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The Fourth International Conference on Autonomic and Autonomous Systems ICAS 2008 March 16-21, 2008 - Gosier, Guadeloupe |
| Call for Papers |
The ICAS 2008 (International Conference on Autonomic and Autonomous Systems) is a multi-track event covering related topics on theory and practice on systems automation, autonomous systems and autonomic computing.
The main tracks refer to the general concepts of systems automation, and methodologies and techniques for designing, implementing and deploying autonomous systems. Next tracks develop around design and deployment of context-aware networks, services and applications, and the design and management of self-behavioral networks and services. It is also considering monitoring, control, and management of autonomous self-aware and context-aware systems and topics dedicated to specific autonomous entities, namely, satellite systems, nomadic code systems, mobile networks, and robots. It has been recognized that modeling (in all forms this activity is known) is the fundamental for autonomous subsystems, as both managed and management entities must communicate and understand each other. Small-scale and large-scale virtualization and model-driven architecture, as well as management challenges in such architectures are considered. Autonomic features and autonomy requires a fundamental theory behind and solid control mechanisms. These topics give credit to specific advanced practical and theoretical aspects that allow subsystem to expose complex behavior. It is aimed to expose specific advancements on theory and tool in supporting advanced autonomous systems. Domain case studies (policy, mobility, survivability, privacy, etc.) and specific technology (wireless, wireline, optical, e-commerce, banking, etc.) case studies are targeted. A special track on mobile environments is indented to cover examples and aspects from mobile systems, networks, codes, and robotics.
Pervasive services and mobile computing are emerging as the next computing paradigm in which infrastructure and services are seamlessly available anywhere, anytime, and in any format. This move to a mobile and pervasive environment raises new opportunities and demands on the underlying systems. In particular, they need to be adaptive, self-adaptive, and context-aware.
Adaptive and self-management context-aware systems are difficult to create, they must be able to understand context information and dynamically change their behavior at runtime according to the context. Context information can include the user location, his preferences, his activities, the environmental conditions and the availability of computing and communication resources. Dynamic reconfiguration of the context-aware systems can generate inconsistencies as well as integrity problems, and combinatorial explosion of possible variants of these systems with a high degree of variability can introduce great complexity.
Traditionally, user interface design is a knowledge-intensive task complying with specific domains, yet being user friendly. Besides operational requirements, design recommendations refer to standards of the application domain or corporate guidelines.
Commonly there is a set of general user interface guidelines; the challenge is due to a need for cross-team expertise. Required knowledge differs from one application domain to another, and the core knowledge is subject to constant changes and to individual perception and skills.
Passive approaches allow designers to initiate the search for information in a knowledge-database to make accessible the design information for designers during the design process. Active approaches, e.g., constraints and critics, have been also developed and tested. These mechanisms deliver information (critics) or restrict the design space (constraints) actively, according to the rules and guidelines. Active and passive approaches are usually combined to capture a useful user interface design.
All these points pose considerable technical challenges and make self-adaptable context-aware systems costly to implement. These technical challenges lead the context-aware system developers to use improved and new concepts for specifying and modeling these systems to ensure quality and to reduce the development effort and costs.
SYSAT |
Advances in system automation |
AUTSY |
Theory and Practice of Autonomous Systems |
AWARE |
Design and Deployment of Context-awareness Networks, Services and Applications |
AUTONOMIC |
Autonomic Computing: Design and Management of Self-behavioral Networks and Services |
MCMAC |
Monitoring, Control, and Management of Autonomous Self-aware |
CASES |
Automation in specialized mobile environments |
ALCOC |
Algorithms and theory for control and computation |
MODEL |
Modeling, virtualization, any-on-demand, MDA, SOA |
| SELF | Self-adaptability and self-management of context-aware systems |
| KUI | Knowledge-based user interface |
The call for regular submissions covers both theoretical and experimental topics. 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 topic areas. Industrial presentations are not subject to these constraints. Tutorials on specific related topics and panels on challenging areas are encouraged.
SYSAT: Advances in system automation
Methods, techniques ant tools for automation features
Methodologies for automating of design systems
Industrial automation for production chains
Nonlinear optimization and automation control
Nonlinearities and system stabilization
Automation in safety systems
Structured uncertainty
Open and closed automation loops
Test systems automation
Theory on systems robustness
Fault-tolerant systems
AUTSY: Theory and Practice of Autonomous Systems
Design, implementation and deployment of autonomous systems
Frameworks and architectures for component and system autonomy
Design methodologies for autonomous systems
Composing autonomous systems
Formalisms and languages for autonomous systems
Logics and paradigms for autonomous systems
Ambient and real-time paradigms for autonomous systems
Delegation and trust in autonomous systems
Centralized and distributed autonomous systems
Collocation and interaction between autonomous and non-autonomous systems
Dependability in autonomous systems
Survivability and recovery in autonomous systems
Monitoring and control in autonomous systems
Performance and security in autonomous systems
Management of autonomous systems
Testing autonomous systems
Maintainability of autonomous systems
AWARE: Design and Deployment of Context-awareness Networks, Services and Applications
Context-aware fundamental concepts, mechanisms, and applications
Modeling context-aware systems
Specification and implementation of awareness behavioral contexts
Development and deployment of large-scale context-aware systems and subsystems
User awareness requirements and design techniques for interfaces and systems
Methodologies, metrics, tools, and experiments for specifying context-aware systems
Tools evaluations, Experiment evaluations
AUTONOMIC: Autonomic Computing: Design and Management of Self-behavioral Networks and Services
