2,888 research outputs found
Realizing Adaptive Process-aware Information Systems with ADEPT2
In dynamic environments it must be possible to quickly implement new business processes, to enable ad-hoc deviations from the defined business processes on-demand (e.g., by dynamically adding, deleting or moving process activities), and to support dynamic process evolution (i.e., to propagate process schema changes to already running process instances). These fundamental requirements must be met without affecting process consistency and robustness of the process-aware information system. In this paper we describe how these challenges have been addressed in the ADEPT2 process management system. Our overall vision is to provide a next generation technology for the support of dynamic processes, which enables full process lifecycle management and which can be applied to a variety of application domains
Performance assessment of an architecture with adaptative interfaces for people with special needs
People in industrial societies carry more and more portable electronic devices (e.g., smartphone or console) with some kind of wireles connectivity support. Interaction with auto-discovered target devices present in the environment (e.g., the air conditioning of a hotel) is not so easy since devices may provide inaccessible user interfaces
(e.g., in a foreign language that the user cannot
understand). Scalability for multiple concurrent users and response times are still problems in this domain. In this paper, we assess an interoperable architecture, which enables interaction between people with some kind of special need and their environment. The assessment, based on performance patterns and antipatterns, tries to detect
performance issues and also tries to enhance the architecture design for improving system performance. As a result of the assessment, the initial design changed substantially. We refactorized the design according to the Fast Path pattern and The Ramp antipattern. Moreover,
resources were correctly allocated. Finally, the required response time was fulfilled in all system scenarios. For a specific scenario, response time was reduced from 60 seconds to less than 6 seconds
Component-based control system development for agile manufacturing machine systems
It is now a common sense that manufactures including machine suppliers and system
integrators of the 21 st century will need to compete on global marketplaces, which are
frequently shifting and fragmenting, with new technologies continuously emerging.
Future production machines and manufacturing systems need to offer the "agility"
required in providing responsiveness to product changes and the ability to
reconfigure. The primary aim for this research is to advance studies in machine
control system design, in the context of the European project VIR-ENG - "Integrated
Design, Simulation and Distributed Control of Agile Modular Machinery"
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