Mars Mission Communication Delays and Impact on Mission Controller Performance, Workload, and Stress.

IF 0.9 4区医学 Q4 BIOPHYSICS

Aerospace medicine and human performance Pub Date : 2025-01-01 DOI:10.3357/AMHP.6550.2024

Madison Diamond, Gloria R Leon, Pablo de León

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引用次数: 0

Abstract

Background: Mission Controllers (MCs) are the main point of contact for space crews and are vital for successful human spaceflight. On a mission to Mars, there will be as long as 22-min one-way communication delays between the ground and the crew, causing major changes to current communication infrastructures.

Methods: This exploratory study assessed the impact of a 20-min one-way communication delay on MCs' task performance, workload, and stress levels under nominal and off-nominal conditions, conducted during a 21-d analog mission.

Results: Decrements in performance were noted on both nominal and off-nominal task completion in time-delay conditions [100% of real-time (rt) tasks complete, 16.7% of time-delay (td) tasks incomplete; 12.50% of nominal tasks and 33.33% of off-nominal tasks were incomplete]; more errors on task record forms (td = 6 forms, rt = 1 form); higher ratings of workload burden (nominal, td workload = 38.64; off-nominal, td workload = 58.72; nominal, rt workload = 34.00, off-nominal, rt workload = 52.78). No significant changes in MC stress levels were detected in rt compared to td, but MCs did report greater stress during off-nominal tasks compared to nominal tasks. The crew, however, were unable to detect these changes in MC stress levels.

Discussion: Overall, these findings point to the importance of future research focused on MC training and adapting MC's operations for time-delayed missions. Further studies of time-delayed analog missions could help determine additional solutions focused on technology advances. Diamond M, Leon GR, de León P. Mars mission communication delays and impact on mission controller performance, workload, and stress. Aerosp Med Hum Perform. 2025; 96(1):67-70.

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火星任务通信延迟和对任务控制器性能、工作量和压力的影响。

背景：任务控制器（MCs）是航天机组人员的主要接触点，对人类航天飞行的成功至关重要。在前往火星的任务中，地面和机组人员之间的单向通信延迟将长达22分钟，导致当前通信基础设施发生重大变化。方法：在为期21天的模拟任务中，本探索性研究评估了在名义和非名义条件下，20分钟单向通信延迟对mc任务绩效、工作量和压力水平的影响。结果：在时间延迟条件下，名义和非名义任务完成情况都出现了性能下降[100%的实时（rt）任务完成，16.7%的延迟（td）任务不完成；12.50%的标称任务和33.33%的非标称任务未完成]；任务记录表单错误较多（td = 6, rt = 1）；工作量负担等级较高(名义工作量= 38.64；非标称，td工作量= 58.72；名义上，rt工作负载= 34.00，非名义上，rt工作负载= 52.78)。在日常任务中，与日常任务相比，管理人员的压力水平没有显著变化，但在非名义任务中，管理人员确实报告了比名义任务更大的压力。然而，机组人员无法检测到MC压力水平的这些变化。讨论：总的来说，这些发现指出了未来研究的重要性，重点是MC培训和调整MC的操作以适应延迟任务。对延时模拟任务的进一步研究可以帮助确定以技术进步为重点的其他解决办法。Diamond M, Leon GR, de León P.火星任务通信延迟和任务控制器性能、工作负载和压力的影响。航空航天Med Hum Perform. 2025；96(1): 67 - 70。

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来源期刊

Aerospace medicine and human performance PUBLIC, ENVIRONMENTAL & OCCUPATIONAL HEALTH -MEDICINE, GENERAL & INTERNAL

CiteScore

1.10

自引率

22.20%

发文量

272

期刊介绍： The peer-reviewed monthly journal, Aerospace Medicine and Human Performance (AMHP), formerly Aviation, Space, and Environmental Medicine, provides contact with physicians, life scientists, bioengineers, and medical specialists working in both basic medical research and in its clinical applications. It is the most used and cited journal in its field. It is distributed to more than 80 nations.