ICONS 2019 Topics (for topics and submission details: see CfP on the site)<br>Systems theory and practice<br>Systems design methodologies and techniques; Formal methods to specify systems’ behavior; Online and offline systems; Open and closed systems; Centralized and distributed systems; Proactive and reactive systems; System robustness; Systems scalability; Fault–tolerant systems; Feedback systems; High–speed systems; Delay tolerant systems; Real–time systems<br>Systems engineering<br>Systems requirements; Systems modeling; Systems development lifecycle; System–of–systems; Systems ergonomics; Subsystem interactions; Systems decomposition; Systems integration<br>Intelligent and vehicular transportation systems<br>Sensor–based intelligent systems; Intelligent systems and wireless applications; Intelligent transport systems; Intelligent forecasting applications; Intelligent human–computer interaction transportation systems; Information collection and dissemination; Mobility and vehicular traffic models; Vehicle–to–vehicle, vehicle–to–roadside communications; Intra–vehicle communications; Vehicle–to–Internet communications; Driver–less transportation; Safeness in transportation systems; Analytical and simulation techniques; Experimental systems and field operational testing; Recent standardization efforts and problems<br>System Instrumentation<br>Metering embedded sensors; Composing multi–scale measurements; Monitoring instrumentation; Smart sensor–based systems; Calibration and self–calibration systems; Instrumentation for prediction systems<br>Embedded systems and systems–on–the–chip<br>Real–time embedded systems Programming embedded systems; Controlling embedded systems; High speed embedded systems; Designing methodologies for embedded systems; Performance on embedded systems; Updating embedded systems; Wireless/wired design of systems–on–the–chip; Testing embedded systems; Technologies for systems processors; Migration to single–chip systems; Micro/nano structures and systems<br>Advanced embedded systems and applications/services<br>Advances in designing methodologies & tools for embedded systems; Platform–based design for embedded systems; Software advances for embedded systems; Dependable/secure embedded systems; Context–related approaches (context–based, context–sensitive, context–aware, etc); Synchronization and time adaptation in embedded systems; Systems–on–Chip embedded systems and applications; On–chip signal conversion for Embedded Systems; Networked Sensor devices and systems; Industrial embedded systems and applications; Simulation for embedded systems; Power–aware embedded systems; Real–time embedded systems; Virtualization and embedded systems; Internet of Things (IoT) impact on embedded systems; Embedded systems and embedded computation models; Testing embedded systems; Safety and security in embedded systems; Performance analysis of embedded systems; Mission–critical features for embedded systems; Real–life embedded systems use cases; Dedicated devices and applications; Design mobile services for embedded systems; Healthcare dedicated embedded systems; Sensing and remote sensing embedded systems; Embedded systems for automation and control of residential and industrial buildings<br>Target–oriented systems [emulation, simulation, prediction, etc.]<br>Information systems; Real–time systems; Software systems; Hardware systems; Emulation systems; Simulation systems Prediction systems<br>Specialized systems [sensor–based, mobile, multimedia, biometrics, etc.]<br>Sensor–based systems; Biometrics systems; Mobile and fixed systems; Ubiquitous systems; Nano–technology–based systems; Multimedia systems<br>Validation systems<br>Diagnosis assistance systems; Test systems; Validation systems; Performance measurement systems; Maintenance systems<br>Security and protection systems<br>Security systems; Vulnerability detecting systems; Intrusion detection systems Intrusion avoidance systems; Presence detection systems; Monitoring systems; Management systems; Alert systems; Defense systems; Emergency systems<br>Advanced systems [expert, tutoring, self–adapting, interactive, etc.]<br>Expert systems; Tutoring systems; Highly interactive systems; Anticipative systems; On–demand systems; GRID systems; Autonomic systems; Autonomous systems; Self–adapting systems; Adjustable autonomic systems; High performance computing systems; Mission critical systems<br>Application–oriented systems [content, eHealth, radar, financial, vehicular, etc.]<br>Web–cashing systems; Content–distributed systems; Accounting and billing systems; E–Health systems; E–Commerce systems; Radar systems; Navigation systems; Systems for measuring physical quantities; Earthquake detection and ranking systems; Financial systems; Robotics systems; Vehicular systems; Entertainment systems; Gaming systems; Speech recognition system<br>IT Systems<br>IT service management; IT Infrastructure management; IT service desk; Service support and delivery; Service strategy; Service design; Service transition; Service operation; Continual service improvement<br>Safety in industrial systems<br>Fundamentals on system safety; Safety of software systems and software engineering; Safety requirements; Safety for critical systems; Engineering for system robustness and reliability; Control of mission critical systems; Safety–oriented system design; Human tasks and error models; Hazard analysis; Cost and effectiveness of system safety; Verification and validation of safety; Safety tools; Evaluation of safety data, and mitigation and prevention strategies; Safety control and management; System Safety Implementation Guidelines and Standards; Transferring safety knowledge; Metrics for Risk Assessment; Contingency Planning and Occurrence Reporting; Preparedness Activities; Industry specific safety systems (Medical devices, Aerospace, Chemical industry, Nuclear power plants, Public health, Biological Safety)<br>Complex systems<br>Theory of complex systems; Ontologies for complex systems; Chaos and complexity; Design and integrate complex systems; Complexity and simulation; Simulation and datamining; Artificial intelligence and soft computing in complex systems; Multi–agent based simulation; Systems of systems; Intelligent agent architectures; Evolutionary programming; Uncertainty reduction and classification; Monitoring and managing complex systems; Case studies of complex systems [vehicular, avionic, health, emergency, sensing, etc.]; Industrial systems [robotics, production, accounting and billing, e–commerce, etc.]<br>Computer vision and computer graphics<br><div>Fundamental algorithms for computer graphics and computer vision: Model representation and simplification; Parametric curves and surfaces; Illumination techniques; Colors and color systems; Virtual and augmented reality, haptic systems; Human–computer interaction; Real time rendering; Image processing, image reconstruction; Pattern recognition; 3D scene reconstruction; Segmentation; Motion detection; Scientific and technical visualization; Medical imaging; Information visualization; 3D TV; Mobile graphics and vision system; Industrial application of computer graphics and vision</div><div><br></div>
Abbrevation
PESARO
City
Valencia
Country
Spain
Deadline Paper
Start Date
End Date
Abstract