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New Generation Computing 2014 : Special Issue on Propagation Phenomenon in Complex Networks: Theory and Practice | |||||||||||||||
Link: http://www.ii.pwr.wroc.pl/~krol/eng_EPP.htm | |||||||||||||||
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Call For Papers | |||||||||||||||
--- Special Issue CALL FOR PAPERS on New Generation Computing - Deadline for submissions: 30 Sep 2013 ---
*Title: “Propagation Phenomenon in Complex Networks: Theory and Practice” URL: http://www.ii.pwr.wroc.pl/~krol/eng_EPP.htm New Generation Computing appears in the ISI Journal Citation Reports with Impact Factor of 0.795. *Guest editor: Dariusz Krol, Bournemouth University (United Kingdom) *Scope and aim of the Special Issue Propagation and particularly error propagation are important features of every complex network. Studying this phenomenon enables us to better understand the spread of information in a network which in turn may lead to the improvement of its performance and robustness. The propagation characteristic depends heavily on the network topology and a clear so-called “butterfly effect” relationship. In response to many types of disturbances, propagation techniques play an important role in maintaining existing networks, e.g. electric power grids synchronisation, prediction of complex system behaviour, resource discovery and monitoring, biological invasions finding and damages determining, virus propagation control and restraining, social and large scale infrastructure networks decomposition and immunizing. Recently, enormous interest has been devoted to modelling cascading failures on the networks in quest of designing 'better' networks, not only robust to the random loss of nodes ('errors') like scale-free networks, but also less vulnerable to its fragility to the selective loss of the most connected ones ('attacks'). Many real-world networks have scale-free property and therefore there is a need to develop methods that would enable to protect them from both random errors and deliberate attacks. The issue is intended to support the development of propagation paradigms stemming from the cross-fertilization of various research fields. Our aim is to highlight an ongoing research on different methodological and technological approaches regarding propagation phenomenon together with their applications on various domains. We seek submissions of varied propagation strategies in the following (but not limited to): • cascading failure and the damage assessment • cellular and organic grids, agent colonies • collective behaviour of social colonies • complex network reliability estimation and improvement • epidemic spreading and immune system proliferation • knowledge propagation, coordination and integration • nature-inspired approaches to propagation phenomenon • robustness, vulnerability and immunizing • self-adaptation and evolution • self-organization and self-healing systems *Instructions to authors Manuscripts should be submitted electronically as a single PDF file through EasyChair at https://www.easychair.org/account/signin.cgi?conf=ppicn2014 The proposals should not have been published or be currently submitted for publication elsewhere. All submitted manuscripts will be peer reviewed, and will be evaluated on the basis of originality, quality and relevance to this Special Issue and the NGC, and on the basis of clarity and correct use of English. Submissions should follow the NGC guidelines. For more detailed information concerning the requirements for the journal style, please refer to the webpage at: http://www.ohmsha.co.jp/ngc/ *Important Dates Submission of full papers: 15 Oct 2013 First decision notification: 30 Nov 2013 Submission revised papers: 31 Dec 2013 Final decision notification: 15 Feb 2014 Submission camera-ready papers: 31 March 2014 Estimated publication date: July 2014 *Reviewer Board Frantisek Capkovic, Slovak Academy of Sciences, Slovakia Paul Davidsson, Blekinge Institute of Technology, Sweden Jeremiah Deng, University of Otago, New Zealand Damien Fay, Bournemouth University, United Kingdom Bogdan Gabrys, Bournemouth University, United Kingdom Nathan Griffiths, University of Warwick, United Kingdom Jason J. Jung, Yeungnam University, Korea Katarzyna Musial-Gabrys, King's College London, United Kingdom Ngoc Thanh Nguyen, Wroclaw University of Technology, Poland Andrea Omicini, University of Bologna, Italy Witold Pedrycz, University of Alberta, Canada Mirko Viroli, University of Bologna, Italy |
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