Low-Latency Teleoperations: Operational Implications for Human Space Exploration
[摘要] Low-latency teleoperations (LLT) is envisioned to be an element of human exploration missions in a number of different applications. LLT can be broadly considered to encompass any remote operation of an asset with a communication delay that is less than the human response time to allow for what is effectively "real-time" or "near real-time" operations. This paper will explore motivations and operational implications for why and how LLT might be used for human exploration space missions. LLT analyses have been performed under the auspices of the NASA Human Spaceflight Architecture Team (HAT) and Evolvable Mars Campaign (EMC). The EMC created a flexible, evolvable, capability-driven architectural strategy to enable a sustainable long-term human presence at Mars. LLT is envisioned to be part of that strategy for both in-space and on-surface applications, and this paper will expand on operational considerations within that broader strategic context, as well additional contexts. Some operational implications explored in this paper, derived largely from previous work, are: (1) crew mission support, for which we will address roles for Mission Control on earth, balanced with the capability for crew and robotic assets to operate independently, (2) science operations, with a focus on "backroom" support, highly dynamic science, and enhanced science return and efficiency, and (3) operational efficiency at a deep-space destination such as Mars, including implications for communications infrastructures and how to leverage and balance system autonomy with crew operations, both of which can inform the overall operational "choreography" between crew members, multiple shifts, and exploration assets.
[发布日期] 2018-05-28 [发布机构]
[效力级别] [学科分类] 人工智能
[关键词] TELEROBOTICS;ROBOT CONTROL;REMOTE CONTROL;TELEOPERATORS;AUTONOMY;SPACECREWS;SPACE MISSIONS;DELAY;HUMAN-COMPUTER INTERFACE;REAL TIME OPERATION;REACTION TIME;SPACE EXPLORATION;COMMAND AND CONTROL;MANNED MARS MISSIONS [时效性]