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Generalized Burst Assembly and Scheduling Techniques for QoS Support in Optical Burst-Switched Networks Vinod M. Vokkarane, Qiong Zhang, Jason P. Jue and.

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Presentation on theme: "Generalized Burst Assembly and Scheduling Techniques for QoS Support in Optical Burst-Switched Networks Vinod M. Vokkarane, Qiong Zhang, Jason P. Jue and."— Presentation transcript:

1 Generalized Burst Assembly and Scheduling Techniques for QoS Support in Optical Burst-Switched Networks Vinod M. Vokkarane, Qiong Zhang, Jason P. Jue and Biao Chen GLOBECOM 2002

2 Burst Segmentation

3 Existing Burst Assembly Techniques Timer-based Variable burst length. Threshold-based Fixed-size burst length

4 The Composite Burst Assembly Technique Assembling packets of different classes into a single burst. Highest-class packets are placed at the head of the burst, while lower-class packets are placed at away from the head of the burst in decreasing order of their packet class. Containing priority inside the burst header packet.

5 Notations in The Proposed Framework N : number of packet classes. M : number of burst priorities. K : the number of burst types, M ≤ K ≤ 2 N -1. A burst type of type k is characterized by the following parameters:

6 Notations in The Proposed Framework (continued)

7 Approach 1: Single Class Burst (SCB) with N = M

8 Approach 2: Composite Class Burst (CCB) with N = M

9 Approach 3: Single Class Burst (SCB) with N > M

10 Approach 4: Composite Class Burst (CCB) with N > M

11 Packet Loss Probability vs. Load N = 4 and M = 4

12 Average End-to-End Packet Delay vs. Load N = 4 and M = 4

13 Packet Loss Probability vs. Load N = 4 and M = 2

14 Average End-to-End Packet Delay vs. Load N = 4 and M = 4

15 Conclusion The author introduced the concept of composite bursts and described a generalized framework for burst assembly and burst scheduling. The approached with composite bursts perform better than approaches with single-class bursts with respect to providing differentiated QoS for different classes of packets.

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