提供了一个高级编程环境，允许实现定时输入/输出自动机(TIOA)。Sy-ROF提供了以下独特的特点:1)一个透明的机制来同步机器人的动作，2)一个带有故障检测器的成员服务，以及3)一个透明的服务，在每一轮中提供共同的知识。这些特征是简化机器人群实现的基础。该软件分为五层:下层由实时发布-订阅系统组成，该系统允许任务之间进行有效的通信。下一层是卡尔曼滤波器的实现，用于估计机器人的位置、方向和速度。第三层由同步器组成，同步执行机器人操作，为所有活动参与者提供公共知识，并处理故障。第五层包括编程环境。

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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来源期刊

2020 16th International Conference on Distributed Computing in Sensor Systems (DCOSS)

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