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为演讲者发声:机器人扬声器设计指南与分析

Speaking out for speakers: a guide for and analysis of robot speaker design.

作者信息

Nwagwu Nnamdi, Schneider Adeline, Phelps Tyler K, Zhang Brian J, Fitter Naomi T

机构信息

Collaborative Robotics and Intelligent Systems Institute (CoRIS), Oregon State University, Corvallis, OR, United States.

出版信息

Front Robot AI. 2024 Nov 29;11:1394700. doi: 10.3389/frobt.2024.1394700. eCollection 2024.

DOI:10.3389/frobt.2024.1394700
PMID:39677977
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11638048/
Abstract

Despite sound being a promising modality of communication in robotics (possessing, for example, the ability to improve people's perceptions of robots and help localize robotic systems in space), its facilitator, speakers, are a seldom-explored topic of study in robotics literature. To address this gap, we conducted three explorations into physical speaker design that identified what current robot speakers lack and potential remedies, low-level design improvements, and hardware additions. Further, we detail and explore the application of speakers on three different robotic platforms (including one industrial robot used for construction), the last evaluation of which involved an empirical study that sought to better understand the implications associated with poor-quality speakers in a mock service robotics context. Our results suggest that greater internal cavity volume is a key strength in speaker design. We also observed greater effects of the presence (vs. absence) of a service robot voice compared to other factors. This work can inform the process of creating custom speakers for robots and augmenting current robotic systems with new speaker additions (whether commercial or custom, and across use contexts from construction to service). In particular, the work can help to guide roboticists who may be unfamiliar with nuanced audio engineering techniques and designers who seek to improve robotics platform standards with human interlocutors in mind.

摘要

尽管声音在机器人技术中是一种很有前景的通信方式(例如,它能够改善人们对机器人的认知,并帮助在空间中定位机器人系统),但其实现手段——扬声器,在机器人技术文献中却是一个鲜有探讨的研究主题。为了填补这一空白,我们对物理扬声器设计进行了三项探索,确定了当前机器人扬声器的不足之处以及潜在的补救措施、低级设计改进和硬件添加。此外,我们详细阐述并探讨了扬声器在三种不同机器人平台上的应用(包括一台用于建筑施工的工业机器人),其中最后一项评估涉及一项实证研究,该研究旨在更好地理解在模拟服务机器人环境中与劣质扬声器相关的影响。我们的结果表明,更大的内部腔体体积是扬声器设计的一个关键优势。我们还观察到,与其他因素相比,服务机器人语音的存在(与不存在)产生的影响更大。这项工作可以为为机器人创建定制扬声器以及用新添加的扬声器增强当前机器人系统的过程提供参考(无论是商业的还是定制的,并且适用于从建筑施工到服务的各种使用场景)。特别是,这项工作可以帮助指导那些可能不熟悉细微音频工程技术的机器人专家,以及那些在设计时考虑到与人类对话者一起提高机器人平台标准的设计师。

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