The 17th EAI International Conference on Cognitive Radio Oriented Wireless Networks (CROWNCOM 2022) is a conference dedicated to new solutions of how cognitive radio systems will help deliver the required capacity at the right delay in the future 5G networks.
Topics
- Networking Protocols for Cognitive Radio
- Cognitive relays models and protocols
- Cooperative networking / transmission
- Load balancing and network optimization
- Self organized networks
- Cross-layer control for cognitive networking
- Cooperative radio resource management
- Cognitive radio protocols and algorithms
- Energy-efficient protocols for CR
- Cognitive radio Under energy harvesting scenarios
- Dynamic Spectrum Access/Management
- Cloud-based dynamic spectrum sharing/access management
- Dynamic spectrum allocation mechanisms and algorithms
- Information-theoretic perspectives on optimal resource allocation for multiuser cognitive networks
- Cognitive radio integration in heterogeneous networks and small cells (2-tier/3-tier networking)
- Multiple-antenna transmission, reception and beam-forming
- Cooperative communication, relaying systems and network coding
- Interference management and coordination
- Game theory applications in dynamic spectrum access
- Quality of service and experience, and fairness constraints on TVWS usage
- Spectrum resource allocation with reduced, delayed or noisy channel state information
- Multidimensional dynamic spectrum access/sharing
- Hardware Architecture and Implementat
- Virtualized cognitive network architectures
- Architecture and algorithm co-optimization
- Error-tolerant and reliable designs
- Energy-efficient design, both mobile and infrastructure
- Reconfigurable antennas and RF circuits
- Reconfigurable systems including software defined and cognitive radios
- Hardware and software implementation issues
- Cyber physical systems
- Medium access control for cognitive networks
- Physical layer algorithms for cognitive radio
- Prototypes and testbeds
- Hardware architectures for certification and security
- Modeling and Theory
- Collaborative radio networks
- Cognitive radio and network architectures
- Agile spectrum and dynamic spectrum sharing techniques
- Information theory and performance limits of dynamic spectrum access
- Cross-layer algorithms based on spectrum sensing techniques
- Cognitive spectrum sharing, coexistence and interoperability
- Connectivity, capacity, and scalability of heterogeneous systems via cognitive networking
- Cognitive radio sensing in the large and feature detection
- Radio environment modelling
- Auction and pricing models for dynamic spectrum sharing
- Characterization of cognitive wireless networks
- Spectrum database (or geolocation database)
- Spectrum aggregation
- Spectrum sensing
- MIMO/OFDM-based cognitive radio
- Spectrum mobility
- Interference management
- Co-existence of primary and secondary networks
- Energy-efficient spectrum sensing
- Game theory for cognitive radio networks
- Radio environment modelling
- Cognitive in highly time-variant networks
- Cognitive channel/interference modelling
- Algorithms for TV whitespace usage
- Standards and Business Models
- Multioperator spectra management
- National and international radio regulations
- Business models, use cases, and applications
- Standardization (IETF, ITU, 3GPP, IEEE, ETSI, etc)
- Simulation, prototypes, and trials
- Future concepts of spectrum usage
- White space radio systems and coexistence methods
- Next Generation of Cognitive Networks
- Application-driven cognitive radio resource management
- Unlicensed LTE and Wi-Fi deployments
- Cognitive radio with massive MIMO for 5G communications
- Energy-efficient green cognitive radio networks
- Spectrum sensing with focus on 5G cellular systems
- Radio environment map/Geo-location database for 5G cellular systems
- D2D and small-cell integration in cognitive networks
- Cognitive radio resource management
- Context aware cognitive networks
- Self-organised cognitive networks
- Carrier aggregation in licensed and unlicensed bands
- Measurements and statistical modeling of spectrum usage
- Interoperability of cognitive heterogenous networks
- Ranging and localisation in cognitive networks
- Security and stability of agile cognitive networks
- Emerging Applications for Cognitive Networks
- Cognitive radio-based solutions for D2D communications and small-cells
- Machine type communications (MTC) or M2M over TVWS
- Backhauling/fronthauling for heterogeneous traffic over TVWS
- Smart grid communications and control over TVWS or unlicensed LTE
- Cognitive technologies in 5G public safety communications
- Cognitive radio for smart homes and cities
- Dynamic spectrum aggregation for future air interface implementation
- Cognition driven energy harvesting
- 5G based on cognitive radio
- Self-organizing approaches for dynamic spectrum management
- Business models and case studies to support emerging applications and services of cognitive networks
Who should Attend
Researchers from academia, industry, standards, and policy.
