|Journal of Pervasive and Mobile Computing|
|Special Issue on "Ambient Ecologies"||Guest editors: Achilles Kameas and Alessandro Saffiotti|
Submission is now closed
In order for a new technology to become widespread, novel tools and objects that realize and support it must be developed. On the road to the realization of the Ambient Intelligence (AmI) vision, new technological artifacts have started to appear and change the nature of almost every human activity. As the computer disappears, new Smart Objects appear, augmented with Information and Communication Technology (ICT) components (i.e. sensors, actuators, processor, memory, wireless communication modules) and able to receive, store, process and transmit information. Recently, Smart Objects have become mobile by combining research results from Robotics. In addition to objects, spaces also undergo a change towards becoming Smart Environments, which offer a set of digital services by embedding sensing, actuating, processing and networking infrastructure in a physical space.
An Ambient Ecology consists of smart objects, autonomous artifacts, portable objects, mobile robots, plain objects, services and people. Ambient Ecologies reside in Smart Environments. They can be thought of as distributed application platforms, which support the deployment of ubiquitous computing applications; the latter are developed as orchestrations of available services, features and capabilities in order to support user activity. While smart objects and environments focus on information storage and processing, the main feature of an Ambient Ecology is interaction: Smart Objects interact with each other and with the Smart Environment, people interact with the Ambient Ecology components or the applications these support, etc.
Ambient Ecologies integrate their, possibly heterogeneous, components, into a coherent whole. They exhibit systemic properties such as adaptation and learning; they may also exhibit emergent properties, as a consequence of the interactions among their components.
In this special issue, we are seeking high quality papers reporting original research results on topics that include, but are not limited to:
Many of the above problems are being investigated in the separate communities dealing with Robotics and with Pervasive Computing. A recent trend in the first community generalizes the notion of a "robotic system" to include distributed networked systems consisting of robots, sensors, small devices, and software agents. Witnesses of this trend are the areas of Network Robot Systems and Ubiquitous Robotics. A complementary trend the in pervasive computing community extends the notion of "pervasive computer system" to include devices that interact with the physical world through sensors and actuators. Witnesses of this trend are the areas of Cyber-Physical Systems and Cooperating Objects. Unfortunately, work along these two trends is often confined within its specific community, and potential for cross-fertilization is wasted because of lack of common venues. The ambition of this special issue is to provide a bridge between the Robotics and the Pervasive Computing communities
Authors should prepare and submit manuscripts according to the Guide for Authors as published in the Journal website at http://www.ees.elsevier.com/pmc/. Manuscripts must not have been previously published or currently under consideration for publication elsewhere. If a similar version of the paper has been published in a conference, the submitted version should contain significant additions/enhancements (with at least 33% new material). Authors are requested to submit their published conference articles and a summary document explaining the enhancements made in the journal version.
|April 26, 2010||Submissions due|
|June 14, 2011||Notification of acceptance|
|Aug 29, 2010||Final version due|
|Jan 2012||Expected publication date|
Hellenic Open University & Computer Technology Institute, Greece
Email: kameas (a) cti.gr
University of Örebro, Sweden
Email: asaffio (a) aass.oru.se
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