Jinjae Lee, Casey C. Bennett, Cedomir Stanojevic, Seongcheol Kim, Zachary Henkel, Kenna Baugus, Jennifer A. Piatt, Cindy Bethel, Selma Sabanovic
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Although cross-cultural studies with robots have been conducted to understand differing population characteristics, they have mainly focused on statistical comparisons of groups. In this study, we utilize deep learning (DL) and machine learning (ML) models to evaluate whether cultural differences show up in robotic sensor data during human-robot interaction (HRI). To do so, a SAR was distributed to user's homes for three weeks in the US and Korea (25 participants), while collecting data on the human activity and the surrounding environment through on-board sensor devices. DL models based on that data were able to predict the user’s cultural identity with roughly 95% accuracy. 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Bennett is an Associate Professor in the Department of Intelligence Computing at Hanyang University in Seoul, Korea. He specializes in artificial intelligence and robotics in healthcare, including the use of data science and machine learning to create better human-robot interaction. He completed his Ph.D. at Indiana University in the US.Cedomir StanojevicDr. Cedomir Stanojevic is an Assistant Professor in the Department of Parks, Recreation & Tourism Management at Clemson University’s College of Behavioral, Social and Health Sciences, SC, U.S.A. He specializes in recreational therapy and interventions related to leisure and improved quality of life, focusing on socially assistive robotics and ecological momentary assessment to improve various populations’ health outcomes. He completed his Ph.D. at Indiana University in the US.Seongcheol KimSeongcheol Kim received his Master’s degree in Data Science at the Department of Intelligence Computing at Hanyang University. He is interested in the deep learning, natural language processing, and human-robot interaction to healthcare problems.Zachary HenkelZachary Henkel is a PhD student in the Department of Computer Science and Engineering at Mississippi State University. He is interested in human-robot interaction and related engineering related problems in social robotics.Kenna BaugusKenna Baugus is a graduate student in the Department of Computer Science and Engineering at Mississippi State University. She is interested in human-robot interaction and related engineering related problems in social robotics.Jennifer A. PiattDr. Jennifer A. Piatt is an Associate Professor in the Department of Health and Wellness Design at Indiana University- Bloomington, School of Public Health. She specializes in recreational therapy and interventions related to community-based rehabilitation. Focusing on Socially Assistive Robotics as a therapeutic intervention, sge aims to understand how emerging technologies can address clinical outcomes.Cindy BethelDr. Cindy Bethel is the Billie J. Ball Endowed Professor of Engineering in the Department of Computer Science and Engineering at Mississippi State University. She is the director of the Social, Therapeutic, and Robotic Systems (STaRS) Lab, focused human-robot interaction and therapeutic robotic pets.Selma SabanovicDr. Selma Sabanovic is a Professor of Informatics and Cognitive Science at Indiana University Bloomington, where she directs the R-House Human-Robot Interaction Lab. Her work combines the social studies of computing with research on human-robot interaction and social robotics. She explores the design, use, and consequences of socially interactive and assistive robots in diverse social and cultural contexts, including various countries, homes, schools, and healthcare environments. 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引用次数: 0
Abstract
