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Networking - a statistical physics perspective
Chi H. Yeung,
David Saad
Aston University
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peer-review
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Keyphrases
Statistical Physics
100%
Quality of Service
33%
Frequency Distribution
33%
Optimization Algorithm
33%
Network Applications
33%
Disordered Systems
33%
Increased Demand
33%
Network Routing
33%
Control Algorithm
33%
Network Structure
33%
Task Interdependence
33%
Economic Impact
33%
Microscopic Level
33%
Diffusion Process
33%
Probabilistic Inference
33%
Wireless Communication
33%
Process Method
33%
Communication Networks
33%
Energy Consumption Reduction
33%
Congestion Control
33%
Internet Applications
33%
Societal Impacts
33%
Network Systems
33%
Transportation System
33%
Polymer Physics
33%
Traffic Capacity
33%
Emerging Problems
33%
Network Vulnerability
33%
Wired Communication
33%
Conflicting Requirements
33%
Macroscopic Level
33%
Network Frequency
33%
High Traffic
33%
File Distribution
33%
Transportation Network
33%
System Communication
33%
Nonlinear Large-scale Systems
33%
Earth and Planetary Sciences
Frequency Distribution
100%
Polymer Physics
100%
Energy Consumption
100%
Wireless Communication
100%
Transportation Network
100%
Communication Network
100%
Energy Utilization
100%
Engineering
Methods and Tool
100%
Communication Network
50%
Broad Range
50%
Related Task
50%
Diffusion Process
50%
Increasing Demand
50%
Wireless Communication
50%
Quality of Service
50%
Congestion Control
50%
Network Routing
50%
Large-Scale Systems
50%
Material Science
Polymer Physics
100%
Biochemistry, Genetics and Molecular Biology
Facilitated Diffusion
100%