SAHRTA: A Supervisory-Based Adaptive Human-Robot Teaming Architecture
Jamison Heard, Julian Fortune, Julie A. Adams
- 发表年份
- 2020
- 访问权限
- 开放获取
摘要
Supervisory-based human-robot teams are deployed in various dynamic and extreme environments (e.g., space exploration). Achieving high task performance in such environments is critical, as a mistake may lead to significant monetary loss or human injury. Task performance may be augmented by adapting the supervisory interface's interactions or autonomy levels based on the human supervisor's workload level, as workload is related to task performance. Typical adaptive systems rely solely on the human's overall or cognitive workload state to select what adaptation strategy to implement; however, overall workload encompasses many dimensions (i.e., cognitive, physical, visual, auditory, and speech) called workload components. Selecting an appropriate adaptation strategy based on a complete human workload state (rather than a single workload dimension) may allow for more impactful adaptations that ensure high task performance. A Supervisory-Based Adaptive Human-Robot Teaming Architecture (SAHRTA) that selects an appropriate level of autonomy or system interaction based on a complete real-time multi-dimensional workload estimate and predicted future task performance is introduced. SAHRTA was shown to improve overall task performance in a physically expanded version of the NASA Multi-Attribute Task Battery.
关键词
相关论文
The Uncanny Valley [From the Field]
Masahiro Mori, Karl F. MacDorman, Norri Kageki
2012
Measurement Instruments for the Anthropomorphism, Animacy, Likeability, Perceived Intelligence, and Perceived Safety of Robots
Christoph Bartneck, Dana Kulić, Elizabeth A. Croft 等 4 位作者
2008
The development of Honda humanoid robot
Kazuo Hirai, Masato Hirose, Y. Haikawa 等 4 位作者
2002
A Meta-Analysis of Factors Affecting Trust in Human-Robot Interaction
Peter A. Hancock, Deborah R. Billings, Kristin E. Schaefer 等 6 位作者
2011