基于Slack空间的自治系统动态软件组件认证

Pavan Sai Beri, Arun Mishra
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引用次数: 0

摘要

近年来,自动驾驶汽车、无人机和船舶、智能机器人等自主系统正在科学和工业领域迅速兴起,用于关键任务应用。大多数软件开发人员使用基于组件的软件工程范式来开发关键系统。基于组件的系统中的每个活动都由系统的不同组件执行,并且与系统的每个动态组件集成都为攻击者提供了将恶意代码插入系统以通过组件执行的机会。本文利用软件构件松弛空间的概念,提出了一种安全模型,用于构件与自治系统的安全集成。通过使用这种方法,关键任务自治系统可以检测被篡改的组件并防止集成它们。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Dynamic Software Component Authentication for Autonomous Systems using Slack space
Autonomous systems like self-driving cars, unmanned aerial and marine vehicles, smart robots etc., are rapidly emerging in scientific and industrial sectors for mission-critical applications, in recent times. Critical systems are developed using component-based software engineering paradigm by most of the software developers. Each activity in a component-based system is performed by different components of the system and each dynamic component integration with the system gives an opportunity for adversaries to insert malicious code into the system for execution through the components. In present work, a security model is proposed using concept of slack space of software components, for authentication of components to safely integrate with an autonomous system. By using this methodology, a mission-critical autonomous system can detect tampered components and prevent integrating them.
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