Safety analysis of evaluation and acceptance processes for space systems and operations based on system-theoretic approach

IF 1 Q3 ENGINEERING, AEROSPACE
Antonio V.D. Merladet , Carlos H.N. Lahoz , Chiara Manfletti , Rodrigo M. Silveira , Diogo S. Castilho , Karen S. Andrade
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引用次数: 0

Abstract

The proposed analysis consists of identifying systemic aspects that can influence safety and mission fulfillment in the Evaluation and Acceptance Processes of Space Systems and Operations for Launch through the application of System-Theoretic Process Analysis, a technique capable of identifying potential hazardous design and operational flaws, including system design errors and unsafe interactions among multiple procedures and system components. This research identifies losses, hazards, system-level safety constraints, the control structure of the general system, unsafe control actions, loss scenarios that could occur and related causal factors, detecting improvement possibilities for future verifications, evaluations, approvals, and acceptances of space systems and launch operations. These findings can promote safety in space system designs and operations, supporting the activities conducted by launch vehicle and payload developers, certification authorities, and launch centers management, enabling means to proactively act in order to mitigate risks, avoiding unsafe actions and undesired system behaviors, or even to mitigating their consequences. The practical applications of this work can result in safety and mission fulfillment improvements for safety management systems, launch approval regulations and standards; launch operation procedures; space systems design; vehicle, payload, and ground support equipment productions; systems testing; and launch authorization processes.

基于系统理论方法的空间系统和操作评估与验收过程的安全分析
拟议的分析包括通过应用系统理论过程分析,确定在空间系统和发射操作的评估和验收过程中可能影响安全和任务完成的系统方面,系统理论过程分析是一种能够确定潜在危险的设计和操作缺陷的技术,包括系统设计错误以及多个程序和系统组件之间不安全的相互作用。这项研究确定了损失、危险、系统级安全限制、一般系统的控制结构、不安全的控制行动、可能发生的损失情况和相关的因果因素,为今后空间系统和发射操作的验证、评估、批准和验收发现了改进的可能性。这些发现可以促进空间系统设计和运行的安全,支持运载火箭和有效载荷开发人员、认证机构和发射中心管理层开展的活动,使他们能够采取主动行动,以减轻风险,避免不安全的行动和不希望出现的系统行为,甚至减轻其后果。这项工作的实际应用可以改进安全管理系统、发射审批条例和标准、发射操作程序、空间系统设计、运载火箭、有效载荷和地面支持设备生产、系统测试和发射授权程序的安全和任务完成情况。
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来源期刊
Journal of Space Safety Engineering
Journal of Space Safety Engineering Engineering-Safety, Risk, Reliability and Quality
CiteScore
2.50
自引率
0.00%
发文量
80
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