[hpc-announce] [CfP] 1st ASMECC workshop on Autonomic and Self-* Management for the Edge-Cloud Continuum (ASMECC 2023) - co-located with ACSOS'23 (FINAL CALL)
Roberto Casadei
roberto.casadei12 at studio.unibo.it
Sat May 27 03:21:29 CDT 2023
# 1st ASMECC Workshop on Autonomic and Self-* Management for the
Edge-Cloud Continuum (ASMECC 2023)
The 1st ASMECC Workshop on Autonomic and Self-* Management for the
Edge-Cloud Continuum (ASMECC 2023) is co-located with the 4th IEEE
International Conference on Autonomic Computing and Self-Organizing
Systems (ACSOS 2023) that will take place in Toronto, Canada on
September 25-29, 2023.
## Important Dates
* Abstract deadline: July 1st, 2023 (soft)
* Submission deadline: July 10th, 2023
* Notification: July 31st, 2023
* Camera-ready submission: August 5th, 2023
* Workshop date: September 25-29, 2023 (TBD)
All times are intended in Anywhere on Earth (AoE) timezone.
## Scope and Topics
Edge-cloud computing continuum paradigms (e.g. edge, fog, mist
computing) enable distributed and pervasive computing and networking to
support a variety of novel ICT-based applications and services. They
represent a deployment target and a management plane for the software
elements (components, microservices, functions) making up modern
distributed applications. The heterogeneity, pervasiveness, dynamism,
and interplay with applications, that characterise the cloud-edge
continuum provide significant opportunities and challenges, in terms of
operational flexibility and efficiency. A major challenge lies in
supporting the autonomic management of applications while respecting and
opportunistically optimising against the set of constraints,
requirements, and preferences indicated by applications, users, owners,
and providers. Edge-cloud continua have to become intelligent, embedding
cognitive-like capabilities for monitoring, reasoning, planning, and acting.
A number of specific issues arise, requiring novel ideas and techniques
to be developed. For instance, how can MAPE-K architectures be adapted
to work on the edge-cloud continuum? How may learning be exploited to
refine dynamic deployment policies or anticipate changes? How can the
learned models be explained? What programming models can be used to
adequately express application logic independently of its deployment
across the continuum? What formal specification languages can support
architectural descriptions while enabling analysis of properties of
interest? How can the infrastructure self-organise into resilient
structures supporting connectivity and distributed task allocation? How
to promote sustainability and energy/resource-efficiency across the
edge-cloud continuum? These are just a few research questions that may
be investigated. But the investigation itself requires tools,
simulators, and benchmarks to conduct experiments in controlled
environments without incurring in the costs of running experiments in
real-world settings. This workshop solicits papers that investigate on
the use of autonomic/self-* techniques to understand, design, and
develop solutions on/for the edge-fog-cloud continuum. The topics of
interest include (but are not limited to) the following:
- Algorithms for self-adaptive/self-organising management of
applications across the edge-fog-cloud continuum
- Devops solutions for the edge-fog-cloud continuum
- Languages for the specification of deployments, applications, or
management policies
- AI techniques for the edge-fog-cloud continuum
- ML techniques for the edge-fog-cloud continuum
- Mathematical methods supporting modelling and algorithmic solutions
for the edge-fog-cloud and its management issues
- Soft computing techniques for the edge-fog-cloud continuum
- Self-* techniques for the edge-fog-cloud continuum
- Theories and models at the basis of applications and platforms on the
edge-fog-cloud continuum
- Tools or simulators for the edge-fog-cloud continuum
- Edge-cloud computing for the Internet of Things and cyber-physical systems
- Edge-cloud computing for swarm systems
## Submission instructions
Originality. Submitted papers must be original, unpublished, and not
concurrently submitted for publication elsewhere.
Kinds of submissions. Submitted papers should provide original research
contributions, and must not exceed 6 pages (including references; up to
two additional pages may be purchased for CR). The workshop welcomes
different kinds of research work: theoretical, experimental, review,
tool, application.
Format. All paper submissions should follow the formatting indications
of the main conference, i.e., IEEE 8.5” x 11” Two-Column Format (IEEE
Manuscript Templates for Conference Proceedings).
E-submission site: <https://easychair.org/conferences/?conf=acsos2023>
NOTE: upon submission, you have to select the track “Workshop on
Autonomic and Self-* Management for the Edge-Cloud Continuum”.
## Review process
Reviews. Papers will be peer reviewed for originality, relevance to
themes, significance, presentation, soundness, and overall quality –
emphasising breadth and relevance to the topics of the workshop. All
papers will be reviewed by a TPC with a minimum of 3 reviews per paper.
Reviews will be single-blind.
## Post-acceptance instructions
Registration and presentation. At least one of the authors of every
accepted paper must register and present the paper at the workshop.
Publication and indexing. All accepted and presented papers will be
submitted to IEEE Xplore and indexing databases like Elsevier, IET, and
Scopus.
## Workshop Chairs
- Roberto Casadei (Alma Mater Studiorum - University of Bologna, Italy)
- Lukas Esterle (Aarhus University, Denmark)
- Stefano Forti (University of Pisa, Italy)
For any inquiry, please contact us at <asmecc23.workshop at easychair.org>.
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