Browsing by Subject "cyber-physical systems"
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Item A FRAMEWORK FOR ANALYZING THE IMPACT OF ACTUATION LIMITS ON CYBER-PHYSICAL SYSTEMS(2020-01-20) Bohon, Scott; Robucci, Ryan; Computer Science and Electrical Engineering; Engineering, ComputerCyber-physical systems (CPS) are smart systems of networked computing and physical components. CPS are ubiquitous in industrial and consumer applications, ranging from control systems in smart power grids to phone touch screens. Unfortunately, the cyber component of CPS may introduce attack vectors by which a bad actor can cause harm to the physical system. A famous example includes the Stuxnet computer worm which inflicted physical damage to Iranian nuclear centrifuges. A cyber-physical mitigation strategy against CPS attacks is actuation limits. Actuation limits are constraints intentionally imposed on the actuators of a CPS to mitigate actuation behaviors which lead to dangerous states. Actuation limits, while able to constrain an attacker, may introduce performance penalties. In this research, a framework is presented which scores actuation limit schemes on their attack resilience and performance integrity. Attack resilience is measured by subjecting the CPS to a battery of cyber-physical attacks and observing if actuation limits were successful in mitigation. Performance integrity is measured by comparing the performance of the CPS with and without actuation limits. An algorithm to combine actuation limit schemes to yield an amalgam scheme with improved scores is presented. Actuation limits for a simulated ship autopilot are scored to demonstrate the utility of the framework. Low scores were observed in two general cases. Overly constraining actuation limits scored poorly in attack resilience and performance integrity as the required operating behaviors were compromised by the limits. Overly broad actuation limits preserved performance integrity yet did not sufficiently constrain an attacker and exhibited poor attack resilience. Amalgam schemes demonstrated high scores overall by only constraining the CPS in high risk states. The results of the research indicate the proposed framework can be a useful tool in evaluating the effectiveness of actuation limits as an attack mitigation strategy in CPS.Item Context-Sensitive Policy Based Security in Internet of Things(IEEE, 2016-05-18) Das, Prajit Kumar; Narayanan, Sandeep Nair; Sharma, Nitin Kumar; Joshi, Anupam; Joshi, Karuna Pande; Finin, TimAccording to recent media reports, there has been a surge in the number of devices that are being connected to the Internet. The Internet of Things (IoT), also referred to as Cyber-Physical Systems, is a collection of physical entities with computational and communication capabilities. The storage and computing power of these devices is often limited and their designs currently focus on ensuring functionality and largely ignore other requirements, including security and privacy concerns. We present the design of a framework that allows IoT devices to capture, represent, reason with, and enforce information sharing policies. We use Semantic Web technologies to represent the policies, the information to be shared or protected, and the IoT device context. We discuss use-cases where our design will help in creating an "intelligent" IoT device and ensuring data security and privacy using context-sensitive information sharing policies.