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Restoration of All-Optical Mesh Networks with Path-Based Flooding
Sun Il Kim,
Steven S. Lumetta
Electrical and Computer Engineering
Information Trust Institute
Coordinated Science Lab
Siebel School of Computing and Data Science
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Keyphrases
Optical Transparency
100%
All-optical
100%
Path-based
100%
Data Loss
100%
Transparent Optical Networks
100%
Optical Mesh Networks
100%
Recovery Scheme
66%
Recovery Speed
66%
Path Protection
66%
Percent Recovery
33%
Uniformly Distributed
33%
Recovery Path
33%
Exponential Growth
33%
Restoration Scheme
33%
Data Traffic
33%
Recovery Cost
33%
Capacity Costs
33%
Traffic Demand
33%
Protection Scheme
33%
Little Data
33%
Multiple Node Failures
33%
Loopback
33%
Lightpath
33%
Online Provisioning
33%
Opaque Networks
33%
All-optical Networks
33%
Protection Capability
33%
Single Link Failure
33%
Protection Management
33%
Representative Networks
33%
Wavelength Division multiplexing (WDM) Networks
33%
Fast Restoration
33%
Capacity Recovery
33%
Equipment Protection
33%
Shared Mesh Protection
33%
Cross-connection
33%
Wavelength Continuity Constraint
33%
Protection Path
33%
Computer Science
Recovery Scheme
100%
Mesh Network
100%
Path Protection
100%
Critical Application
50%
Traffic Demand
50%
Proper Operation
50%
Protection Scheme
50%
Protection Capacity
50%
Exponential Growth
50%
Shared Mesh Protection
50%
Mesh Protection
50%
Wavelength-Division Multiplexing Network
50%
Wavelength Continuity Constraint
50%
Fiber Optic Networks
50%