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对光纤通信网络进行云计算处理和调度,可改善光纤通信网络数据交换能力,优化云计算数据中心的光纤配线选取和调度的可靠性。传统方法采用单模双工决策调度方法进行光纤配线选取和调度,容易受到用户节点间自扰特征影响,导致调度性能差。提出基于链路节点自适应收发控制的光纤配线调度模型,通过对光纤通信网络的配线路由进行设计,提取云计算数据中心的光纤通信数据传输信息流高阶谱特征,采用链路节点自适应收发控制方法对云计算数据中心的光纤配线信道进行均衡控制,实现光纤配线路由优化和数据传输调度信道的均衡处理。实验结果证明,采用改进的方法进行光纤配线选取与调度建立的模型,准确度高,时间短,具有一定的优势。
Performing cloud computing processing and dispatching on the optical fiber communication network can improve the data exchange capability of the optical fiber communication network and optimize the optical fiber wiring selection and dispatching in the cloud computing data center. The traditional method adopts the single-mode duplex decision-making scheduling method to select and schedule the optical fiber wiring and is easily affected by the self-interference feature among the users, resulting in poor scheduling performance. This paper proposes an optical fiber wiring scheduling model based on link node adaptive sending and receiving control. By designing the routing of optical fiber communication network, this paper extracts the high-order spectral features of optical fiber communication data transmission in cloud computing data center, Adapt to the send and receive control method Equalize the optical fiber distribution channel in the cloud computing data center to achieve the optical fiber routing route optimization and data transmission scheduling channel equalization. The experimental results show that the improved method of optical fiber wiring selection and scheduling model established with high accuracy, short time, has some advantages.