Self-integrating Systems: Mastering Continuous Change

  in Special Issue   Posted on July 29, 2019

Information for the Special Issue

Submission Deadline: Fri 20 Dec 2019
Journal Impact Factor : 3.997
Journal Name : Future Generation Computer Systems
Journal Publisher:
Website for the Special Issue: https://www.journals.elsevier.com/future-generation-computer-systems/call-for-papers/self-integrating-systems-mastering-continuous-change
Journal & Submission Website: https://www.journals.elsevier.com/future-generation-computer-systems

Special Issue Call for Papers:

=== GUEST EDITORS ===

  • Kirstie Bellman (Topcy House Consulting / The Aerospace Corp., US)
  • Ada Diaconescu (Telecom Paris, Institut Polytechnique de Paris, FR)
  • Sven Tomforde (Christian-Albrechts-Universität zu Kiel, DE)

=== THE JORUNAL ===

\”Future Generation Computer Systems\”, a forum for the publication of peer-reviewed, high-quality original papers showing advances in distributed systems, collaborative environments, high performance and high-performance computing, Big Data on such infrastructures as grids, clouds and the Internet of Things (IoT), is seeking original manuscripts for a Special Issue on Self-integrating Systems: Mastering Continuous Change (SELF-INTEGRATION) scheduled to appear in July 2020.

=== SCOPE OF THE SPECIAL ISSUE ===

The goal of this special issue if to highlight the current state-of-the-art in self-improving system integration and to foster novel developments. This corresponds to two closely coupled concepts: self-integration and self-improvement. 

Self-integration: In engineering, the notion of integration describes a process in which several component (sub-)systems are brought together and interconnected into a unified system. This aims to achieve a correctly working unit, where the subsystems work together to provide desired functions, with acceptable performance and dependability properties. In classic engineering, the integration of (sub-)systems has been done at design-time, with rigid specifications and testing of (sub-)system interfaces and performance. However, with increasingly networked and open systems (e.g., internet of things, smart homes, cities and electric grids), we now face the challenge of integrating systems dynamically, as rapidly as possible. Because of the dynamic contexts – where goals, resources, and knowledge required for integration change rapidly – increasing efforts have been directed towards new processes and computations that allow intelligent systems to do most of the integration themselves. Hence, self-integration is defined as an ongoing autonomous process for linking a potentially large set of heterogeneous computing systems, devices, and software applications; so as to meet system goals. The linking itself is done physically or functionally. We consider this process to be continuous, i.e. it is never finished, as the way in which the integrated elements – software and hardware – act together must adapt to external changes, goal evolutions and autonomous decisions of these elements.

Within this process, two major tasks are performed: (i) connections between subsystems are established, tested, and assessed; and, (ii) the particular subsystems in combination with their behavioural strategies are configured depending on the operational and functional area. This has a strong overlap with the concept of \”self-organisation\”: (i) connecting subsystems or elements refers to building the system\’s structure; and, (ii) configuration is mainly concerned with defining the desired behaviour. It also relies on concepts from self-aware computing systems that use internal knowledge and learning processes to reason about their resources and state. Multi-agent systems also provide relevant concepts in terms of organisational paradigms, where agents can cooperate or compete, forming hierarchies, coalitions, teams, federations, societies and so on.

Self-improvement: implies that self-integrating systems do not settle for the status quo, but rather rely on continuous learning to optimise their behaviours with respect to their goals; even though they may or may not be able to reach optimal states or behaviours.

=== AREAS OF INTEREST ===

In this special issue, we aim to summarise the current developments in autonomous and self-improving system-integration. We expect contributions to cover at least one of the following aspects of self-integration (although this list is by no means exhaustive, leaving the call open to other related contributions):

– Goal specifications and conflict management for self-integrating systems

– Performance and dependability aspects and quantification methods

– Learning techniques for self-improving self-integration

– Learning techniques that work with sparse feedback and/or prior knowledge

– Modelling expected behaviour and mutual influences in system-of-systems constellations

– Real-time prioritization; representation of relevancy and importance

– Runtime model integration (i.e., Models@runtime) also takling timing into consideration (i.e., real-time restrictions)

– Decision and planning techniques for self-adapting the integration status at runtime

– Mechanisms for guiding the behaviour of autonomous entities without direct intervention (e.g. using norms)

– Runtime system verification and validation

– Security issues and guarantees in self-integrating systems

– Testbeds and benchmarks for self-integrating systems

=== IMPORTANT DATES ===

Submission deadline . . . . . . . . . . . . . . . . . . . . . December 20th, 2019

Final version of the paper . . . . . . . . . . . . . . . . . . July 31st, 2020

=== SUBMISSION GUIDELINES ===

The FGCS\’s submission system will be open for submissions to our Special Issue from 1st of September 2019. When submitting your manuscript please select the article type \”SI: SELF-INTEGRATIOM\”. Please submit your manuscript before 20th of December 2019.

All submissions deemed suitable to be sent for peer review will be reviewed by at least two independent reviewers. Once your manuscript is accepted, it will go into production, and will be simultaneously published in the current regular issue and pulled into the online Special Issue. Articles from this Special Issue will appear in different regular issues of the journal, though they will be clearly marked and branded as Special Issue articles.

Please see an example here: https://www.sciencedirect.com/journal/science-of-the-total-environment/special-issue/10SWS2W7VVV

Please ensure you read the Guide for Authors before writing your manuscript. The Guide for Authors and link to submit your manuscript is available on the Journal\’s homepage at: https://www.elsevier.com/journals/future-generation-computer-systems/0167-739X?generatepdf=true

Inquiries, including questions about appropriate topics, may be sent electronically to Kirstie Bellman , Ada Diaconescu , and Sven Tomforde

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