2017第一届“分散和自组织5G网络的信号处理和无线电资源分配”国际研讨会 First International Workshop on "Signal processing and radio resource allocation for decentralized and self-organized 5G networks"

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The number of wireless connections is growing exponentially around the globe. It is expected that up to 50 billion devices will be connected to the net by 2050. Most of these connections will involve wireless technologies. However, with current wireless standards, it will be impossible to cope with this increase in traffic demand and different quality of service requirements. In addition, the signaling load needed for resource allocation and device coordination in such massive deployment will become prohibitively large. 5G wireless access networks will need to combine several innovative aspects of decentralized and centralized allocation looking for maximizing performance and minimizing signaling load.

Spectrum resources need to be dynamically shared using advanced cognitive radios and self-organization that will enable the maximum exploitation of opportunities with minimized interference and maximum quality of service satisfaction. Centralized architectures with cloud computing, context-aware, and big data processing will enable large and dense network deployments with high interference rejection, embedded security, and energy savings. Signal processing will be of paramount importance in future 5G networks to make efficient use of resources, resolve conflicts, reduce signaling load, improve the transfer of information, improve security, make efficient use of energy consumption, reject interference, and enable efficient detection of spectrum opportunities.

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Contributing papers are suggested to cover one or more (but not limited to) of the following subtopics:

Multiple antenna processing for 5G
Signal processing for contention resolution algorithms
Orbital angular momentum processing
Full duplex algorithms
Devicetodevice signal processing
3D beamforming
Sparse signal processing
Massive MIMO,
Fulldimension MIMO
Large scale cooperative processing
Imperfect channel and queuing state information in signal processing
Contextaware processing
Innovative modulation formats and encoding
MACPHY crosslayer design for 5G access
Error correction protocols
mmwave design, spectrum sharing
Energy harvesting for 5G
Coordinated distributed antenna processing,
Interference alignment
Cooperative relaying diversity
Adaptive beamforming
Space division multiplexing
Multipacket reception with interference cancellation
Cognitive radio resource allocation
Selforganized resource allocation
Multihop adhoc processing
Blind and semiblind algorithms for multiuser detection and contention resolution
Decentralized contention resolution protocols for 5G futures wireless networks
Signal processing for cloud radio access network
Softwaredefined networking processing
Ultradense networks
Full duplex algorithms
Nonorthogonal multiple access
Error correction and channel coding for 5G
PHYlayer for low latency
Embedded security
Filter bank multicarrier
Spectralefficient FDM systems
Generalized FDM
Channel modeling issues
Multiobjective optimization for signal processing in 5G
Game theory for selforganized and cognitive radio 5G networks
Low latency solutions for machinetype communications
Conflict resolution in decentralized networks
Information theoretic principles for 5G
Game theoretic approaches for signal processing and resource allocation
Evolutionary optimization in 5G
Multicriteria decision making for technology evaluation