FINAL CALL FOR PAPERS

ATAED’16 BIOPN’16 PNSE'16

Workshop on Algorithms & Theories for the Analysis of Event Data
Workshop on Biological Processes & Petri Nets
Workshop on Petri Nets and Software Engineering

Torun, Poland, June 20-21, 2016
International satellite events of Petri Nets 2016 and ACSD 2016

37th INTERNATIONAL CONFERENCE ON
APPLICATION AND THEORY OF PETRI NETS AND CONCURRENCY
and
16th INTERNATIONAL CONFERENCE ON
APPLICATION OF CONCURRENCY TO SYSTEM DESIGN

More information:

ATAED’16: http://www.fernuni-hagen.de/ataed2016/

BIOPPN’16: http://www-dssz.informatik.tu-cottbus.de/BME/BioPPN2016

PNSE’16: http://www.informatik.uni-hamburg.de/TGI/events/pnse16/


ATAED’16 (deadline: April 15): The workshop aims to attract papers related to process mining, region theory and other synthesis techniques. These techniques have in common that "lower level" behavioral descriptions (event logs, sets of partial orders, transition systems, etc.) are used to create "higher level" process models (e.g., various classes of Petri nets, BPMN, or UML activity diagrams).

BIOPNN’16 (deadline: April 20): The goal of this workshop is to provide a platform for researchers aiming at fundamental research and real life applications of Petri nets and other concurrency models in Systems and Synthetic Biology. Systems and Synthetic Biology are full of challenges and open issues, with adequate modelling and analysis techniques being one of them, specifically when multiple scales and multiple levels come into play. We are looking for approaches helping to bridge the gap between different formalisms, with Petri nets being one them, as they offer a family of related models, which can be used as a kind of umbrella formalism - models may share the network structure, but vary in their kinetic details (quantitative information).

PNSE’16 (deadline: April 10): For the successful realization of complex systems of interacting and reactive software and hardware components the use of a precise language at different stages of the development process is of crucial importance. Petri nets are becoming increasingly popular in this area, as they provide a uniform language supporting the tasks of modeling, validation, and verification. Their popularity is due to the fact that Petri nets capture fundamental aspects of causality, concurrency and choice in a natural and mathematically precise way without compromising readability. The use of Petri nets (P/T-nets, colored Petri nets and extensions) in the formal process of software engineering, covering modeling, validation, and verification, will be presented as well as their application and tools supporting the disciplines mentioned above.