AbstractSocially-assistive robots (SARs) have significant potential to help manage chronic diseases (e.g. dementia, depression, diabetes) in spaces where people live, averse to clinic-based care. However, the challenge is designing SARs so that they perform appropriate interactions with people who have different characteristics, such as age, gender, and cultural identity. Those characteristics impact how human behaviors are performed as well as user expectations of robot responses. Although cross-cultural studies with robots have been conducted to understand differing population characteristics, they have mainly focused on statistical comparisons of groups. In this study, we utilize deep learning (DL) and machine learning (ML) models to evaluate whether cultural differences show up in robotic sensor data during human-robot interaction (HRI). To do so, a SAR was distributed to user's homes for three weeks in the US and Korea (25 participants), while collecting data on the human activity and the surrounding environment through on-board sensor devices. DL models based on that data were able to predict the user’s cultural identity with roughly 95% accuracy. Such findings have potential implications for the design and development of culturally-adaptive SARs to provide services across diverse cultural locales and multi-cultural environments where users’ cultural background cannot be assumed a priori.KEYWORDS: Human-robot interactiondeep learningcross-cultural roboticsadaptive robot designhuman activity recognition Disclosure statementNo potential conflict of interest was reported by the author(s).Additional informationFundingThis work was supported by separate funding mechanisms in South Korea and the United States: KOR – Hanyang University Research Fund [grant number HY-2020]; USA – National Science Foundation [grant number IIS-1900683].Notes on contributorsJinjae LeeJinjae Lee is currently a Master’s student in Data Science at the Department of Intelligence Computing at Hanyang University. He is interested in the application of machine learning and human-robot interaction to healthcare problems.Casey C. BennettDr. Casey C. Bennett is an Associate Professor in the Department of Intelligence Computing at Hanyang University in Seoul, Korea. He specializes in artificial intelligence and robotics in healthcare, including the use of data science and machine learning to create better human-robot interaction. He completed his Ph.D. at Indiana University in the US.Cedomir StanojevicDr. Cedomir Stanojevic is an Assistant Professor in the Department of Parks, Recreation & Tourism Management at Clemson University’s College of Behavioral, Social and Health Sciences, SC, U.S.A. He specializes in recreational therapy and interventions related to leisure and improved quality of life, focusing on socially assistive robotics and ecological momentary assessment to improve various populations’ health outcomes. He completed his Ph.D. at Indiana University in the US.Seongcheol KimSeongcheol Kim received his Master’s degree in Data Science at the Department of Intelligence Computing at Hanyang University. He is interested in the deep learning, natural language processing, and human-robot interaction to healthcare problems.Zachary HenkelZachary Henkel is a PhD student in the Department of Computer Science and Engineering at Mississippi State University. He is interested in human-robot interaction and related engineering related problems in social robotics.Kenna BaugusKenna Baugus is a graduate student in the Department of Computer Science and Engineering at Mississippi State University. She is interested in human-robot interaction and related engineering related problems in social robotics.Jennifer A. PiattDr. Jennifer A. Piatt is an Associate Professor in the Department of Health and Wellness Design at Indiana University- Bloomington, School of Public Health. She specializes in recreational therapy and interventions related to community-based rehabilitation. Focusing on Socially Assistive Robotics as a therapeutic intervention, sge aims to understand how emerging technologies can address clinical outcomes.Cindy BethelDr. Cindy Bethel is the Billie J. Ball Endowed Professor of Engineering in the Department of Computer Science and Engineering at Mississippi State University. She is the director of the Social, Therapeutic, and Robotic Systems (STaRS) Lab, focused human-robot interaction and therapeutic robotic pets.Selma SabanovicDr. Selma Sabanovic is a Professor of Informatics and Cognitive Science at Indiana University Bloomington, where she directs the R-House Human-Robot Interaction Lab. Her work combines the social studies of computing with research on human-robot interaction and social robotics. She explores the design, use, and consequences of socially interactive and assistive robots in diverse social and cultural contexts, including various countries, homes, schools, and healthcare environments. She completed her PhD in Science and Technology Studies at Rensselaer Polytechnic Institute.
