SASO 2014
SASO2012

SASO 2014


SASO 2014 - Eighth IEEE International Conference on Self-Adaptive and Self-Organizing Systems - London, UK - 8-12 September 2014

Contact

saso2014@imperial.ac.uk

Latest News

Hosting Institution

Important Dates

Paper Submission Deadline: July 11, 2014 (passed)
Paper Acceptance Notification: July 30, 2014 (passed)
Camera-Ready Deadline: August 6, 2014
Workshop Dates: September 8 and 12, 2014

Workshops

2nd Workshop on Fundamentals of Collective Adaptive Systems (FoCAS 2014)

Workshop on Quality Assurance for Self-adaptive, Self-organising Systems (QA4SASO)

2nd Workshop on Self-Adaptive and Self-Organising Socio-Technical Systems (SASO^ST 2014)

Workshop on Self-Adaptive Self-Organising Manufacturing Systems (SASOMS 2014) CANCELLED

Workshop on Self-Improving System Integration (SISSY 2014)


2nd Workshop on Fundamentals of Collective Adaptive Systems
(FoCAS 2014)

Monday, September 8th, 2014

http://focas.eu/focas-workshop-saso-2014

Organizing Committee:

  • Emma Hart, Edinburgh Napier University, UK
  • Giacomo Cabri, Università di Modena e Reggio Emilia, Italy

Collective Adaptive Systems (CAS) is a broad term that describes large scale systems that comprise of many units/nodes, each of which may have their own individual properties, objectives and actions. Decision-making in such a system is distributed and possibly highly dispersed, and interaction between the units may lead to the emergence of unexpected phenomena. CASs are open, in that nodes may enter or leave the collective at any time, and boundaries between CASs are fluid. The units can be highly heterogeneous (computers, robots, agents, devices, biological entities, etc.), each operating at different temporal and spatial scales, and having different (potentially conflicting) objectives and goals, even if often the system has a global goal that is pursued by means of collective actions. Our society increasingly depends on such systems, in which collections of heterogeneous technological nodes are tightly entangled with human and social structures to form artificial societies. Yet, to properly exploit them, we need to develop a deeper scientific understanding of the principles by which they operate, in order to better design them.


This workshop solicits papers that address new methodologies, theories and principles that can be used in order to develop a better understanding of the fundamental factors underpinning the operation of such systems, so that we can better design, build, and analyse such systems. We welcome inter-disciplinary approaches.


Invited contributions from the workshop will be published in a Special Issue of the Journal of Scalable Computing: Practice and Experience (http://scpe.org/)



Workshop on Quality Assurance for Self-adaptive, Self-organising Systems
(QA4SASO)

Friday, September 12th, 2014

http://qa4saso.isse.de

Organizing Committee:

  • Wolfgang Reif Augsburg University, Germany Institute for Software & Systems Engineering reif@informatik.uni-augsburg.de
  • Franz Wotawa Technical University of Graz, Austria Institute for Software Technology wotawa@ist.tugraz.at
  • Tom Holvoet Catholic University of Leuven, Belgium Department of Computer Science tom.holvoet@cs.kuleuven.be

For all enquiries about the workshop, please contact:

  • Benedikt Eberhardinger Augsburg University, Germany Institute for Software & Systems Engineering benedikt.eberhardinger@informatik.uni-augsburg.de

Developing self-adaptive, self-organising systems (SASO) that fulfil the requirements of different stakeholders is no simple matter. Quality assurance is required at each phase of the entire development process, starting from requirements elicitation, system architecture design, agent design, and finally in the implementation of the system. The quality of the artefacts from each development phase affects the rest of the system, since all parts are closely related to each other. Furthermore, the shift of adaption decisions from design-time to run-time - necessitated by the need of the systems to adapt to changing circumstances - makes it difficult, but even more essential, to assure high quality standards in these kind of systems. Accordingly, the analysis and evaluation of these self-* systems has to take into account the specific operational context to achieve high quality standards.


2nd Workshop on Self-Adaptive and Self-Organising Socio-Technical Systems
(SASO^ST 2014)

Friday, September 12th, 2014

http://sasost.isse.de

Organizing Committee:

  • Gerrit Anders, University of Augsburg, Germany, anders@informatik.uni-augsburg.de
  • Jean Botev, University of Luxembourg, Luxembourg, jean.botev@uni.lu
  • Markus Esch, Fraunhofer FKIE, Germany, markus.esch@fkie.fraunhofer.de

The design and operation of computer systems has traditionally been driven by technical aspects and considerations. However, the usage characteristics of information and communication systems are both implicitly and explicitly determined by social interaction and the social graph of users. This aspect is becoming more and more evident with the increasing popularity of social network applications on the internet. This workshop will address all aspects of self-adaptive and self-organising mechanisms in socio-technical systems, covering different perspectives of this exciting research area ranging from normative and trust management systems to socio-inspired design strategies for distributed algorithms, collaboration platforms and communication protocols.


SASO^ST 2014 has a call for papers and a call for talks



Workshop on Self-Adaptive Self-Organising Manufacturing Systems
(SASOMS 2014)
CANCELLED

Monday, September 8th, 2014

Organizing Committee:

  • Svetan Ratchev, University of Nottingham
  • David Sanderson, University of Nottingham
  • Derek McAuley, Connected Digital Economy Catapult

Please contact sasoms@nottingham.ac.uk for all enquiries.


Economic prosperity increasingly depends on maintaining and further expanding a resilient and sustainable manufacturing sector based on sophisticated technologies, relevant knowledge and skill bases, and a manufacturing infrastructure that has the ability to produce a high variety of complex products faster, better, and cheaper. Manufacturing competitiveness depends on maximising the utilisation of all available resources, empowering human intelligence and creativity, and capturing and capitalising on available information and knowledge for the whole product life cycle. It requires an infrastructure that can quickly respond to consumer and producer requirements, and minimise energy, transport, materials, and resource usage while maximising sustainability, safety, and economic competitiveness.


Manufacture and distribution of products in sectors such as automotive, aerospace, pharmaceutical, and medical industries is a key production process in high labour cost areas. To respond to the current challenges, manufacturers need to transform current capital-intensive assembly lines into smart systems that can react to external and internal changes and can self-heal, self-adapt, self-organise, and reconfigure.



Workshop on Self-Improving System Integration
(SISSY 2014)

Monday, September 8th, 2014

http://www.informatik.uni-augsburg.de/lehrstuehle/oc/Veranstaltungen/SISSY14/

Organizing Committee:

  • Kirstie Bellman, The Aerospace Corporation, Kirstie.L.Bellman@aero.org
  • Sven Tomforde, Universität Augsburg, Organic Computing Group, sven.tomforde@informatik.uni-augsburg.de
  • Rolf P. Würtz, Ruhr-Universität Bochum, Institute for Neural Computation, rolf.wuertz@ini.rub.de

Please contact Sven Tomforde for all enquiries.


This workshop intends to focus on the important work of applying self-X principles to the integration of "Interwoven Systems" (where an "Interwoven System" is a system cutting across several technical domains, combining traditionally engineered systems, systems making use of self-X properties and methods, and human systems). The goal of the workshop is to identify key challenges involved in creating self-integrating systems and consider methods to achieve continuous self-improvement for this integration process. The workshop specifically targets an interdisciplinary community of researchers (i.e. from systems engineering, complex adaptive systems, socio-technical systems, and the OC/AC domains) in the hope that collective expertise from a range of domains can be leveraged to drive forward research in the area.