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MAC 2016 - Workshop on Novel Medium Access and Resource Allocation for 5G Networks
Topics/Call fo Papers
Dynamic medium access control (MAC) and resource allocation schemes are introduced in 5G systems
allowing configuration of network parameters according to traffic conditions and QoE of the users. For example,
in small cell scenarios, the amount of instantaneous UL and DL traffic may vary significantly with time and
among adjacent cells. Time division duplexing (TDD) has emerged as a viable alternative to traditional FDD
allowing dynamic allocation of resources between the uplink (UL) and downlink (DL) within each TDD frame.
The introduction of Dynamic MAC also imposes new challenges for coordination, CSI acquisition, resource
allocation and interference management. In order to mitigate or avoid the additional UL-to-DL and DL-to-UL
interference emerging in the dynamic setting, the system may employ advanced coordinated resource
allocation and beamforming, where the transmissions within a coordinating set of nodes are jointly designed.
Another challenge of the dynamic MAC approach is to acquire the CSI between the mutually interfering user
terminals. In order to support such functionality, the terminals should start performing similar functions as BSs
have traditionally done, i.e., being more aware of the neighborhood and measuring the other nodes in the near
vicinity and exchanging control information among different nodes.
Topics of Interest
This workshop will bring together academic and industrial researchers to identify and discuss technical
challenges and recent results related to Novel MAC design for 5G systems.
? Information-theoretic analysis for dynamic MAC
? Novel schemes and algorithms for flexible resource allocation of DL/UL traffic
? Dynamic TDD techniques for 5G wireless communications systems
? Dynamic uplink-downlink optimization in small cells
? Training and channel feedback for dynamic MAC
? Energy saving through dynamic MAC
? Multicell cooperation and coordination based on dynamic MAC
? Interference management issues in dynamic MAC
? Distributed implementation of dynamic MAC schemes
? Simulation and evaluation for dynamic MAC techniques
? Testbed development for dynamic MAC
? Business model for dynamic MAC
allowing configuration of network parameters according to traffic conditions and QoE of the users. For example,
in small cell scenarios, the amount of instantaneous UL and DL traffic may vary significantly with time and
among adjacent cells. Time division duplexing (TDD) has emerged as a viable alternative to traditional FDD
allowing dynamic allocation of resources between the uplink (UL) and downlink (DL) within each TDD frame.
The introduction of Dynamic MAC also imposes new challenges for coordination, CSI acquisition, resource
allocation and interference management. In order to mitigate or avoid the additional UL-to-DL and DL-to-UL
interference emerging in the dynamic setting, the system may employ advanced coordinated resource
allocation and beamforming, where the transmissions within a coordinating set of nodes are jointly designed.
Another challenge of the dynamic MAC approach is to acquire the CSI between the mutually interfering user
terminals. In order to support such functionality, the terminals should start performing similar functions as BSs
have traditionally done, i.e., being more aware of the neighborhood and measuring the other nodes in the near
vicinity and exchanging control information among different nodes.
Topics of Interest
This workshop will bring together academic and industrial researchers to identify and discuss technical
challenges and recent results related to Novel MAC design for 5G systems.
? Information-theoretic analysis for dynamic MAC
? Novel schemes and algorithms for flexible resource allocation of DL/UL traffic
? Dynamic TDD techniques for 5G wireless communications systems
? Dynamic uplink-downlink optimization in small cells
? Training and channel feedback for dynamic MAC
? Energy saving through dynamic MAC
? Multicell cooperation and coordination based on dynamic MAC
? Interference management issues in dynamic MAC
? Distributed implementation of dynamic MAC schemes
? Simulation and evaluation for dynamic MAC techniques
? Testbed development for dynamic MAC
? Business model for dynamic MAC
Other CFPs
- Workshop on Quality of Experience-based Management for Future Internet Applications and Services
- Making the Tactile Internet happen - a workshop within the series of ULTRA2 - Ultra-Low Latency and Ultra-High Reliability in Wireless Communications
- 3rd International Workshop on 5G Architecture (5GArch 2016)
- 2nd International Workshop on Advanced PHY and MAC Technology for Super Dense Wireless Networks (CROWD-Net)
- Workshop on Advances in Network Localization and Navigation (ANLN)
Last modified: 2015-11-03 08:27:57