社会辅助机器人(sar)具有巨大的潜力,可以在人们居住的空间中帮助管理慢性病(例如痴呆症、抑郁症、糖尿病),而不是基于临床的护理。然而,挑战在于设计SARs,使它们能够与具有不同特征(如年龄、性别和文化身份)的人进行适当的互动。这些特征影响着人类行为的表现以及用户对机器人反应的期望。虽然对机器人进行的跨文化研究是为了了解不同的人口特征,但它们主要集中在群体的统计比较上。在本研究中,我们利用深度学习(DL)和机器学习(ML)模型来评估在人机交互(HRI)期间机器人传感器数据中是否存在文化差异。为此,研究人员向美国和韩国的用户(25名参与者)分发了一个SAR,为期三周,同时通过机载传感器设备收集人类活动和周围环境的数据。基于这些数据的深度学习模型能够以大约95%的准确率预测用户的文化身份。这些发现对设计和开发具有文化适应性的sar具有潜在的意义,以便在不同的文化地点和多元文化环境中提供服务,在这些环境中,用户的文化背景不能被先验地假设。关键词:人机交互深度学习跨文化机器人自适应机器人设计人类活动识别披露声明作者未报告潜在利益冲突。本工作由韩国和美国的不同资助机制支持:KOR -汉阳大学研究基金[批准号HY-2020];美国国家科学基金会[资助号is -1900683]。本文作者sjinjae Lee目前是汉阳大学智能计算系数据科学专业的硕士生。他对机器学习和人机交互在医疗保健问题中的应用感兴趣。Casey C. bennett博士Casey C. Bennett是韩国首尔汉阳大学智能计算系的副教授。他专注于医疗保健领域的人工智能和机器人技术,包括使用数据科学和机器学习来创造更好的人机交互。他在美国印第安纳大学完成了博士学位。Cedomir StanojevicDr。Cedomir Stanojevic是美国克莱姆森大学行为、社会和健康科学学院公园、娱乐和旅游管理系的助理教授,他擅长与休闲和改善生活质量相关的娱乐治疗和干预,专注于社会辅助机器人和生态瞬间评估,以改善各种人群的健康结果。他在美国印第安纳大学完成了博士学位。Seongcheol Kim在汉阳大学智能计算系获得数据科学硕士学位。他对深度学习、自然语言处理和人机交互对医疗保健问题感兴趣。Zachary Henkel是密西西比州立大学计算机科学与工程系的一名博士生。他对人机交互和社会机器人相关工程问题感兴趣。Kenna Baugus是密西西比州立大学计算机科学与工程系的一名研究生。她对人机交互和社交机器人相关的工程相关问题感兴趣。詹妮弗·a·皮亚特博士Jennifer A. Piatt是印第安纳大学布卢明顿公共卫生学院健康与健康设计系的副教授。她的专长是与社区康复相关的娱乐治疗和干预。专注于社会辅助机器人作为一种治疗干预,sge旨在了解新兴技术如何解决临床结果。辛迪BethelDr。Cindy Bethel是密西西比州立大学计算机科学与工程系的Billie J. Ball受聘教授。她是社会,治疗和机器人系统(STaRS)实验室的主任,专注于人机交互和治疗机器人宠物。塞尔玛SabanovicDr。塞尔玛·萨巴诺维奇(Selma Sabanovic)是印第安纳大学布卢明顿分校信息学和认知科学教授,负责R-House人机交互实验室。她的工作将计算的社会研究与人机交互和社交机器人的研究结合起来。她探讨了社会互动和辅助机器人在不同社会和文化背景下的设计、使用和后果,包括不同的国家、家庭、学校和医疗环境。 她在伦斯勒理工学院完成了科学与技术研究博士学位。
期刊介绍:
Advanced Robotics (AR) is the international journal of the Robotics Society of Japan and has a history of more than twenty years. It is an interdisciplinary journal which integrates publication of all aspects of research on robotics science and technology. Advanced Robotics publishes original research papers and survey papers from all over the world. Issues contain papers on analysis, theory, design, development, implementation and use of robots and robot technology. The journal covers both fundamental robotics and robotics related to applied fields such as service robotics, field robotics, medical robotics, rescue robotics, space robotics, underwater robotics, agriculture robotics, industrial robotics, and robots in emerging fields. It also covers aspects of social and managerial analysis and policy regarding robots.
Advanced Robotics (AR) is an international, ranked, peer-reviewed journal which publishes original research contributions to scientific knowledge.
All manuscript submissions are subject to initial appraisal by the Editor, and, if found suitable for further consideration, to peer review by independent, anonymous expert referees.