Table of Contents
Impact of time-scales on the modeling and characterization of network traffic
Collaborators
Road map
Introduction: traffic patterns
Introduction: simulations
Requirements for data transmission
Quality of Service parameters
Traffic patterns: “Star Wars” trace
Video traces
Self-similar traffic patterns
Influence of time-scales
Influence of time-scales
Heavy-tailed distribution �of packet loss
LRD and Hurst parameter
Road map
Packet loss
Packet loss episodes: definition
Example: �packet loss and loss episodes
Contribution of loss episodes �and lost packets
Contribution of loss episodes �and lost packets
Collection of packet loss data
Road map
ns-2 network simulator
Road map
Simple simulation scenario
Complex simulation scenario
Visualization: textured dot strip plots
Contribution of packet loss
Packet loss rates:�mixed UDP and TCP sources
MPEG traces
MPEG traces
MPEG traces
Simulation results (1)
Simulation results (2)
Comparison of queuing mechanisms
FIFO/DropTail queuing scheme
Aggregate packet loss: buffer size
Aggregate packet loss: traffic load
Aggregate packet loss: traffic load
Aggregate packet loss: traffic load
Per-flow packet loss: buffer size
Simulation results: other schemes
Random Early Drop (RED)
RED simulation results
Per-flow packet loss: buffer size
Per-flow load, throughput, and loss
Per-flow load, throughput, and loss
Simulation details
FQ, SFQ, DRR structure
FQ, SFQ, DRR structure
FQ, SFQ, DRR structure
FQ, SFQ, DRR structure
FQ, SFQ, DRR structure
Simulation scenario
Per-flow packet loss: queuing scheme
Per-flow packet loss: queuing scheme
Per-flow load, throughput, and loss
Per-flow load, throughput, and loss
Per-flow load, throughput, and loss
Simulation results
Road map
Wavelet analysis
Filter-bank pyramidal algorithm
Wavelets
Daubechies wavelet (rank 2)
Daubechies wavelet (rank 9)
Monofractal estimator
Wavelet-based Hurst �parameter estimator
Abry-Veitch estimator
PPT Slide
PPT Slide
PPT Slide
PPT Slide
PPT Slide
Characteristics of�the “Star Wars” traffic trace
Wavelet analysis of packet loss
PPT Slide
Analysis of packet loss �on multiple time-scales
Packet loss and time-scales
Hurst parameter estimation
Fractal estimators: multifractal
Fractal estimators: multifractal
Fractal estimators: performance
Video traces: sources
Video traces: coders
Video coders: examples (1)
Wavelet analysis: Futurama (MPEG4)
Wavelet analysis: Futurama (H263)
Wavelet estimators
Monofractal wavelet analysis: MTV
Multifractal wavelet analysis: MTV
Comparison of estimators: MTV
Monofractal wavelet analysis:�Mr. Bean
Multifractal wavelet analysis:�Mr. Bean
Comparison of estimators: Mr. Bean
Monofractal wavelet analysis: Jurrasic Park
Multifractal wavelet analysis: �Jurassic Park
Comparison of estimators:�Jurasic Park
Wavelet estimators: observations
Analysis of loss traces
Loss trace, 46 packets, monofractal
Loss trace, 46 packets, multifractal
Wavelet analysis: loss trace
Loss trace, 100 packets, monofractal
Loss trace, 100 packets, multifractal
Wavelet analysis: loss trace
Loss trace, 200 packets, monofractal
Loss trace, 200 packets, multifractal
Wavelet analysis: loss trace
Observations
Concluding remarks
Current work
Collaborators
References: on traffic (1)
References: on traffic (2)
References: on packet loss
References: on queuing schemes
References: on fractal estimators
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