Human operators in human-robot teams are commonly perceived to be critical for mission success. To explore the direct and perceived impact of operator input on task success and team performance, 16 real-world missions (10 hrs) were conducted based on the DARPA Subterranean Challenge. These missions were to deploy a heterogeneous team of robots for a search task to locate and identify artifacts such as climbing rope, drills and mannequins representing human survivors. Two conditions were evaluated: human operators that could control the robot team with state-of-the-art autonomy (Human-Robot Team) compared to autonomous missions without human operator input (Robot-Autonomy). Human-Robot Teams were often in directed autonomy mode (70% of mission time), found more items, traversed more distance, covered more unique ground, and had a higher time between safety-related events. Human-Robot Teams were faster at finding the first artifact, but slower to respond to information from the robot team. In routine conditions, scores were comparable for artifacts, distance, and coverage. Reasons for intervention included creating waypoints to prioritise high-yield areas, and to navigate through error-prone spaces. After observing robot autonomy, operators reported increases in robot competency and trust, but that robot behaviour was not always transparent and understandable, even after high mission performance.
翻译:人类机器人团队中的人类操作员通常被认为对飞行任务的成功至关重要。为了探索操作员投入对任务成功和团队业绩的直接和感知影响,根据DARPA Subterranean 挑战,开展了16次真实世界任务(10小时),这些任务旨在部署一个由各种机器人组成的团队进行搜索任务,以查找和识别人类幸存者的攀爬绳、钻机和假人等文物。评估了两个条件:能够以最先进的自主性控制机器人团队的人类操作员,而不是没有人类操作员投入的自主任务(Robot-Automanology)。人类机器人团队往往处于定向自主模式(70%的任务时间),发现更多的物品,穿越更多的距离,覆盖更独特的地面,在与安全相关的事件之间有更多的时间。人类机器人团队在寻找第一个工艺品方面速度更快,但对机器人团队提供的信息反应较慢。在常规条件下,工艺品、距离和覆盖范围方面的分数是可比的。 干预的理由包括创建前一自主性(70%的任务时间的70%),发现更多物品,发现更多的距离,在高信任度之后的操作者,在高信任度、高透明性操作能力方面,在高透明性操作中,在高可理解性操作中,在高的操作能力方面,在高可理解性方面,在高可理解性方面,在高可理解性操作性方面,在高的操作性方面,在高可操作性上,在高的操作性方面,在高的操作性上是测量性方面,在高的操作性方面,在高能方面,在高能方面,在高能方面,在高能上,在高能上是报告。
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