Flexible optical network is a promising technology to accommodate high-capacity demands in next-generation networks. To ensure uninterrupted communication, existing lightpath provisioning schemes are mainly done with the assumption of worst-case resource under-provisioning and fixed channel spacing, which preserves an excessive signal-to-noise ratio (SNR) margin. However, under a resource over-provisioning scenario, the excessive SNR margin restricts the transmission bit-rate or transmission reach, leading to physical layer resource waste and stranded transmission capacity. To tackle this challenging problem, we leverage an iterative feedback tuning algorithm to provide a just-enough SNR margin, so as to maximize the network throughput. Specifically, the proposed algorithm is implemented in three steps. First, starting from the high SNR margin setup, we establish an integer linear programming model as well as a heuristic algorithm to maximize the network throughput by solving the problem of routing, modulation format, forward error correction, baud-rate selection, and spectrum assignment. Second, we optimize the channel spacing of the lightpaths obtained from the previous step, thereby increasing the available physical layer resources. Finally, we iteratively reduce the SNR margin of each lightpath until the network throughput cannot be increased. Through numerical simulations, we confirm the throughput improvement in different networks and with different baud-rates. In particular, we find that our algorithm enables over 20\% relative gain when network resource is over-provisioned, compared to the traditional method preserving an excessive SNR margin.
翻译:灵活的光学网络是一种很有希望的技术,可以满足下一代网络的高容量需求。为了确保不间断的通信,现有的光路提供计划主要是假设最坏情况的资源供应不足和固定的频道间距,从而保持一个过度的信号-噪音比值。然而,在资源过多的情况下,过度的 SNR 差幅限制了传输比特率或传输能力,导致物理层资源浪费和受困的传输能力。为了解决这个具有挑战性的问题,我们利用迭代反馈调算法来提供一个公正的SNR差幅,以便最大限度地扩大网络的吞吐量。具体地说,拟议的算法是分三步执行的。首先,从高的SNR差幅设置开始,我们建立一个整数线性编程编程模型,并作为一种超常的算法,通过解决路程、调制格式、前方错误校正、审计率选择和频谱分配问题。第二,我们优化了从前一步获得的光路段的频道间距,从而增加现有的物理层资源量。具体地算法,首先从高的线程资源网络设置,最后,我们无法通过不同的网络的平流路面平流法来确认,我们通过不同的平流的平流法,直到平流的平流的平流法,我们通过不同的平流路的平流的平流的平流法,我们通过不同的计算法。