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A non-equilibrium analysis & control framework for communication networks
Tansu Alpcan
, Paul Wang
,
Prashant G. Mehta
,
Tamer Başar
Mechanical Science and Engineering
Electrical and Computer Engineering
Coordinated Science Lab
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:
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Keyphrases
Communication Networks
100%
Equilibrium Control
100%
Control Framework
100%
Active Queue Management
100%
Non-equilibrium Analysis
100%
Non-equilibrium
50%
Fluid Model
50%
Control Algorithm
50%
Management Challenges
50%
Markov Model
25%
Numerical Methods
25%
Process-based
25%
Ergodic
25%
Deterministic Model
25%
Control Scheme
25%
Computational Tractability
25%
Complex Dynamics
25%
Nonequilibrium Behavior
25%
Control Approach
25%
Stochastic Modeling
25%
Theory Framework
25%
Equilibrium Method
25%
Reward Function
25%
Finite-dimensional
25%
Queue Size
25%
Markov Decision Process
25%
Network Simulator
25%
Packet-level Simulation
25%
Aggregate Flow
25%
NS-2
25%
Dynamic Queues
25%
Bifurcation Study
25%
Mathematics
Stochastics
100%
Deterministic Model
100%
Flow Rate
100%
Complex Dynamic
100%
Markov Decision Process
100%
Queue Size
100%
Mathematical Method
100%
Flow Velocity
100%
Computer Science
Communication Network
100%
Analysis Framework
100%
Control Framework
100%
Active Queue Management
100%
Equilibrium Analysis
100%
Markov Decision Process
25%
Network Simulator
25%
Control Approach
25%
Level Simulation
25%
Deterministic Model
25%
Theoretic Framework
25%
Mathematical Method
25%
Engineering
Nonequilibrium
100%
Communication Network
100%
Fluid Model
40%
Flow Rate
20%
Numerical Methods
20%
Control Scheme
20%
Equilibrium Method
20%
Packet Level
20%
Flow Velocity
20%
Markov Decision Process
20%
Physics
Communication Network
100%