SERVICE COMPUTATION
Note that SERVICE COMPUTATION 2020 scheduled earlier in the year has been moved to October 25 - 29, 2020 in Nice, France. As such, we have additional time to reopen submissions to the conference.
In order to accommodate a large number of situations, we are offering the option for either physical presence or virtual participation. We would be delighted if all authors manage to attend, but are aware that special circumstances are best handled by having flexible options.
The new submission deadline is June 1.
Please consider to contribute to and/or forward to the appropriate groups the following opportunity to submit and publish original scientific results to:
SERVICE COMPUTATION 2020, The Twelfth International Conference on Advanced Service Computing
Authors of selected papers will be invited to submit extended article versions to one of the IARIA Journals: http://www.iariajournals.org
=================
SERVICE COMPUTATION 2020, The Twelfth International Conference on Advanced Service Computing
Event schedule: October 25 - 29, 2020 - Nice, France
Main page: https://www.iaria.org/conferences2020/SERVICECOMPUTATION20.html
Submission: https://www.iaria.org/conferences2020/SubmitSERVICECOMPUTATION20.html
Contributions
- regular papers [in the proceedings, digital library]
- short papers (work in progress) [in the proceedings, digital library]
- ideas: two pages [in the proceedings, digital library]
- extended abstracts: two pages [in the proceedings, digital library]
- posters: two pages [in the proceedings, digital library]
- posters: slide only [slide-deck posted at www.iaria.org]
- presentations: slide only [slide-deck posted at www.iaria.org]
- demos: two pages [posted at www.iaria.org]
Deadlines
Submission: June 1, 2020
Notification: July 1, 2020
Registration: July 14, 2020
Camera-ready: July 20, 2020
Call for papers: https://www.iaria.org/conferences2020/CfPSERVICECOMPUTATION20.html
Committees: https://www.iaria.org/conferences2020/ComSERVICECOMPUTATION20.html
Extended versions of selected papers will be published in IARIA Journals: http://www.iariajournals.org
Print proceedings will be available via Curran Associates, Inc.: http://www.proceedings.com/9769.html
Articles will be archived in the free access ThinkMind Digital Library: http://www.thinkmind.org
The topics suggested by the conference can be discussed in term of concepts, state of the art, research, standards, implementations, running experiments, applications, and industrial case studies. Authors are invited to submit complete unpublished papers, which are not under review in any other conference or journal in the following, but not limited to, topic areas.
All tracks are open to both research and industry contributions, in terms of Regular papers, Posters, Work in progress, Technical/marketing/business presentations, Demos, Tutorials, and Panels.
Before submission, please check and comply with the editorial rules: http://www.iaria.org/editorialrules.html
Tracks
Trends in service computation
Cloud services orchestration; Context-aware adaptation of service-based systems; Service computation in Smart Cities environments; Virtualized services in the networks ( core, at aggregation points, and at the edge); Cloud on-the-fly services; Microdata service centers at PoPs; Open-source infrastructure as a Service; Event-Driven Service-Oriented Architecture (ED-SOA or SOA 2.0); Service computation for smart vehicles; Service composition and orchestration in the Internet of Things (IoT) and Internet of Drones (IoD) systems; Service composition based on granularity computing; Visualization as a service; Enterprise scale service computation; Agent-based modelling as a service; Decentralized Web service composition; Service composition for collaboration support
Challenges in service computation
Continuous adaptation of Service-based systems for mobile environments; Concurrent negotiations for customized cloud service quality; Dynamic QoS monitoring in Service-oriented systems; Service replication process in distributed environments; Contract monitoring service; Dynamic testing; Prediction-as-a-Service; Scalable QoE prediction for service composition; Architectures for scale computing; Scalable and cost-efficient cloud storage; Strategies for Quality-aware service selection; Service contracts for risk prediction; Decentralized Web-service composition; Context-aware for Web-service clustering; Multi-tenant service composition; Collaborations through service composition; Reputation for Service composition in the Internet of Things (IoT)
Service innovation, evaluation and delivery
Service requirement validation; Service design; Service deployment; Service delivery; Service lifecycle; Service knowledge and service innovation; Model-driven service engineering; Knowledge-intensive services; Risk management in services management; Service testing and validation; Service consumption and delivery outcome; Quality of service; Quality of experience; Quality of service impact; Service audit metrics; Service innovation; Service bundling; Service research; Service composition; Collaborative services; Service business models; Service personalization; Security and trust in services
