00 Hardcover TK5103 Sixteen papers explore challenges and developments in spectrum sensing methodologies, interference mitigation schemes, cognitive radio network analyses, resource allocation and sensing strategies, spectrum access and mobility management, cross-layer designs, and cognitive radio network security.
What does CLD stand for?
CLD stands for Cross-Layer Design
This definition appears somewhat frequently and is found in the following Acronym Finder categories:
- Information technology (IT) and computers
See other definitions of CLD
We have 140 other meanings of CLD in our Acronym Attic
- Contemporary Logic Design
- Corporate Lookup Directory (LDPA)
- Corprasoft Legal Desktop (software)
- Council for Learning Disabilities
- Council of Library Directors (various schools)
- Country Line Dance
- Credit Limit Decrease
- Crew Leader District (Census)
- Critical Low Density
- Culturally and Linquistically Diverse
- Customer Liaison Department
- La Commission Technique de Lutte contre le Dopage (French: Technical Commission for the Fight against Doping)
- Centrale Léréenne de l'Automobile (French automotive repair company)
- Centre Laser Dermatologique Aquitaine (French: Aquitaine Dermatologic Laser Center; Bordeaux, Aquitaine, France)
- Chip-Level Design Automation (software)
- Commercial Logistics Distribution Agency
- Community Land Development Act of 1989 (Australia)
- Comparative Literature in the Digital Age (International Comparative Literature Association)
- Connectionless Lightweight Directory Access Protocol
Samples in periodicals archive:
MAC & Cross-Layer Design Track: Multiple Access Techniques; Cognitive and Cooperative MAC; Collaborative Algorithms; MAC for Mesh, Ad Hoc, Relay & Sensor Networks; Network Information Theory; Radio Resource Management and Allocation, Scheduling; Cross-Layer Design, Cross-Layer Security; Adaptability & Reconfigurability; Software Defined Radio; RFID; Wireless MAC Protocols, Design & Analysis; QoS Provisioning in MAC; and B3G/4G Systems.
When we consider only AMC at the physical layer without the inclusion of queue state information from the MAC layer for scheduling (conventional method), the spectral efficiency gain achieved seems to be slightly lower than cross-layer design with combination of AMC and queue state information.
Topics discussed include cross-layer QoS implementations, cross-layer design for security, protocols and applications for mobility management, MAC and routing integration in wireless sensor networks, and cross-layer optimization for video transmission over WLAN.
In addition to these forums, IEEE GLOBECOM 2010 will offer a wide selection of more than 300 technical sessions ranging in topics from energy saving and power control protocols, cognitive networking, cognitive radio design, beamforming and dynamic spectrum access to cross-layer designs, deep space networking, routing, security, channel estimation & modeling, cooperative communications and network performance optimization.
Subsequent chapters concentrate on issues related to medium access control (MAC) and protocols for DAS, including distributed signal processing, optimal resource allocation, cooperative MAC protocols, cross-layer design, and distributed organization.