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Resilient Critical Infrastructure Management using Service Oriented Architecture: A Test Case using Airport Collaborative Decision Making

Resilient Critical Infrastructure Management using Service Oriented Architecture: A Test Case using Airport Collaborative Decision Making
Resilient Critical Infrastructure Management using Service Oriented Architecture: A Test Case using Airport Collaborative Decision Making
The SERSCIS approach aims to support the use of interconnected systems of services in Critical Infrastructure (CI) applications. The problem of system interconnectedness is aptly demonstrated by ‘Airport Collaborative Decision Making’ (A-CDM). Failure or underperformance of any of the interlinked ICT systems may compromise the ability of airports to plan their use of resources to sustain high levels of air traffic, or to provide accurate aircraft movement forecasts to the wider European air traffic management systems. The proposed solution is to introduce further SERSCIS ICT components to manage dependability and interdependency. These use semantic models of the critical infrastructure, including its ICT services, to identify faults and potential risks and to increase human awareness of them. Semantics allows information and services to be described in such a way that makes them understandable to computers. Thus when a failure (or a threat of failure) is detected, SERSCIS components can take action to manage the consequences, including changing the interdependency relationships between services. In some cases, the components will be able to take action autonomously — e.g. to manage ‘local’ issues such as the allocation of CPU time to maintain service performance, or the selection of services where there are redundant sources available. In other cases the components will alert human operators so they can take action instead. The goal of this paper is to describe a Service Oriented Architecture (SOA) that can be used to address the management of ICT components and interdependencies in critical infrastructure systems.
resilience, QoS, SOA, critical infrastructure, SLA
Hall-May, Martin
f082897f-a6ec-4fae-b555-a514ae3bd717
Surridge, Mike
3bd360fa-1962-4992-bb16-12fc4dd7d9a9
Nossal-Tuyeni, Roman
aef8a76f-c1f5-41e2-96ec-3bc15831fd45
Hall-May, Martin
f082897f-a6ec-4fae-b555-a514ae3bd717
Surridge, Mike
3bd360fa-1962-4992-bb16-12fc4dd7d9a9
Nossal-Tuyeni, Roman
aef8a76f-c1f5-41e2-96ec-3bc15831fd45

Hall-May, Martin, Surridge, Mike and Nossal-Tuyeni, Roman (2011) Resilient Critical Infrastructure Management using Service Oriented Architecture: A Test Case using Airport Collaborative Decision Making. International Journal of Applied Mathematics and Computer Science (AMCS), 21 (2).

Record type: Article

Abstract

The SERSCIS approach aims to support the use of interconnected systems of services in Critical Infrastructure (CI) applications. The problem of system interconnectedness is aptly demonstrated by ‘Airport Collaborative Decision Making’ (A-CDM). Failure or underperformance of any of the interlinked ICT systems may compromise the ability of airports to plan their use of resources to sustain high levels of air traffic, or to provide accurate aircraft movement forecasts to the wider European air traffic management systems. The proposed solution is to introduce further SERSCIS ICT components to manage dependability and interdependency. These use semantic models of the critical infrastructure, including its ICT services, to identify faults and potential risks and to increase human awareness of them. Semantics allows information and services to be described in such a way that makes them understandable to computers. Thus when a failure (or a threat of failure) is detected, SERSCIS components can take action to manage the consequences, including changing the interdependency relationships between services. In some cases, the components will be able to take action autonomously — e.g. to manage ‘local’ issues such as the allocation of CPU time to maintain service performance, or the selection of services where there are redundant sources available. In other cases the components will alert human operators so they can take action instead. The goal of this paper is to describe a Service Oriented Architecture (SOA) that can be used to address the management of ICT components and interdependencies in critical infrastructure systems.

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Published date: June 2011
Related URLs:
Keywords: resilience, QoS, SOA, critical infrastructure, SLA
Organisations: Electronics & Computer Science, IT Innovation
Learn more about Electronics & Computer Science research

Identifiers

Local EPrints ID: 272393
URI: http://eprints.soton.ac.uk/id/eprint/272393
PURE UUID: 41204489-640b-465c-931f-b616fa74b3b9

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Date deposited: 01 Jun 2011 13:33
Last modified: 14 Mar 2024 10:00

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Contributors

Author: Martin Hall-May
Author: Mike Surridge
Author: Roman Nossal-Tuyeni

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