A Comparative Study on Shared Precomputed Restoration and Shared Backup Path Protection in EONs

F. Arpanaei, Shayan Hajipour, H. Beyranvand, J. A. Hernández, D. Larrabeiti
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引用次数: 1

Abstract

This paper proposes a shared precomputed restoration (SPR) mechanism for link failures in translucent elastic optical networks (EONs). We present SPR with a heuristic algorithm that aims to minimize a cost function. The cost function depends on the number of transceivers and frequency slots (FSs) used to establish a working/protection lightpath (LP) with a tunable parameter that determines the weight of the number of transceivers and FSs in the cost function. SPR precalculates a protection LP for all links of each working LP. As a result, non-link-disjoint working LPs can share protection spectrum and transceivers on newly eased conditions. Like shared backup path protection (SBPP) and dedicated protection (1+1), SPR guarantees single link failure recovery. Our simulation results reveal that SPR outperforms SBPP in terms of recovered bandwidth in multiple link failures. Furthermore, SPR uses fewer transceivers compared to SBPP and 1+1 protection.
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EONs共享预计算恢复与共享备份路径保护的比较研究
提出了一种针对半透明弹性光网络中链路故障的共享预计算恢复机制。我们提出了一个启发式算法,旨在最小化成本函数的SPR。代价函数取决于用于建立工作/保护光路(LP)的收发器和频率槽位(FSs)的数量,该参数可调,该参数决定收发器和FSs数量在代价函数中的权重。SPR为每个工作LP的所有链路预先计算一个保护LP。因此,在新放宽的条件下,非链路断开的工作lp可以共享保护频谱和收发器。与共享备份路径保护(SBPP)和专用保护(1+1)一样,SPR保证单链路故障恢复。仿真结果表明,SPR在多链路故障恢复带宽方面优于SBPP。此外,与SBPP和1+1保护相比,SPR使用更少的收发器。
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