| Subject: | Call for Papers CoopIS 2013 |
|---|---|
| Date: | Tue, 02 Apr 2013 11:44:05 +0200 |
| From: | Johann Eder <johann.eder@aau.at> |
| To: | sfb@big.tuwien.ac.at |
11-13 Sept 2013, Graz, Austria
Acceptance rate of CoopIS in
recent years was approx. 20%
Proceedings will be published by Springer Verlag
Cooperative Information Systems (CIS) enable, support, and facilitate cooperation between people, organizations, and information systems. CIS provide enterprises and user communities with flexible, scalable and intelligent services to work together in large-scale networking environments. The CIS paradigm integratesseveral technologies: distributed systems technologies (such as middleware, cloud computing), coordination technologies (such as business process management) and integration technologies (such as service oriented computing, semantic web).
In recent years, several innovative technologies have emerged:
SaaS, cloud computing, Internet of Service, Internet of Things,
Service Oriented Computing, mash-ups, Web Services, Semantic Web
and Knowledge Grid. These new technologies have increased the
need for a tighter integration of data and knowledge with
business processes, workflows as well as with collaboration
architectures such as process choreographies
leading for example to data- or artifact-centric workflows and
business process compliance as well as in finding new ways of
analyzing data and processes in a combined manner.Building
next generation CIS requires technical breakthroughs as well as
dynamic, reliable and secure collaborative information
technologies to overcome the tough challenges that traditional
rigid distributed systems did not face. A particular challenge
in modern enterprises and entire supply chains is providing
flexible and real-world aware CIS that enable users to quickly
react to environmental changes as well as to evolving needs (e.g., by
continuously and dynamically adapting CIS).
CIS applications are heavily distributed and highly coordinated,
often exhibiting inter-organizational interaction patterns and
requiring distributed access and sharing of computing and
information resources. Typically they fall under the categories
such as e-Business, e-Commerce, e-Government, e-Health, and
e-Science.
The CoopIS
conference series has established itself as a major
international forum for exchanging ideas and results on
scientific research in fields such as computer supported
cooperative work (CSCW),
middleware, Internet & Web data management, electronic
commerce, business process management, agent technologies, and
software architectures, to name a few.
As in previous years, CoopIS'13 will be part of a joint
event with other conferences, in the context of the OTM ("OnTheMove")
federated conferences, covering different aspects of distributed
information systems.
Topics that are addressed by CoopIS'13 are logically grouped in
three broad areas, and include but are not limited to:
Process Management Technologies
• Business process management and integration
• Distributed & cross-organizational process management
• Process modelling, analysis and design
• Variability, adaptation and evolution of process-aware CIS
• Business process intelligence & discovery
• Business process compliance, governance, and risk
• Integrated product and process lifecycle management
• Data- and knowledge-intensive processes
• Integrating processes with real-world events
• Process support in smart and ubiquitous environments
• Enabling interactions among processes
• Collaborative processes
• Situation-aware processes
Architectures and Middleware for Cooperative Information
Systems (CIS)
• Dynamic business networks and the Internet of Services
• Internet of Services and Internet of Things integration
• Service-oriented middleware & Web services
• Grid computing and cloud computing
• Semantic interoperability of CIS
• Web-centric information and processing architectures
• Self-adapting and self-healing CIS
• Model-driven middleware architectures
• Multi-agent systems and architectures for CIS
• Peer-to-peer technologies
• Security & privacy in CIS
• Quality of service in CIS
• Mediation, matchmaking, and brokering architectures
• Collaboration and negotiation protocols
• Markets, auctions, exchanges, and coalitions
CIS Applications
• Collaboration and knowledge sharing in enterprises
• Innovative CIS applications for large-scale organizations
• Advances in e-science and Grid computing applications
• Medical and biological information systems
• Industrial applications of CIS
• Mobile processes and services
• E-communities and Web-based collaboration
• Enterprise 2.0
• Integrated vs. distributed supply chains
• Concurrent engineering
Conference Abstract
Submission Deadline: May 11, 2012 - May
18, 2012
Johann Eder
University of Klagenfurt
Austria
Zohra Bellahsene
Université de Montpellier II
France
Rania Y. Khalaf
IBM TJ Watson Research Center
USA
Aameek Singh, IBM Almaden Research Center
Akhil Kumar, Penn State University, USA
Amarnath Gupta, University of California San Diego, USA
Andreas Wombacher, University of Twente, The Netherlands
Arturo Molina, Tecnologico de Monterrey, Mexico
Barbara Pernici, Politecnico di Milano, Italy
Barbara Weber, University of Innsbruck, Austria
Carlo Combi, Università degli Studi di Verona, Italy
Djamal Benslimane, University of Lyon 1, France
Epaminondas Kapetanios, University of Westminster, England, UK
François B. Vernadat, European Court of Auditors, Luxemburg
Frank Leymann, University of Stuttgart, Germany
Gerald Oster, Université de Lorraine, France
Guohui Li, Huazhong University of Science and Technology, China
Hiroyuki Kitagawa, University of Tsukuba, Japan
Hong Gao, Harbin Institute of Technology, China
Jan Hidders, Delft University of Technology
Jan Mendling, Wirtschaftsuniversität Wien
Jialie Shen, Singapore Management University, Singapore
Jianwen Su, UC Santa Barbara, US
Jinjun Chen, University of Technology Sydney, Australia
John Miller, University of Georgia, USA
Joonsoo Bae, Chonbuk National Universiry, South Korea
Julius Köpke, University of Klagenfurt, Austria
Lakshmish Ramaswamy, University of Georgia, USA
Leo Mark, Georgia Institute of Technology
Manfred Reichert, Ulm University, Germany
Marco Aiello, University of Groningen, The Netherlands
Maria Esther Vidal, Universidad Simon Bolivar, Caracas Venezuela
Maristella Matera, DEI - Politecnico di Milano, Italy
Massimo Mecella, Universita' di Roma, Italy
Mathias Weske, University of Potsdam, Germany
Michele Missikoff, CNR, Italy
Miyuki Nakano, University of Tokyo, Japan
Mohand-Said Hacid, Lyon University, France
Nacer Boudjlida, Nancy-University, France
Nirmal Mukhi, IBM T J Watson Research Center
Paul Johannesson, Royal Institute of Technology (KTH), Sweden
Ralf Schenkel, Max-Planck-Institut Informatik, Germany
Rania Khalaf, IBM Research
Rik Eshuis, Eindhoven University, The Netherlands
Rong Liu, IBM Research, USA
Sanjay K. Madria, Missouri University of Science and Technology,
USA
Schahram Dustdar, Vienna University of Technology, Austria
Selmin Nurcan, University Paris, Panthéon Sorbonne, France
Shazia Sadiq, University of Queensland, Brisbane, Australia
Shuigeng Zhou, Fudan University, China
Susan Urban, Texas Tech University, USA
Ted Goranson, Earl Research, USA
Tiziana Margaria, University of Potsdam, Germany
Werner Nutt, Free University of Bozen-Bolzano, Italy
Willem-Jan van den Heuvel, Tilburg University, The Netherlands
Xiaoping Sun, Institute of Computing Technology, Chinese Academy
of Sciences
Xiaoyong Du, Renmin University of China, PR China
Zohra Bellahsene, LIRMM- CNRS/Université Montpellier 2, France