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ICAC 2019 - 16th IEEE International Conference on Autonomic Computing (ICAC)

Date2019-06-16 - 2019-06-20

Deadline2019-02-22

VenueUmea, Sweden Sweden

Keywords

Websitehttps://icac19.hotcrp.com

Topics/Call fo Papers

The 16th IEEE International Conference on Autonomic Computing (ICAC)
http://icac2019.cs.umu.se/
https://icac19.hotcrp.com/
Scope and Topics
Computer systems of all types and sizes including cyber-physical systems, data centers/clouds, enterprise/office systems, and “Internet of Things,” are becoming increasingly complex and burdensome for human administrators and operators to manage. Autonomic computing systems reduce this burden by managing their own behavior in accordance with high-level goals specified by humans or other computing systems. In autonomic systems, resources and applications are managed with no or minimal human intervention to maximize performance and minimize cost, while maintaining predictable and reliable behavior in the face of varying workloads, failures, and malicious threats. Achieving self-management requires and motivates research that spans a wide variety of scientific and engineering disciplines, including but not limited to artificial intelligence, bio-inspired computing, control theory, decision theory, distributed systems, emergent behavior analysis, machine learning, optimization, planning, software engineering, and user interface design.
The IEEE International Conference on Autonomic Computing (ICAC) has been the leading conference on autonomic computing since its inception in 2004. Continuing on its past successes, the 16th edition of ICAC will be held in Umea, Sweden during July, 2019, as part of the FAS* event federated with SASO 2019. The conference seeks novel research advances on science and engineering from both academia and industries, concerning all aspects of autonomic computing, including but not limited to the following research topics:
Foundations
Fundamental theory of autonomic computing
Algorithms, artificial intelligence, biological-inspired techniques, control theory, machine learning, operation research, probability and stochastic processes, queueing theory, rule-based systems, and socially-inspired techniques
Formal models and analysis of self-management, emergent behavior, uncertainty, self-organization, self-awareness, and trustworthiness
Autonomic Cloud Computing
Self-managing cloud services
Cloud workload characterization and prediction
Hypervisors, operating systems, middleware, and platforms for self-managing data centers and cloud infrastructures
Monitoring, modeling and analysis of cloud resources and services
Autonomic aspects of combining cloud computing with fog and edge computing
Cyber-Physical Systems (CPS) and Internet of Things (IoT)
System architectures, services, middleware, and protocols for CPS and IoT
Energy, real-time, and mobility management
Design principles, methodologies, and tools for CPS and IoT
Self-organization under severe resource constraints
Applications and case studies of autonomic CPS and IoT
Sensing and computing/storage/networking/power/cooling resource adaptation
Self-Organization and Organic Computing
Self-organization principles and organic computing principles borrowed from systems theory, control theory, game theory, decision theory, social theories, biological theories, etc.
Self-organization, emergent behavior, decentralized control, individual and social/organizational learning, scalability, robustness, goal- and norm-governed behavior, online self-integration for trustworthy self-organizing and organic systems
Infrastructures and architectures for self-organizing systems and organic computing systems
Applications and case studies for self-organization and organic computing
Emerging Computing Paradigms: Cognitive Computing, Self-Aware Computing
Advanced learning for cognitive computing such as hyperparameter tuning, meta-cognitive learning, self-regulatory learning, consciousness and cognition in learning, collaborative / competitive learning, and online / sequential learning
Architectures, control, algorithmic approaches, instrumentation, and infrastructure for cognitive computing and self-aware systems
Cognitive computing and self-awareness in heterogeneous and decentralized systems
Applications and case studies for social networks, big data systems, deep learning systems, games, and artificial assistants, cognitive robots, and systems with self-awareness and self-expression
Software Engineering for Autonomic Computing Systems: Architecture, Specifications, Assurances
Design methodology, frameworks, principles, infrastructures, and tools for development and assurances for autonomic computing systems
System architectures, services, components and platforms broadly applicable for autonomic computing system engineering
Goal specification and policies, modeling of service-level agreements, behavior enforcement, IT governance, and business-driven IT management
Applications and case studies for software engineering approaches for autonomic computing systems
Cross-cutting Themes
Resource management
Applications and case studies of end-to-end design and implementation of systems for resource and performance management
Autonomics for extreme scales, e.g., peta/exa-computing
In addition to fundamental results, ICAC is also interested in applications and experiences with prototyped or deployed systems solving real-world problems in science, engineering, business, or society. Typical application areas for ICAC include but are not limited to autonomous robotics, cloud/fog/edge computing, cyber-physical systems, data centers, dependable computing, industrial internet / industry 4.0, internet of things, mobile computing, service-oriented systems, smart buildings, smart city, smart grid / energy management, smart factory, smart user interfaces, space applications, and traffic management.
Paper Submission
All submissions must represent original and unpublished work that is not currently under review. Each paper will be reviewed by at least three PC members. Papers are assessed based on originality, significance, interest, correctness, clarity, and relevance to the broader community. At least one author of each accepted paper is expected to attend the conference.
Each paper should be submitted in one of the following two categories, to which different acceptance criteria are to be applied:
Full paper, limited to 10 pages including references (double column, IEEE format)
Short paper, limited to 6 pages including references (double column, IEEE format)
Full papers are expected to report new scientific or engineering results, sharing experiences, measurements, use case studies, and appropriate quantitative evaluation if at all possible. Short papers can either be work in progress, or position papers that motivate the community to address new challenges. One paper among those that will be accepted for publication in the conference proceedings is going to be selected and awarded the Karsten Schwan Best Paper Award.
Papers should be submitted electronically in PDF format according to the instructions on the ICAC 2019 web site: http://icac2019.cs.umu.se/. Submission website: https://icac19.hotcrp.com/
Important Dates
Abstract and Paper Submission due: Feb 15, 2019
Paper Submission Deadline: Feb 22, 2019
Author Notification: April 26, 2019

Last modified: 2018-10-20 21:43:10