Track 1: Sustainable Computing and Communications
· Theoretical Aspect of Energy, Power, and Temperature
· Algorithms for Reduced Power, Energy and Heat
· Power-aware Design of Software, Middleware and Systems
· Power-aware Networking
· Real-time systems
· Power-efficient Computing Architectures
· Efficient Circuit Design for Energy Harvesting
· Power Management in Memory, Disk, Storage and other peripheral Devices
· Configurable and Renewable Energy
· Low Power Electronics
· Energy Efficient Network Hardware
· Energy-Efficient Communication Protocols
· Low power Communication Technologies
· Embedded Systems, ASICs and FPGSs
· Power Leakage and Dissipation
· Code Profiling and Transformation for Power Management
· Power-aware Scheduling and Resource Allocation
· Energy-efficient Wireless/Mobile/Sensor Systems and Networks
· Security and Privacy
· Wearable Computing
· Ecological Monitoring, Analytics and Visualization
· Green Communications Architectures and Frameworks
· Green Data Centres and Enterprise Computing
· QoS and Green Computing
· Integration of Smart Appliances
· Green Software Engineering Methodologies and Tools
· Virtualization Impact for Green Computing
· Case Studies on Green Computing and Communications
· Green Computing Models, Methodologies and Paradigms
Track 2: Sustainable Systems and Technologies
· Sustainable Architectures for Smart Grids
· Smart Grid Security, Reliability and Load Balancing
· Energy Management Systems (EMS)
· Economic Models of Energy Efficiency
· Energy Monitoring, Profiling and Measurement
· Renewable Energy Systems and Harvesting Energy (e.g. Solar, Wind)
· Greener Systems Planning and Design
· Virtualization for Reducing Power Consumption
· Evolutionary Algorithms in Energy Applications
· Scheduling and Switching Power Supplies
· Optimization Techniques for Efficient Energy Consumption
· Reliability of Power-aware Computers
· Runtime Systems that Assist in Power Saving
· Models for Collective Optimization of Power and Performance
· Monitoring Tools for Power and Performance of Parallel and Distributed Systems
· Use of Sensors for Environmental Monitoring
· Smart Control for Eco-friendly Buildings
Track 3: Sustainable Methodologies and Applications
· Smart City (Sustainable Design, Models, Frameworks, Policies and Strategies)
· Smart City (Sustainable Integration and Optimization of Comprehensive Resources and Information Flows - energy, emissions, people, goods and services)
· Sustainable Energy Generation, Transmission, Distribution and Delivery
· Smart Buildings and Urban Infrastructures
· Smart Grid for Energy Generation, Transmission, Monitoring and Management
· Open Government, Open Data Policies, Urban-Scale Data Sharing, Information Security and Privacy
· Smart Logistics and Sustainable Supply Chain Management
· Smart People, Smart Living and Smart Citizen Engagement
· Intelligent Transport Systems and Traffic Management
· Smart Energy-efficient Sensor Networks and Internet of Things
· Smart Home, Smart Healthcare and Ageing Population support
· e-Mobility, e-Work and e-Business Applications
· Sustainable Urban Mobility and Smart Vehicle Management
· Smart Resource Support and Demand Management and Optimization
· User-Centred Services and Systems
· Open Big City Data, Cloud Computing, Internet-Enabled Infrastructures and Services for Sustainability
· Innovation Labs, Experimental Test-Beds and Simulation Environments
· Mechanisms for Motivating Behavior Change
· Advanced Data Analytics for Smart Cities
· IS Architecture Design and Platform for Sustainability
· Case Studies and Innovative Applications for Sustainability