采用仿生自适应端到端网络多路径路由实现负载均衡

Qiong Huang, Pengfei Yin, Qianbin Chen
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引用次数: 2

摘要

负载均衡是多径路由中最重要的问题之一。为此,本文提出了一种基于数学生物学模型ARAS的新型仿生自适应多路径路由(BAMR)协议,该协议受宿主大肠杆菌细胞的启发,调节其代谢合成以保持较高的细胞生长速度。BAMR采用路由决策来模仿生物系统的自适应行为。首先,BAMR将往返时延和路径可用带宽相结合,计算出一种新的仿生路由决策度量,即路径适应度,该适应度可等效为细胞体积的增长率。然后将每条路径的适应度应用到ARAS模型中,分别计算其数据包传递增益,该增益相当于细菌细胞中每种营养物质的浓度。最后,源节点为每个数据包选择具有最高数据包传输增益的路径。通过提出的路由协议,源节点可以有效地将流量分配到多条路径上,并在路径容量范围内将更多的流量分配到负载较小的路径上。
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A bio-inspired adaptive end-to-end network multi-path routing to achieve load-balance
Load-balance is one of the most important problems in the multipath routing. To this point, this paper proposed a new bio-inspired adaptive multipath routing (BAMR) protocol based on a mathematic biology model ARAS, which is inspired by the host Escherichia coli cells to regulate its metabolic synthesis to keep the high cell growth rate. The BAMR take the routing decision to imitate the adaptive behavior of biological systems. Firstly, BAMR integrates the round trip delay and the available bandwidth of path for calculating a new bio-inspired routing-decision metric, i.e., the path fitness, which can be equivalently regarded as the growth rate of cell volume. Then the fitness of each path is applied to the ARAS model to calculate its packet delivery gain, respectively, which is equivalent to the concentration of each nutrient in the bacterial cell. Finally, the source node chooses the path with the highest packet delivery gain for each packet. Through the proposed routing protocol, the source node can efficiently distributes traffic among multiple paths, and allocates more traffic to a less loaded path within the path capacity.
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