摘要
随机多址通信方式是计算机通信研究中不可或缺的一部分,针对传统的P坚持载波侦听多路访问(P-CSMA)协议对无线传感器网络(WSN)系统的传输控制并解决系统的能耗问题,提出了一种在WSN中碰撞时长可变的三时隙P-CSMA协议。该协议在传统的双时隙P-CSMA协议中加入了碰撞时长b,将系统模型改为三时隙模型,包含信息分组发送成功的时长、发生碰撞的时长以及空闲时长。通过建模分析了该模型下系统的吞吐量、碰撞率以及空闲率,发现通过改变碰撞时长可以降低系统的损耗。相比传统的P-CSMA协议,该协议使系统性能得到了改善,并使得在基于电池模型得到的系统节点的生命时长明显延长。通过分析,得到了本协议的系统仿真流程图。最后通过对比分析各个指标的理论值和仿真值,证明了理论推导的正确性。
Random multiple access communication is an indispensable part of computer communication research.A three-slot P-Persistent Carrier Sense Multiple Access(P-CSMA)protocol with variable collision duration in Wireless Sensor Network(WSN)was proposed to solve the problem of traditional P-CSMA protocol in transmitting and controlling WSN and energy consumption of system.In this protocol,the collision duration was added to the traditional two-time-slot P-CSMA protocol in order to change the system model to three-time-slot model,that is,the duration of information packet being sent successfully,the duration of packet collision and the idle duration of the system.Through the modeling,the throughput,collision rate and idle rate of the system under this model were analyzed.It was found that by changing the collision duration,the loss of the system was reduced.Compared with the traditional P-CSMA protocol,this protocol makes the system performance improved,and makes the lifetime of the system nodes obtained based on the battery model obviously extended.Through the analysis,the system simulation flowchart of this protocol is obtained.Finally,by comparing and analyzing the theoretical values and simulation values of different indexes,the correctness of the theoretical derivation is proved.
作者
李明亮
丁洪伟
李波
王丽清
保利勇
LI Mingliang;DING Hongwei;LI Bo;WANG Liqing;BAO Liyong(School of Information Science and Engineering,Yunnan University,Kunming Yunnan 650500,China)
出处
《计算机应用》
CSCD
北大核心
2020年第7期2038-2045,共8页
journal of Computer Applications
基金
国家自然科学基金资助项目(61461053,61461054)。
关键词
多址通信
碰撞时长可变
三时隙
P坚持载波侦听多路访问
生命时长
multiple access communication
variable collision duration
three-time-slot
P-Persistent Carrier Sense Multiple Access(P-CSMA)
lifetime