Bridging Reactive and Control Architectural Layers for Cooperative Missions Using VTOL Platforms

2017 25th International Conference on Systems Engineering (ICSEng) Pub Date : 2017-08-01 DOI:10.1109/ICSEng.2017.59

P. Rudol, P. Doherty

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引用次数: 1

Abstract

In this paper we address the issue of connecting abstract task definitions at a mission level with control functionalities for the purpose of performing autonomous robotic missions using multiple heterogenous platforms. The heterogeneity is handled by the use of a common vocabulary which consists of parametrized tasks such as fly-to, take-off, scan-area, or land. Each of the platforms participating in a mission supports a subset of the tasks by providing their platform-specific implementations. This paper presents a detailed description of an approach for implementing such platform-specific tasks. It is achieved using a flight-command based interface with setpoint generation abstraction layer for vertical take-off and landing platforms. We show that by using this highly expressive and easily parametrizable way of specifying and executing flight behaviors it is straightforward to implement a wide range of tasks. We describe the method in the context of a previously described robotics architecture which includes mission delegation and execution system based on a task specification language. We present results of an experimental flight using the proposed method.

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利用垂直起降平台桥接协作任务的反应和控制体系结构层

在本文中，我们解决了将任务级别的抽象任务定义与控制功能连接起来的问题，以便使用多个异构平台执行自主机器人任务。异构性是通过使用由参数化任务(如飞到、起飞、扫描区域或着陆)组成的通用词汇表来处理的。参与任务的每个平台通过提供特定于平台的实现来支持任务的子集。本文详细描述了实现这种平台特定任务的方法。垂直起降平台采用基于飞行命令的接口和设定点生成抽象层实现。我们表明，通过使用这种高度表达和易于参数化的方式来指定和执行飞行行为，可以直接实现广泛的任务。我们在先前描述的机器人体系结构的背景下描述了该方法，该体系结构包括基于任务规范语言的任务授权和执行系统。我们给出了使用该方法进行的一次实验飞行的结果。

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

2017 25th International Conference on Systems Engineering (ICSEng)

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