Theory, architectures, frameworks and practice of self-adaptive management mechanisms
Modeling and techniques for specifying self-ilities
Self-stabilization and dynamic stability criteria and mechanisms
Tools, languages and platforms for designing self-driven systems
Autonomic computing and GRID networking
Autonomic computing and proactive computing for autonomous systems
Practices, criteria and methods to implement, test, and evaluate industrial autonomic systems
Experiences with autonomic computing systems
MCMAC: Monitoring, Control, and Management of Autonomous Self-aware and Context-aware Systems
Agent-based autonomous systems
Policy-driven self-awareness mechanisms and their applicability in autonomic systems
Autonomy in GRID networking and utility computing
Studies on autonomous industrial applications, services, and their developing environment
Prototypes, experimental systems, tools for autonomous systems, GRID middleware
CASES: Automation in specialized mobile environments
Theory, frameworks, mechanisms and case studies for satellite systems,
Spatial/temporal constraints in satellites systems
Trajectory corrections, speed, and path accuracy in satellite systems
Mechanisms and case studies for nomadic code systems
Platforms for mobile agents and active mobile code
Performance in nomadic code systems
Case studies systems for mobile robot systems
Guidance in an a priori unknown environment
Coaching/learning techniques,
Pose maintenance, and mapping
Sensing for autonomous vehicles
Planning for autonomous vehicles
Mobile networks, Ad hoc networks and self-reconfigurable networks,
ALCOC: Algorithms and theory for control and computation
Control theory and specific characteristics
Types of computation theories
Tools for computation and control
Algorithms and data structures
Special algorithmic techniques
Algorithmic applications
Domain case studies
Technologies case studies for computation and control
Application-aware networking
MODEL: Modeling, virtualization, any-on-demand, MDA, SOA
Modeling techniques, tools, methodologies, languages
Model-driven architectures (MDA)
Service-oriented architectures (SOA)
Utility computing frameworks and fundamentals
Enabled applications through virtualization
Small-scale virtualization methodologies and techniques
Resource containers, physical resource multiplexing, and segmentation
Large-scale virtualization methodologies and techniques
Management of virtualized systems
Platforms, tools, environments, and case studies
Making virtualization real
On-demand utilities
Adaptive enterprise
Managing utility-based systems
Development environments, tools, prototypes
SELF: Self-adaptability and self-management of context-aware systems
Novel approaches to modeling and representing context adaptability, self-adaptability, and self-manageability
Models of computation for self-management context-aware systems
Use of MDA/MDD (Model Driven Architecture / Model Driven Development) for context-aware systems
Design methods for self-adaptable context-aware systems
Applications of advanced modeling languages to context self-adaptability
Methods for managing adding context to existing systems and context-conflict free systems
Architectures and middleware models for self-adaptable context-aware systems
Models of different adaptation and self-adaptation mechanisms (component-based adaptation approach, aspect oriented approach, etc.)
System stability in the presence of context inconsistency
Learning and self-adaptability of context-aware systems
Business considerations and organizational modeling of self-adaptable context-aware systems
Performance evaluation of self-adaptable context-aware systems
Scalability of self-adaptable context-aware systems
KUI: Knowledge-based user interface
Evolving intelligent user interface for WWW
User interface design in autonomic systems
Adaptive interfaces in a knowledge-based design
Knowledge-based support for the user interface design process
Built-in knowledge in adaptive user interfaces
Requirements for interface knowledge representation
Levels for knowledge-based user interface
User interface knowledge on the dynamic behavior
Support techniques for knowledge-based user interfaces
Intelligent user interface for real-time systems
Planning-based control of interface animation
Model-based user interface design
Knowledge-based user interface migration
Automated user interface requirements discovery for scientific computing
Knowledge-based user interface management systems
3D User interface design
Task-oriented knowledge user interfaces
User-interfaces in a domestic environment
Centralised control in the home
User-interfaces for the elderly or disabled
User-interfaces for the visually, aurally, or mobility impaired
Interfacing with ambient intelligence systems
Assisted living interfaces
Interfaces for security/alarm systems
INSTRUCTION FOR THE AUTHORS
The ICAS 2008 Proceedings will be published by IEEE Computer Society Conference Publishing Services and on-line via IEEE XPlore Digital Library. IEEE will index the papers with major indexes.
Important deadlines:
| Full paper submission | |
| Authors notification | |
| Registration and camera ready | December 5, 2007 |
Only .pdf or .doc files will be accepted for paper submission. All received papers will be acknowledged via the EDAS system.
Final author manuscripts will be 8.5" x 11" (two columns IEEE format), not exceeding 6 pages; max 4 extra pages allowed at additional cost. The formatting instructions can be found on the Instructions page. Helpful information for paper formatting can be found on the here.
Once you receive the notification of paper acceptance, you will be provided by the IEEE CS Press an online author kit with all the steps an author needs to follow to submit the final version. The author kits URL will be included in the letter of acceptance.
Technical marketing/business/positioning presentations
The conference initiates a series of business, technical marketing, and positioning presentations on the same topics. Speakers must submit a 10-12 slide deck presentations with substantial notes accompanying the slides, in the .ppt format (.pdf-ed). The slide deck will be published in the conference’s CD collection, together with the regular papers. Please send your presentations to petre@iaria.org.
Tutorials
Tutorials provide overviews of current high interest topics. Proposals can be for half or full day tutorials. Please send your proposals to petre@iaria.org
Panel proposals:
The organizers encourage scientists and industry leaders to organize dedicated panels dealing with controversial and challenging topics and paradigms. Panel moderators are asked to identify their guests and manage that their appropriate talk supports timely reach our deadlines. Moderators must specifically submit an official proposal, indicating their background, panelist names, their affiliation, the topic of the panel, as well as short biographies.
For more information, petre@iaria.org
Workshop proposals
We welcome workshop proposals on issues complementary to the topics of this conference. Your requests should be forwarded to petre@iaria.org.
