Robots have become ubiquitous tools in various industries and households, highlighting the importance of human-robot interaction (\textbf{HRI}). This has increased the need for easy and accessible communication between humans and robots. Recent research has focused on the intersection of virtual assistant technology, such as Amazon's Alexa, with robots and its effect on HRI. This paper presents the Virtual Assistant, Human, and Robots in the loop (VAHR) system, which utilizes bidirectional communication to control multiple robots through Alexa. VAHR's performance was evaluated through a human-subjects experiment, comparing objective and subjective metrics of traditional keyboard and mouse interfaces to VAHR. The results showed that VAHR required 41\% less Robot Attention Demand and ensured 91% more Fan-out time compared to the standard method. Additionally, VAHR led to a 62.5% improvement in multi-tasking, highlighting the potential for efficient human-robot interaction in physically- and mentally-demanding scenarios. However, subjective metrics revealed a need for human operators to build confidence and trust with this new method of operation.
翻译:机器人已成为各行各业及家庭中不可或缺的工具,凸显出人机交互(HRI)的重要性。这增加了人机之间易于访问和交流的必要性。最近的研究集中在虚拟助手技术(例如Amazon的Alexa)与机器人的交集,以及对HRI的影响。本文介绍了虚拟助手、人类和机器人在交互中的应用(VAHR)系统,它利用双向通信通过Alexa控制多个机器人。VAHR的绩效通过人体试验进行了评估,比较了传统键盘和鼠标接口与VAHR的客观和主观指标。结果显示,与标准方法相比,VAHR需要41%的机器人注意力需求较少,并确保了91%的扇出时间较多。此外,VAHR要求的多任务处理增强了62.5%,突显了在身体和心理上具有要求的场景下高效的人机交互的潜力。然而,主观指标揭示了与这种新的操作方法建立信心和信任的必要性。