Conceptual database design: an Entity-relationship approach
Conceptual database design: an Entity-relationship approach
A meta modelng approach to workflow management systems supporting exception handling
Information Systems - Special issue on meta-modelling and methodology engineering
The entity-relationship model—toward a unified view of data
ACM Transactions on Database Systems (TODS) - Special issue: papers from the international conference on very large data bases: September 22–24, 1975, Framingham, MA
Web interface-driven cooperative exception handling in adome workflow management system
Information Systems - Special issue on the 1st web information systems engineering conference (WISE '00)
Workflow View Based E-Contracts in a Cross-Organizational E-Services Environment
Distributed and Parallel Databases
A General Theory for Evolving Application Models
IEEE Transactions on Knowledge and Data Engineering
Active Databases as a Paradigm for Enhanced Computing Environments
VLDB '83 Proceedings of the 9th International Conference on Very Large Data Bases
Composite Events for Active Databases: Semantics, Contexts and Detection
VLDB '94 Proceedings of the 20th International Conference on Very Large Data Bases
ER '94 Proceedings of the13th International Conference on the Entity-Relationship Approach
ER '96 Proceedings of the 15th International Conference on Conceptual Modeling
A Frame Work for Modeling Electronic Contracts
ER '01 Proceedings of the 20th International Conference on Conceptual Modeling: Conceptual Modeling
An EREC framework for e-contract modeling, enactment and monitoring
Data & Knowledge Engineering - Special issue: Contract-driven coordination and collaboration in the internet context
State-of-the-art in modeling and deployment of electronic contracts
CoMoGIS'06 Proceedings of the 2006 international conference on Advances in Conceptual Modeling: theory and practice
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Run-time application environments are affected by the changes in mini-world or technology changes. Large number of applications are process driven. For robust applications that can evolve over time, there is a need for a methodology that implicitly handles changes at various levels from mini-world to run-time environment through a layers of models and systems. In this paper, we present ER* methodology for evolving applications. In the context of this paper, the role of two-way active behaviour and template driven development of applications is presented. This methodology facilitates capturing active behaviour from run-time transactions and provides a means of using this knowledge to guide subsequent application design and its evolution.