{"title":"基于NS-3的CR认知网络仿真平台研究 Research of Cognitive Radio Network Simulation Platform Based on NS3","authors":"杨德智, 李白萍, 崔翠梅","doi":"10.12677/HJWC.2017.71004","DOIUrl":null,"url":null,"abstract":"认知无线电技术为缓解频谱资源紧缺,提高频谱利用率提供了重要解决方案。但目前尚缺乏验证相关理论的成熟原型和仿真平台,而且一些实验平台和设备无法实现认知网络跨层协作。针对缺少仿真验证平台和跨层协作问题,提出并实现了一种基于新型网络模拟器NS3的认知网络仿真平台CRE-NS3。该平台扩展了认知无线电的频谱感知功能,采用跨层协作方法实现频谱在空、时、频多域的有效利用。实验结果表明,CRE-NS3平台可实现跨层协议和认知功能的仿真验证,并可扩展到实际大规模无线网络的应用中,为下一代无线网络关键技术的研究提供了重要验证工具。 Cognitive radio has been proposed as a viable solution to alleviate spectrum scarcity problems and improve spectrum efficiency. However, some related theories were difficult to be verified because of the absence of mature prototype and experimental platform. Also, some cross-layered protocols in cognitive radio networks cannot be trivially implemented in off-the-shelf hardware. To resolve these problems, therefore, a new cognitive radio extension framework based on NS3 simulator (CRE-NS3) was proposed and implemented. This simulation platform incorporated some functions of cognitive radio and cross-layered protocols to improve spectrum efficiency in space, time and frequency. The simulation results show that the CRE-NS3 verified the feasibilities of cross-layered protocols and cognitive capabilities. Moreover, it can be extended to the actual larger-scale cognitive networks, and provides an approach to research of key techniques in next- generation wireless networks.","PeriodicalId":66606,"journal":{"name":"无线通信","volume":"07 1","pages":"23-30"},"PeriodicalIF":0.0000,"publicationDate":"2017-02-10","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"1","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"无线通信","FirstCategoryId":"1093","ListUrlMain":"https://doi.org/10.12677/HJWC.2017.71004","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"","JCRName":"","Score":null,"Total":0}
引用次数: 1
Abstract
认知无线电技术为缓解频谱资源紧缺,提高频谱利用率提供了重要解决方案。但目前尚缺乏验证相关理论的成熟原型和仿真平台,而且一些实验平台和设备无法实现认知网络跨层协作。针对缺少仿真验证平台和跨层协作问题,提出并实现了一种基于新型网络模拟器NS3的认知网络仿真平台CRE-NS3。该平台扩展了认知无线电的频谱感知功能,采用跨层协作方法实现频谱在空、时、频多域的有效利用。实验结果表明,CRE-NS3平台可实现跨层协议和认知功能的仿真验证,并可扩展到实际大规模无线网络的应用中,为下一代无线网络关键技术的研究提供了重要验证工具。 Cognitive radio has been proposed as a viable solution to alleviate spectrum scarcity problems and improve spectrum efficiency. However, some related theories were difficult to be verified because of the absence of mature prototype and experimental platform. Also, some cross-layered protocols in cognitive radio networks cannot be trivially implemented in off-the-shelf hardware. To resolve these problems, therefore, a new cognitive radio extension framework based on NS3 simulator (CRE-NS3) was proposed and implemented. This simulation platform incorporated some functions of cognitive radio and cross-layered protocols to improve spectrum efficiency in space, time and frequency. The simulation results show that the CRE-NS3 verified the feasibilities of cross-layered protocols and cognitive capabilities. Moreover, it can be extended to the actual larger-scale cognitive networks, and provides an approach to research of key techniques in next- generation wireless networks.
Research of Cognitive Radio Network Simulation Platform Based on NS-3 for CR Cognitive Network Simulation Platform
Cognitive radio technology provides an important solution to alleviate the shortage of spectrum resources and improve spectrum utilization. However, there is currently a lack of mature prototypes and simulation platforms to validate relevant theories, and some experimental platforms and devices cannot achieve cross layer collaboration in cognitive networks. A cognitive network simulation platform CRE-NS3 based on a new network simulator NS3 is proposed and implemented to address the lack of simulation verification platforms and cross layer collaboration issues. This platform extends the spectrum sensing function of cognitive radio and adopts cross layer collaboration methods to effectively utilize the spectrum in multiple domains of space, time, and frequency. The experimental results indicate that the CRE-NS3 platform can achieve simulation verification of cross layer protocols and cognitive functions, and can be extended to practical large-scale wireless network applications, providing an important verification tool for the research of key technologies in next-generation wireless networks. Cognitive radio has been proposed as a viable solution to alleviate spectrum scaling problems and improve spectrum efficiency How, some related topics were complicated to be verified because of the absence of material prototype and experimental platform Also, some cross layered protocols in cognitive radio networks cannot be trivially implemented in off the shelf hardware To resolve these problems, there are, a new cognitive radio extension framework based on NS3 simulator (CRE-NS3) was proposed and implemented This simulation platform incorporated some functions of cognitive radio and cross layered protocols to improve spectrum efficiency in space, time, and frequency The simulation results show that the CRE-NS3 verified the capabilities of cross layered protocols and corresponding capabilities Beyond, it can be extended to the actual larger scale cognitive networks, and provides an approach to research of key technologies in next generation wireless networks