Improving Network Security Based on Trust-Aware Routing Protocols Using Long Short-Term Memory-Queuing Segment-Routing Algorithms

V. Muthukumaran, V. Vinothkumar, Rose Bindu Joseph, Meram Munirathanam, B. Jeyakumar
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引用次数: 12

Abstract

Defending all single connection failures for a particular system, segment routing issue, the switch will focus on the problems of selecting a small subset of trust-aware routing to improve the deep learning (DL). In the end, even if there were multiple path failures, these paths may introduce long-term, unnecessary overload in the proposed long short-term memory networks-based queuing routing segmentation (LSTM-QRS) experience of reducing traffic delays and adjusting traffic length by reducing network bandwidth. The critical factor is a novel traffic repair technique used to create a traffic repair path that switches to software-defined network (SDN) using multiple routing and providing additional flexibility in re-routing using long short-term memory networks (LSTM)-based queuing routing segment (LSTM-QRS) algorithms. It reduces the repair path length and recommends replacing the target-based traffic with the connection-based traffic fault detection router to avoid targeted traffic network congestion.
基于信任感知路由协议的长短期内存排队段路由算法提高网络安全性
为了保护特定系统的所有单连接故障,分段路由问题,交换机将专注于选择一小部分信任感知路由以改进深度学习(DL)的问题。最后,即使存在多条路径故障,这些路径也可能在建议的基于长短期内存网络的排队路由分段(LSTM-QRS)体验中引入长期的、不必要的过载,通过减少网络带宽来减少流量延迟和调整流量长度。关键因素是一种新的交通修复技术,用于创建交通修复路径,该路径使用多个路由切换到软件定义网络(SDN),并使用基于长短期记忆网络(LSTM)的排队路由段(LSTM- qrs)算法在重新路由时提供额外的灵活性。减少修复路径长度,建议使用基于连接的流量故障检测路由器替换目标流量,避免目标流量网络拥塞。
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