Potential topics include, but are not limited to:
TRACK 1: FUNDAMENTALS AND PHY
- Channel modeling, characterization and estimation
- Modulation, coding, diversity, equalization, synchronization
- Multi-carrier modulation, waveform design
- Wireless Communications through Reconfigurable Intelligent Surfaces
- AI, machine learning and data analytics for wireless communications
- Interference modeling, management, cancellation and alignment
- PHY strategies for low-rate, sporadic and asynchronous communications
- MIMO, massive MIMO and cloud-RAN
- Cooperative, device-to-device and multi-hop communication
- Cognitive radio, spectrum sensing
- Content caching and storage in wireless networks
- PHY layer design for cellular, wireless LAN, ad hoc and sensor networks
- Energy efficient and energy harvesting PHY layer design
- Joint information and energy transmission
- PHY layer security and privacy
- Ultra-wideband, mmWave and sub-THz communication
- Information-theoretic aspects of wireless communications
- Signal processing for wireless communications
- Molecular and nano communications
- Beyond 5G and 6G
- Full duplexing
TRACK 2: MAC AND CROSS-LAYER DESIGN
- Wireless MAC protocols for beyond 5G: design, analysis, and optimization
- AI, machine learning and data analytics for MAC and cross-layer design
- Cognitive and cooperative MAC
- MAC for mesh, ad hoc, relay and sensor networks
- Scheduling and radio resource management
- Cross-layer MAC design
- MAC design for Non-Terrestrial Networks and Aerial Networks
- Software defined radio, RFID MAC
- QoS support and energy efficient MAC
- MAC protocol for energy harvesting wireless networks
- MAC design for multitier cellular/small cell networks
- Multiple access in machine-to-machine communication
- MAC for cloud-RAN
- MAC protocols for molecular and nano networks
- MAC protocols for mmWave networks
- Full-duplex MAC design
- Cross-layer design for massive MIMO and multiuser MIMO networks
TRACK 3: WIRELESS NETWORKS
- Software-defined mobile/wireless networks
- Wireless network functions virtualization
- Virtual network management and orchestration
- AI, machine learning and data analytics for wireless networks
- Mobile cloud
- Fog computing and networking
- Mobile edge computing
- Mesh, relay, sensor and ad hoc networks
- Routing and congestion control in wireless networks
- Cognitive radio and networking
- Resource management and optimization
- Mobile big data and network data analytics
- Wireless network security and privacy
- Mobile social networks
- Wireless network measurements and characterization
- Wireless networking for autonomous vehicles
- Wireless networking for smart X (energy, factory, city, etc.)
- IoT wireless networking
TRACK 4: EMERGING TECHNOLOGIES, ARCHITECTURES AND SERVICES
- Wireless networks empowered by reconfigurable intelligent surfaces
- Age of Information in Real-time Systems and Networks
- Mobile/Wireless network support for vertical industries
- Adaptive content distribution in on-demand services
- Context and location-aware wireless services and applications
- User-centric networks and adaptive services
- Wireless body area networks and e-health services
- Intelligent transportation systems
- Dynamic sensor networks for urban applications
- Wireless emergency and security systems
- Ultra-reliable communication
- Enabling regulations, standards, spectrum management
- Hybrid licensed/unlicensed spectrum access schemes
- Technologies, architectures and enabling business models for rural communications
- Satellite-based mobile access and backhaul
- Non-terrestrial, Aerial and hybrid satellite-terrestrial networks
- Testbed and prototype implementation of wireless services
|