Self-aware and self-expressive driven fault tolerance for embedded systems

机译：嵌入式系统的自我感知和自我表达驱动的容错能力

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摘要

The growing complexity and size of computing systems as well as the unpredictability about changes in their deployment environment make their design increasingly challenging; especially for safety critical systems. Specifically the recognition of a fault within a system might be not only time consuming but also difficult in terms of reliability and completeness. This paper presents an approach to fault tolerance based on statistical features using the concepts of self-awareness and self-expression. These features characterize the behaviour of components, they are weighted and can be compared to measured values during runtime to characterize the well-behaviour of the system. Simulations show that this approach, used with the self-awareness and self-expression system layers, combines failure recognition and recovery with effective system design.

机译：计算系统的复杂性和规模不断增长，以及部署环境变化的不可预测性，使得其设计越来越具有挑战性。特别是对于安全关键型系统。特别地，对系统内故障的识别可能不仅耗时，而且在可靠性和完整性方面也很困难。本文提出了一种基于统计特征的容错方法，该方法使用了自我意识和自我表达的概念。这些功能可以表征组件的行为，可以对其进行加权，并且可以在运行期间将其与测量值进行比较，以表征系统的良好性能。仿真表明，这种与自我意识和自我表达系统层结合使用的方法将故障识别和恢复与有效的系统设计结合在一起。

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来源
《2014 IEEE Symposium on Intelligent Embedded Systems》|2014年|27-33|共7页
会议地点 Orlando FL(US)
作者
Nya Tatiana Djaba; Stilkerich Stephan C.; Siemers Christian;
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作者单位

Innovations, Airbus Group, Munich, Germany;

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会议组织
原文格式 PDF
正文语种 eng
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关键词
embedded systems; fault tolerant computing; safety-critical software; statistical analysis; system recovery; completeness; computing system; deployment environment; embedded systems; failure recognition; failure recovery; fault recognition; reliability; safety critical system; self-aware driven fault tolerance; self-expressive driven fault tolerance; statistical feature; system design; Fault tolerance; Fault tolerant systems; Instruction sets; Mathematical model; Safety; Temperature measurement; Time measurement; embedd;

机译：嵌入式系统;容错计算;安全关键软件;统计分析;系统恢复;完整性;计算系统;部署环境;嵌入式系统;故障识别;故障恢复;故障识别;可靠性;安全关键系统;自我驱动的容错能力自表达驱动容错;统计特征;系统设计;容错;容错系统;指令集;数学模型;安全性;温度测量;时间测量;嵌入式;

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专利

1. Architectural Aspects of Self-Aware and Self-Expressive Computing Systems: From Psychology to Engineering [J] . Lewis Peter R., Chandra Arjun, Faniyi Funmilade, Computer . 2015,第8期

机译：自我意识和自我表现计算系统的体系结构方面：从心理学到工程学
2. Impact of Software Fault Tolerance to Fault Effects in OS-Driven RT Systems [J] . Strnadel, Josef, Slima?ík, Computing and informatics . 2015,第4期

机译：操作系统驱动的RT系统中软件容错对故障影响的影响
3. IMPACT OF SOFTWARE FAULT TOLERANCE TO FAULT EFFECTS IN OS-DRIVEN RT SYSTEMS [J] . Josef Strnadel, Frantisek Slimarik Computing and informatics . 2014,第4期

机译：软件容错对操作系统驱动的RT系统中故障影响的影响
4. Self-aware and self-expressive driven fault tolerance for embedded systems [C] . Nya Tatiana Djaba, Stilkerich Stephan C., Siemers Christian IEEE Symposium on Intelligent Embedded Systems . 2014

机译：嵌入式系统的自我感知和自我达到驱动的容错容错
5. Model-driven fault-tolerance provisioning for component-based distributed real-time embedded systems. [D] . Tambe, Sumant. 2010

机译：基于模型的分布式实时嵌入式系统的模型驱动的容错配置。
6. A Data-Driven Scheme for Fault Detection of Discrete-Time Switched Systems [O] . Hao Zhao, Hao Luo, Yunkai Wu 2021

机译：用于离散时间交换系统的故障检测数据驱动方案
7. Architectural aspects of self-aware and self-expressive computing systems:from psychology to engineering [O] . Lewis, Peter R., Chandra, Arjun, Faniyi, Funmilade, 2015

机译：自我意识和自我表达的计算系统的体系结构方面：从心理学到工程学
8. Energy-Aware Fault Tolerance in Fixed-Priority Real-Time Embedded Systems. [R] . Zhang, Y., Chakrabarty, K., Swaminathan, V. 2005

机译：固定优先级实时嵌入式系统中的能量感知容错。

Self-aware and self-expressive driven fault tolerance for embedded systems

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