多颗粒流光突发交换

2006 3rd International Conference on Broadband Communications, Networks and Systems Pub Date : 2006-10-01 DOI:10.1109/BROADNETS.2006.4374340

O. Yu, Ming Liao, Yuan Cao

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引用次数: 4

摘要

提出了一种新的多粒度流光突发交换(MGS-OBS)架构，使全光网络能够支持不同带宽粒度的亚波长流业务，并保证端到端延迟和数据丢失率。它将亚波长流形成周期性突发序列;并允许具有相同源和目的的可变比特率(VBR)流流量通过统计复用共享预留带宽。MGS-OBS通过采用突发列车的周期性高级调度，大大减少了支持亚波长流业务的递归信令处理。MGS-OBS通过对阻塞的突发列车进行时移，实现突发列车保留阻塞恢复。从波长利用率、数据损失率、数据流传输失败率等方面分析了MGS-OBS的性能。结果表明，MGS-OBS的性能优于其他针对突发流量的有效支持OBS方案。

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Multi-granular Stream Optical Burst Switching

This paper presents a novel architecture of multi-granular stream optical burst switching (MGS-OBS), which enables an all-optical network to support sub-wavelength streaming traffic of diverse bandwidth granularities with guaranteed end-to-end delay and data loss rate. It shapes a sub-wavelength stream into a periodic burst train; and allows variable bit rate (VBR) streaming traffic with same source and destination to share the reserved bandwidth through statistical multiplexing. By adopting periodic advanced scheduling of burst trains, MGS-OBS substantially decreases recursive signaling processing in supporting sub-wavelength streaming traffic. MGS-OBS employs burst train reservation blocking recovery by time-shifting a blocked burst train. Performance of MGS-OBS is analyzed in terms of wavelength utilization and data loss rate, and the stream transmission failure rate. It is found that the performance of the MGS-OBS is compared favorably with other OBS schemes that target for efficient support of bursty traffic.

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2006 3rd International Conference on Broadband Communications, Networks and Systems

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