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PALMS-CI: A Policy-driven CyberinfrastructureFor the Exposure Biology Community
Barry Demchak ([email protected]), Jacqueline Kerr, Gregory Norman, Ernesto Ramirez, Fred Raab, Dane Lotspeich, Ingolf Krüger, and Kevin Patrick
California Institute for Telecommunications and Information Technology, San Diego Division
The Problem
Build Cyberinfrastructures (CI)† to serve stakeholder communities• Support research workflows• Workflows are templates to be
customized by stakeholders• Traditional development cycles are
long & mis-target stakeholder concerns
• Healthy CIs solve all requirements simultaneously & continuously
Solve Stakeholder Concerns• Support emerging workflows• Multifactor access control• Confidentiality & privacy (HIPAA/IRB)• High availability & reliability• Scalability (bandwidth/storage/users)• Auditability• Provenance & curation
Challenges
Requirement elicitation• Functional & quality requirements• Crosscutting concerns• Precise & accurate formulation
Enactment• Low latency to implementation• Faithful to original requirement• Conflict & error detection• Scalable to large data flows
End-to-end Traceability
The Solution
Model-based Policy Elicitation• Stakeholders specify policies
directly1,2 on workflow models (UML Activity Diagrams4) using visual Domain Specific Language (DSL5)
• Policies specify alternate workflows & data flow transformations
• Cross-pollination of other requirement domains
Service Oriented Architecture logical/deployment models• Leverage standard patterns3:
strategy, messaging, routing, & composite pattern (i.e., systems-of-systems)
• Leverage role-based interaction, choreography, & interceptor techniques
Future Work
Policy Concerns• Expand repertoire of policy patterns• Define policy composition rules• Code generation and deployment• Conflict/completeness checking• Scalable and distributed execution
Domain Specific Language• Leverage relationships with other
visual notations (e.g., Business Process Modeling Notation)
• Alignment with additional policy patterns & domains
This material is based upon work supported by the National Institutes of Health under Grant No 1U01CA130771-01and the National Science Foundation under Grant No CCF-0702791
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†Cyberinfrastructures (CI) f
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PALMS ReferencesPhysical Activity Location Measurement System to understand where activity-related energy expenditure occurs in humans as a function of time and space. Harvests data from wearable devices on small and large scales, provides framework for research and analysis, and has ultimate goal of discovering methods for engineering better health.
An Internet-based research computing environment that supports data acquisition, data storage, data management, data integration, data mining, data visualization, and other computing and information processing services. Different stakeholders produce, consume, manage, and govern a CI, and their requirements must be simultaneously met or else the integrity of the CI degrades.
1. J. Juerjens. Security Systems Development with UML. Springer-Verlag Berlin Heidelberg, 2003.2. T. Lodderstedt, D. Basin, and J. Doser. SecureUML: A UML-Based Modeling Language for Model-Driven Security. Proceedings of the
5th International Conference on The Unified Modeling Language. pp426-441. Springer Verlag, 2002.3. M. Arrott, B. Demchak, V. Ermagan, C. Farcas, E. Farcas, I. H. Krüger, and M. Menarini. Rich Services: The Integration Piece of the
SOA Puzzle. In Proceedings of the IEEE International Conference on Web Services (ICWS), Salt Lake City, Utah, USA. IEEE, Jul. 2007, pp. 176-183.
4. A. Bhattacharjee and R. Shyamasundar. Activity Diagrams: A Formal Framework to Model Business Processes and Code Generation. Journal of Object Technology. Vol 8, No 1, Jan 2009.
5. J. Viega. Building security requirements with CLASP. Proceedings of the 2005 Workshop on Software Engineering for Secure Systems – Building Trustworthy Applications. St Louis, MO, 2005.
PALMS Cyberinfrastructure
Sensor Data
PALMS Browser
Stakeholder Policies
Shared Data