Resilient and trustworthy dynamic data-driven application systems (DDDAS) services for crisis management environments. Badr, Y., Hariri, S., Al-Nashif, Y., & Blasch, E. In Procedia Computer Science, volume 51, 2015.
abstract   bibtex   
© The Authors. Published by Elsevier B.V. Future crisis management systems need resilient and trustworthy infrastructures to quickly develop reliable applications and processes, and ensure end-to-end security, trust, and privacy. Due to the multiplicity and diversity of involved actors, volumes of data, and heterogeneity of shared information; crisis management systems tend to be highly vulnerable and subject to unforeseen incidents. As a result, the dependability of crisis management systems can be at risk. This paper presents a cloud-based resilient and trustworthy infrastructure (known as rDaaS) to quickly develop secure crisis management systems. The rDaaS integrates the Dynamic Data-Driven Application Systems (DDDAS) paradigm into a service-oriented architecture over cloud technology and provides a set of resilient DDDAS-As-A Service (rDaaS) components to build secure and trusted adaptable crisis processes. The rDaaS also ensures resilience and security by obfuscating the execution environment and applying Behavior Software Encryption and Moving Technique Defense. A simulation environment for a nuclear plant crisis management case study is illustrated to build resilient and trusted crisis response processes.
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 title = {Resilient and trustworthy dynamic data-driven application systems (DDDAS) services for crisis management environments},
 type = {inProceedings},
 year = {2015},
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 keywords = {Cloud computing,RDaaS,Resilience,Service-oriented computing,Trust and security},
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 abstract = {© The Authors. Published by Elsevier B.V. Future crisis management systems need resilient and trustworthy infrastructures to quickly develop reliable applications and processes, and ensure end-to-end security, trust, and privacy. Due to the multiplicity and diversity of involved actors, volumes of data, and heterogeneity of shared information; crisis management systems tend to be highly vulnerable and subject to unforeseen incidents. As a result, the dependability of crisis management systems can be at risk. This paper presents a cloud-based resilient and trustworthy infrastructure (known as rDaaS) to quickly develop secure crisis management systems. The rDaaS integrates the Dynamic Data-Driven Application Systems (DDDAS) paradigm into a service-oriented architecture over cloud technology and provides a set of resilient DDDAS-As-A Service (rDaaS) components to build secure and trusted adaptable crisis processes. The rDaaS also ensures resilience and security by obfuscating the execution environment and applying Behavior Software Encryption and Moving Technique Defense. A simulation environment for a nuclear plant crisis management case study is illustrated to build resilient and trusted crisis response processes.},
 bibtype = {inProceedings},
 author = {Badr, Y. and Hariri, S. and Al-Nashif, Y. and Blasch, E.},
 booktitle = {Procedia Computer Science}
}

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