id: 05918781 dt: a an: 05918781 au: Buchmann, A.; Pfohl, H.-Chr.; Appel, S.; Freudenreich, T.; Frischbier, S.; Petrov, I.; Zuber, C. ti: Event-driven services: Integrating production, logistics and transportation. so: Maximilien, E. Michael (ed.) et al., Service-oriented computing. ICSOC 2010 international workshops: PAASC, WESOA, SEE, and SOC-LOG, San Francisco, CA, USA, December 7‒10, 2010. Revised selected papers. Berlin: Springer (ISBN 978-3-642-19393-4/pbk). Lecture Notes in Computer Science 6568, 237-241 (2011). py: 2011 pu: Berlin: Springer la: EN cc: ut: events; complex event processing; monitoring; services; event warehouse; agility; production; logistics; transportation ci: li: doi:10.1007/978-3-642-19394-1_26 ab: Summary: Today’s production processes are characterized by global supply chains, short lifecycles, and an increasing personalization of goods. To satisfy the demands for agility we must integrate the production with the logistics processes and knowledge about the underlying transportation services and infrastructure. This requires continuous monitoring and reacting to events. Service-oriented architectures have provided a platform for structuring services within and across enterprises. However, for an effective monitoring and timely reaction to emerging situations it is crucial to integrate event processing and service orientation. In this position paper we show how event processing and service orientation can be combined into an effective delivery platform for an integrated coordination of the flow of goods. We show how simple events, e.g. RFID tag detections or simple sensor readings, can be integrated into abstract events that are meaningful to invoke logistics services and improve the celerity of responses. We propose filtering, aggregating, and on-the-fly analysis of the continuous flow of events and make events persistent in an event warehouse for auditability and input to future planning processes. rv: