增强关键嵌入式系统通信完整性的多功能错误检测策略

2014 IEEE Eighth International Conference on Software Security and Reliability-Companion Pub Date : 2014-06-30 DOI:10.1109/SERE-C.2014.18

Amira Zammali, A. D. Bonneval, Y. Crouzet

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引用次数: 1

摘要

在本文中，我们提出了一项正在进行的工作，研究一种新的错误检测策略，旨在提高系统安全水平，特别是在存在永久性错误(单个和多个)时的通信完整性。我们考虑了基于复杂网络的关键嵌入式系统，包括活跃的阶段间节点。此属性增加了永久性错误发生的概率。该策略的新颖之处在于，与使用单个错误检测函数的传统策略不同，它基于一组不同的错误检测函数。不同的使用函数必须在检测能力方面是互补的，以增加最终的错误检测能力。我们的参考应用来说明所提出的概念是飞行控制系统(FCS)。然而，我们的目标也是将所提出的方法应用到其他共享类似特性和特征的应用程序领域。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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A Multi-function Error Detection Policy to Enhance Communication Integrity in Critical Embedded Systems

We present, in this paper, ongoing work that investigates a new error detection policy aiming at enhancing the system safety level particularly communication integrity in the presence of permanent errors (single and multiple). We consider critical embedded systems which are based on complex networks including active interstage nodes. This property increases the occurrence probability of permanent errors. The novelty of the proposed policy lies in the fact that unlike classical policies using a single error detection function, it is based rather on a set of different error detection functions. The different used functions must be complementary in terms of detection capability in order to increase the resultant error detection capability. Our reference application to illustrate the proposed concepts is the Flight Control System (FCS). However, our objective is also to apply the proposed approach to other application domains sharing similar features and characteristics.

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来源期刊

2014 IEEE Eighth International Conference on Software Security and Reliability-Companion

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