EAI ICCASA 2023 will be held as a fully-fledged online conference.
In 2021, EAI successfully launched an online conference format to ensure the safety, comfort and quality of experience for attendees and a successful course of the events, all while retaining fully live interaction, publication and indexing. Due to the unrelenting global pandemic, this will also be the case in 2023.
Although we will miss having everyone meet and connect in person, we feel strongly that knowledge exchange must continue, if not more so. That is why we have equipped our online conferences with live viewing with chat, virtual Q&A, and a multitude of other measures to provide you with a great experience. Learn more about EAI’s online conferences.
ICCASA 2023 is a place for highly original ideas about how Context-Aware Systems (CAS) are going to shape networked computing systems of the future. Hence, it focuses on rigorous approaches and cutting-edge solutions that break new ground in dealing with the properties of context awareness. Its purpose is to make a formal basis more accessible to researchers, scientists, professionals, and students as well as developers and practitioners in ICT by providing them with state-of-the-art research results, applications, opportunities, and future trends. We are happy to inform you about the collocated conference EAI ICTCC 2023! CAS is primarily inspired by the human autonomic nervous system and it is characterized by itself – facets such as self-organization, self-configuration, self-healing, self-optimization, self-protection, and so on whose context awareness is used to dynamically control computing and networking functions. The overall goal of CAS is to realize nature-inspired autonomic systems that can manage themselves without direct human interventions. Meeting this grand challenge of CAS requires a rigorous interdisciplinary approach to context-aware systems. Context awareness originated as a term from ubiquitous computing or as so-called pervasive computing which sought to deal with linking changes in the environment with computer systems, which are otherwise static. The term has also been applied to business theory in relation to contextual application design and business process management issues.
Welcome to the EAI Community
Let the EAI Community help you build your career with collaborative research, objective evaluation, and fair recognition:
- Get more visibility for your paper and receive a fair review with Community Review,
- Earn credits regardless of your paper’s acceptance and increase your EAI Index for new membership ranks and global recognition,
- Find out if your research resonates – get real-time evaluation of your presentation on-site via EAI Compass.
We welcome contributions from the following fields:
Fundamentals of Context-aware systems
- Context-aware models
- Context-aware control
- Context-aware algorithms
- Context-aware networks
- Context-aware computing
- Context-awareness calculi
- Context-awareness representation
- Context-awareness-based systems
- Logic in context-awareness
- Context-awareness reasoning
- Formal methods of context-awareness
- Context-awareness-based optimization and swarm Intelligence
- Theory, computational models and algorithms in context detection for computing
- Awareness of context in collaboration or crowdsourcing
- Context recognition and artificial intelligence (AI)
- Privacy issues
- Routing, transport, and reliability issues of context-aware systems
- Data dissemination and replication in context-aware systems
- Applications and middleware support, mobile social networking applications
- Mobility models and statistical analysis of mobility traces
- Context and social awareness mechanisms and algorithms
- Co-existence of opportunistic networks with infrastructure mobile wireless networks
- Service composition in autonomic and opportunistic networks
- Cognition-driven information processing and decision making
- Performance modeling, scaling laws, and fundamental limits for autonomic and opportunistic communications
- Game-theoretic insights to the operation of autonomic and opportunistic networks
- Participatory and urban sensing in autonomic and opportunistic networks
- Trust, security, and reputation in context-aware systems
- Autonomic and opportunistic communication testbeds and prototypes, measurement data from real experiments
- Socio-economic models for autonomic and opportunistic communications
- Mobile data measurement and collection platforms for context detection
- Automated systems to model and detect context
- Context-aware information retrieval
- Context-aware profiling, clustering, and collaborative filtering
- Machine learning for context-aware information retrieval and ontology learning
- Context-aware e-learning/tutoring
- Ubiquitous and context-aware computing
- Use of context-aware technologies in UI/HCI
- Context-aware advertising
- Recommendations for mobile users
- Context awareness in portable devices
- Context-aware services
- Social Agents and Avatars
- Emotion and Personality
- Virtual Humans
- Autonomous Actors
- Awareness-based Animation
- Social and Conversational Agents
- Inter-Agent Communication
- Social Behavior
- Crowd Simulation
- Understanding Human Activity
- Memory and Long-term Interaction
- Context representations and signal characteristics that describe and identify context
- Context detection algorithms/approaches using data collected with mobile devices, wearable devices and pervasive sensors (e.g. RF sensors)
- User studies and evaluation techniques for context detection
- The novel use of context information in computing applications
- Integration of context into lifelogging applications.
- Applications of context information for the work-life balance, for a healthier life and behavior
- Applications of context information in situational or social awareness
- Application of context information in health care
- Applications of context information in industrial production
- Applications of context information in pervasive games
- Applications of context information in mobile multimedia devices
All registered papers will be submitted for publishing by Springer and made available through SpringerLink Digital Library.
Proceedings will be submitted for inclusion in leading indexing services, such as Web of Science, Compendex, Scopus, DBLP, EU Digital Library, IO-Port, MatchSciNet, Inspec and Zentralblatt MATH.
Additional publication opportunities:
- EAI Transactions series (Open Access)
- EAI/Springer Innovations in Communications and Computing Book Series
(titles in this series are indexed in Ei Compendex, Web of Science & Scopus)
Papers should be submitted through EAI ‘Confy+‘ system, and have to comply with the Springer format (see Author’s kit section).
- Regular papers should be up to 12-15+ pages in length.
- Short papers should be 6-11 pages in length.
All conference papers undergo a thorough peer review process prior to the final decision and publication. This process is facilitated by experts in the Technical Program Committee during a dedicated conference period. Standard peer review is enhanced by EAI Community Review which allows EAI members to bid to review specific papers. All review assignments are ultimately decided by the responsible Technical Program Committee Members while the Technical Program Committee Chair is responsible for the final acceptance selection. You can learn more about Community Review here.