Ubiquitous and pervasive services
Foundations of ubiquitous and pervasive services, networks and applications; Specification, discovery, and matching of ubiquitous and pervasive services; Computing, orchestration and harmonization of ubiquitous and pervasive services; Technologies for modeling, designing, and testing ubiquitous and pervasive services; Service-oriented agent-based architectures, protocols and deployment environments; Integration and deployment of ubiquitous and pervasive services; Ubiquitous and pervasive services in peer-to-peer and overlay networks; Ubiquitous and pervasive services in mobile networks and sensor networks; Ubiquitous and pervasive services in unmanned air, underwater, and ground vehicle networks; Adaptive and self-adaptive ubiquitous and pervasive services; Context awareness, adaptation and management of ubiquitous and pervasive services; Security, trust and privacy management in ubiquitous and pervasive services; Semantics and ontology for ubiquitous and pervasive services; Web services and middleware support for ubiquitous and pervasive services; Energy management and harvesting for network with ubiquitous and pervasive systems; Case studies, lessons learned, experiments, simulations and trials for ubiquitous and pervasive services
WEB Services
Basics and formalisms on Web services; Web x.0 concepts in Web services evolution in this framework; Methodologies for specification, deployment and enhancements of Web services; Modeling and composition of Web services; Discovery, matching, and integration of Web services; SLA/QoS/QoE in Web services (privacy, security, performance, reliability, fault tolerance); Testing and validating Web services; Publishing, discovery, tracking, and selection of Web services; Web services lifecycle management; Semantics and Ontology in Web services; Cloud computing, service-as-a-software and on-demand Web services; Mobile and intermittent Web services; Web services-based services, applications and solutions; Web services standards and formalizations; Service-Oriented Architecture (SOA) infrastructure and middleware
Uncertain Web Services
Uncertainty-aware QoS; Uncertainty in Web service compositions; Discovering services under uncertainty; The uncertainty-enabled model web; Trust assessment for Web services under uncertainty; Uncertainty in chained Web services; Uncertainty propagation; Representing and simulating uncertain environmental variables; Quantifying, managing and communicating uncertainty; Uncertainty Markup Language (UncertML)
Skyline Services
Skyline services composition; QoS-based skyline selection; Dominant Web services; Spatial skyline computation; Selecting dynamic skyline services; Skyline metrics and criteria; Parallelization of skyline computation; Progressive skyline computation; Skyline optimization for Web service composition; Skyline applications (Peer-to-Peer, Demographic, etc.); Benchmarks for skyline computation
Society and business services
Public (mail, schools, banking, financial, personal, real estate, health, government, insurance, hospitals, transportation, library); Utility (broadcasting & cable TV, printing & publishing, energy, Internet, hotels, retail, waste management, security, rental); Entertainment (advertising, casinos & gaming, recreational, restaurant, travel); Business (communications, specialty, technology, planning, supply chain management, marketing, design, wholesale distribution); Business process management (business knowledge, business protocols, service level agreements, business licensing models, business financial models, and business advertising models
Service measurement
QoS metrics and indicators; data quality; validity of models; uncertainty analysis; SLA monitoring; measurement of business objectives; dynamics of monitoring; quantification of trust and trustworthiness; propagation of measurements; triangulation; expert judgments; aggregation of measurements
Empirical methods in system and service management
Empirical evaluations; method and model validation based on empirical trials; case studies; experiments; guidelines and best practices for structured empirical research; validity and reliability of empirical research; systematic reviews; metrics; measurements; expert judgments; case study design; reporting of empirical research
-------------------------------
SERVICE COMPUTATION Series Program Committee: https://www.iaria.org/conferences2020/ComSERVICECOMPUTATION20.html
SERVICE COMPUTATION Series Steering Committee
Arne Koschel, Hochschule Hannover, Germany
Eugen Borcoci, University "Politehnica" of Bucharest, Romania
Annett Laube, Bern University of Applied Sciences (BUAS), Switzerland
Andreas Hausotter, Hochschule Hannover - University of Applied Sciences and Arts, Hannover, Germany
Paul Humphreys, Ulster Business School/University of Ulster, UK
SERVICE COMPUTATION 2020 Publicity Chair
Javier Rocher, Universitat Politecnica de Valencia, Spain
----------------------------