Communicating sequential processes
Communicating sequential processes
Fundamentals of software engineering
Fundamentals of software engineering
Communicating and mobile systems: the &pgr;-calculus
Communicating and mobile systems: the &pgr;-calculus
Communication and Concurrency
Notations for the Specification and Verification of Composite Web Services
EDOC '04 Proceedings of the Enterprise Distributed Object Computing Conference, Eighth IEEE International
A survey and analysis of Electronic Healthcare Record standards
ACM Computing Surveys (CSUR)
Web Service Composition Approaches: From Industrial Standards to Formal Methods
ICIW '07 Proceedings of the Second International Conference on Internet and Web Applications and Services
Model checking for E-business control and assurance
IEEE Transactions on Systems, Man, and Cybernetics, Part C: Applications and Reviews
Model checking of healthcare domain models
Computer Methods and Programs in Biomedicine
Systems engineering principles for the design of biomedical signal processing systems
Computer Methods and Programs in Biomedicine
Towards the Systematic Development of Medical Networking Technology
Journal of Medical Systems
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This paper provides formal specification of interactions in typical public health surveillance systems involving healthcare agencies at local, state and federal levels. Although few standards exist for exchange of healthcare information, there is a general lack of formal models of the protocols involved in the interactions between the agencies. The quality of medical care provided is an end result of a well designed choreography of diverse services provided by different healthcare entities. One of the major challenges in this field appears to be explicit formal specification of such interactions. Such formal specification work is the first step leading to both design and verification of important properties of public healthcare systems. @p-calculus is a formal modeling technique for precise specification of semantics in interacting concurrent systems where mobility is involved. Two different configurations of public health surveillance systems are modelled using @p-calculus in this paper.