[1] 左新强.国家电网"三型两网"新战略带来全新变革[N/OL].中国能源报, 2019-04-22(21).[2020-06-02].http://paper.people.com.cn/zgnyb/html/2019-04/22/node_2222.htm. ZUO X Q.State grid's new strategy of "three types and two networks" brings new changes[N/OL].China Energy News, 2019-04-22(21).[2020-06-02].http://paper.people.com.cn/zgnyb/html/2019-04/22/node_2222.htm. (in Chinese) [2] 王毅, 陈启鑫, 张宁, 等.5G通信与泛在电力物联网的融合:应用分析与研究展望[J].电网技术, 2019, 43(5):1575-1585. WANG Y, CHEN Q X, ZHANG N, et al.Convergence of 5G communication and ubiquitous power Internet of Things:application analysis and research perspectives[J].Power Grid Technology, 2019, 43(5):1575-1585.(in Chinese) [3] REKA S S, DRAGICEVIC T.Future effectual role of energy delivery:a comprehensive review of Internet of Things and smart grid[J].Renewable and Sustainable Energy Reviews, 2018(91):90-108. [4] 梁玉珠, 沈雪微, 邱磊, 等.物联网中基于扩展卡尔曼滤波的移动群体定位[J].北京邮电大学学报, 2019, 42(2):95-100. LIANG Y Z, SHEN X W, QIU L, et al.Mobile group localization based on extended Kalman filtering in the Internet of Things[J].Journal of Beijing University of Posts and Telecommunications, 2019, 42(2):95-100.(in Chinese) [5] SHELBY Z, HARTKE K, BORMANN C.The Constrained Application Protocol(CoAP)[EB/OL].[2020-06-02].https://www.potaroo.net/ietf/rfc-pdf/rfc7252.pdf. [6] 宋衍, 傅骞.基于受限网络应用层协议的物联网应用代理研究与实现[J].计算机应用, 2013, 33(11):3010-3015. SONG Y, FU Q.Research and implementation of Internet of Things application agent based on limited network application layer protocol[J].Computer Application, 2013, 33(11):3010-3015.(in Chinese) [7] KHONGORZUL D, KIM Y, KIM M.Performance analysis of the stop-and-wait automatic repeat request protocol under Markovian interruptions[J].Frontiers information Technol Electronic Engineering, 2019, 20:1296-1306. [8] GOMEZ C, DEMIRKOL I, BORMANN C, et al.CoAP simplecongestioncontrol/advanced[EB/OL].[2020-06-02].http://tools.ietf.org/id/draft-bormann-core-cocoa-03.txt. [9] CHOI G, KIM D, YEOM I.Efficient streaming over CoAP[C]//Proceedings of 2016 International Conference on Information Networking.Washington D.C., USA:IEEE Press, 2016:476-478. [10] HERRERO R.Dynamic CoAP mode control in real time wireless IoT networks[J].IEEE Internet of Things Journal, 2019, 6(1):801-807. [11] JARVINEN I, DANIEL L, KOJO M.Experimental evaluation of alternative congestion control algorithms for Constrained Application Protocol (CoAP)[C]//Proceedings of the 2nd World Forum on Internet of Things.Washington D.C., USA:IEEE Press, 2015:453-458. [12] BHALERAO R, SUBRAMANIAN S S, PASQUALE J.An analysis and improvement of congestion control in the CoAP Internet-of-Things protocol[C]//Proceedings of the 13th IEEE Annual Consumer Communications & Networking Conference.Washington D.C., USA:IEEE Press, 2016:889-894. [13] ANCILLOTTI E, BRUNO R.Comparison of CoAP and CoCoA+ congestion control mechanisms for different IoT application scenarios[C]//Proceedings of 2017 Symposium on Computers & Communications.Washington D.C., USA:IEEE Press, 2017:1186-1192. [14] BETZLER A, GOMEZ C, DEMIRKOL I, et al.CoCoA+:an advanced congestion control mechanism for CoAP[J].Ad Hoc Networks, 2015, 33(7007):126-139. [15] ANCILLOTTI E, BRUNO R.BDP-CoAP:leveraging bandwidth-delay product for congestion control in CoAP[C]//Proceedings of the 5th World Forum on Internet of Things.Washington D.C., USA:IEEE Press, 2019:656-661. [16] 姜凯文.面向智能配电网数据通信的无线传感器网络拥塞控制研究[D].合肥:合肥工业大学, 2017. JIANG K W.Research on wireless sensor network congestion control for intelligent distribution network data communication[D].Heifei:Hefei University of Technology, 2017.(in Chinese) [17] 刘骥, 谭毓银, 符发, 等.MPTCP与CMT-SCTP拥塞控制机制研究[J].计算机工程, 2015, 41(4):117-124. LIU J, TAN Y Y, FU F, et al.Study on MPTCP and CMT-SCTP congestion control mechanism[J].Computer Engineering, 2015, 41(4):117-124.(in Chinese) [18] IGLESIAS-URKIA M, ORIVE A, URBIETA A, et al.Analysis of CoAP implementations for industrial Internet of Things:a survey[J].Journal of Ambient Intelligence & Human Computing, 2019, 10:2505-2518. [19] 程瑛颖, 肖冀, 周峰, 等.智能电表数据采集新型网络结构与传输协议[J].自动化与仪表, 2015, 30(7):9-12. CHENG Y Y, XIAO Y, ZHOU F, et al.New network structure and transmission protocol for smart meter data collection[J].Automation and Instrumentation, 2015, 30(7):9-12.(in Chinese) [20] BETZLER A, GOMEZ C, DEMIRKOL I, et al.CoAP congestion control for the Internet of Things[J].IEEE Communications Magazine, 2016, 54(7):154-160. [21] 何孟.CoAP自适应拥塞控制机制的研究[D].广州:暨南大学, 2018. HE M.Research on CoAP adaptive congestion control mechanism[D].Guangzhou:Jinan University, 2018.(in Chinese) [22] 李振涛, 任勇毛, 周旭, 等.BBR-TCP协议实验性能评价[J].计算机系统应用, 2018, 27(9):229-235. LI Z T, REN Y M, ZHOU X, et al.Performance evaluation of BBR-TCP based onexperimental[J].Computer System Applications, 2008, 27(9):229-235.(in Chinese) [23] VISHAL R, NATASHA J, SAMANVITA S, et al.CoCoA++:delay gradient based congestion control for Internet of Things[J].Future Generation Computer Systems, 2019, 100:1053-1072. |