AREA 1: COMPLEXITY IN INFORMATICS, AUTOMATION AND NETWORKING

• Complexity Theory

• Chaos Theory and Applications

• Quantum Computing

• Information and Entropy

• Simulation and Modeling

• Automation, Control and Robotics

• Connected Vehicles

• Complex Networks

• Internet and the Semantic Web

• Big Data Analytics

• Usability of Complex Information Systems

• Power Distribution, Energy and Control

AREA 2: COMPLEXITY IN BIOLOGY AND BIOMEDICAL ENGINEERING

• Complex Biomedical Systems and Signals

• Bioinformatics

• Computational Biology

• Biological and Biomedical Data Mining

• Ontology Engineering

• Biomedical Signal Processing

• Biomedical Imaging and Data Visualization

• Health Systems Complexity

• Artificial Life

• Population Models

AREA 3: COMPLEXITY IN SOCIAL SCIENCES

• Social Networks

• Linguistic and Cognitive Systems

• Complexity Management

• Data-Driven Models

• Visualization

• Cultural Models

• Multi-Agent Systems

• Economic Complexity

• Information Systems

• Security, Privacy and Trust

• Gaming

• Models of Complex Networks

AREA 4: COMPLEXITY IN COMPUTATIONAL INTELLIGENCE AND FUTURE INFORMATION SYSTEMS

• Complex Adaptive Systems

• Evolutionary computing, neural computing, probabilistic computing

• Neuro-fuzzy Systems, Fuzzy Computing, Logic and Analysis

• Self-Organizing Systems, Expert and Intelligent Systems

• Deep Learning

• Non-Linear Dynamics

• Decision Making under Uncertainty

• Knowledge-Based Systems

• Intelligent Multi-agent Systems and Intelligent Agents

• Climate Change and Natural Science Simulations

• Decision Support Systems Services, Tools and Applications

• Decision Support Systems Algorithms, Workflows, Processes and Future Advancement

• Expert and Intelligent Services, Applications, Proofs-of-concept and Best Practices

• Engineering Design Optimization, Multi-objective Optimization, Process Optimization

• Human-Machine interfaces, robotics and image processing

• Intelligent Information Retrieval, Fusion and Algorithms

• Advanced Reasoning, Monitoring and Diagnosis for Systems, Faults and Scientific Discovery

• Data/image, Feature, Decision and Multilevel Fusion

• Fusion theory, Processing, Simulations and Integration

• Multi-sensor, Multi-fusion System and Application Fusion

• Information Fusion Applications in Information/Network Security, Engineering, Health and Finance

• Fusion System Design, Algorithm, Computational Resources and Demand Optimization

• Information Theory and Applications for Multi-Disciplines

• Information Sciences for Implementations, Techniques, Simulations and Proofs-of-concept

AREA 5: COMPLEXITY IN EDA, EMBEDDED SYSTEMS, AND COMPUTER ARCHITECTURE

• System Specification and Modeling

• System Design, High-Level Synthesis and Optimization

• System Simulation and Validation

• Formal Methods and System Verification

• Design and Test for Analog and Mixed-Signal Systems and Circuits

• Power Modeling, Optimization and Low-Power Design

• Temperature and Variability Aware Design and Optimization

• Embedded System Design Methodologies

• Reconfigurable Computing

• Domain and Application-specific Design

• Logical and Physical Analysis and Design

• Architectural and Microarchitectural Design

• System-on-chip Design and HW/SW Codesign

• Processor, Memory, Storage, Interconnect Designs

• Architectures for Instruction-level, Thread-level and Memory-level Parallelism

• Large-scale System Architecture

• Compilers and Embedded Systems Software

• Performance Evaluation and Measurement of Real Systems

• Operating Systems and Middleware

• QoS Management and Performance Analysis

• New and Emerging Design Technologies

• Application areas, e.g. , automotive, avionics, energy, health care, mobile devices, multimedia and autonomous systems

AREA 6: NETWORK COMPLEXITY

• Community Structure in Networks

• Complex Networks and Epidemics

• Complex Networks and Mobility

• Complex Networks in Biological Systems

• Complex Networks in Statistical Mechanics

• Complex Networks in Technology

AREA 7: COMPLEXITY IN RISK AND PREDICTIVE MODELING

• Time Series Prediction

• Big Data Predictive Modeling

• Risk Analysis and Management

• Risk Minimization, Analytics and Deep Machine Learning

• High Performance Computing for Risk

• Monte Carlo, Black Scholes, Bayesian, ARIMA, Heston and Stochastic Techniques or Analysis

• Error Detection, Reduction and Correction for Risk

• Innovative Methods