整合功能分配和操作事件序列图以支持人机协调:机器人枣树疏伐系统案例研究

IF 2.2 Q3 ENGINEERING, INDUSTRIAL
Yael Salzer, Noy Saraf, A. Bechar, Yuval Cohen, Ze’ev Schmilovitch, Sigal Berman, Y. Yovel, A. Sadowsky, Ellen J. Bass
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引用次数: 0

摘要

在大多数精准农业应用中,最先进的机器人有望支持但不会完全取代人类工作。对于许多潜在的农业机器人应用,没有可比较的系统,也没有关于人类操作员活动的现成信息来指导系统工程过程。这就是Medjool削枣的情况,这是一项冗长和危险的手工操作,尚未开发技术援助。在这里,我们描述了使用认知系统工程方法来开发一个先锋系统的操作概念和人机协调要求,一个机器人医疗工具日期细化系统(RDTS)。我们利用抽象层次结构来描述RDTS设想的目标和功能。我们开发了可选的功能分配,以基于不同启用技术的可用性来探索设计空间。在向下选择功能分配后,包括期望开发的技术,我们创建了操作事件序列图,以可视化操作流程,并识别与人类操作员和联合人机系统相关的需求。在早期设计阶段应用这些方法有助于完善人-机器人协调要求,并确定操作概念中的差距——它们显示出支持引入农业机器人并使其取得成果的巨大潜力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Integrating Function Allocation and Operational Event Sequence Diagrams to Support Human-Robot Coordination: Case Study of a Robotic Date Thinning System
State-of-the-art robots show promise in supporting but not completely replacing human work in most precision agriculture applications. For many potential agricultural robot applications, there are no comparable systems nor readily available information on the human operator activities to guide the systems engineering process. Such is the situation for Medjool date thinning, a tedious and hazardous manual operation for which technological assistance has yet to be developed. Here we describe using cognitive system engineering methods to develop operational concepts and human-robot coordination requirements for a pioneer system, a Robotic Medjool Date Thinning System (RDTS). We leveraged the abstraction hierarchy to characterize the RDTS’s envisioned goals and functionality. We developed alternative functional allocations to explore the design space based on the availability of different enabling technologies. After downselecting to the function allocation, including the technologies expected to be developed, we created operational event sequence diagrams to visualize the operation flow and to identify requirements related to the human operator and the joint human-robot system. Applying these methods in the early design stages helped to refine the human-robot coordination requirements and to identify gaps in the operational concept—they show great potential to support the introduction of agricultural robots and bring them to fruition.
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来源期刊
CiteScore
4.60
自引率
10.00%
发文量
21
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