C3S：基于相长干涉的智能传感系统并发传输策略研究

毛艳艳; 程大鹏; 冯烟利; 窦全胜; 李大社

doi:10.11959/j.issn.1000-436x.2019017

您当前的位置：

首页 >

文章列表页 >

C3S：基于相长干涉的智能传感系统并发传输策略研究

学术通信 | 更新时间：2024-06-05

- C3S：基于相长干涉的智能传感系统并发传输策略研究
- C3S:research of CI-based concurrent transmission strategy for intelligent sensing system
- 通信学报 2019年40卷第1期页码：180-194
- 作者机构：
  
  1. 山东工商学院计算机科学与技术学院，山东烟台 264005
  2. 中国石油大学（华东）地球科学与技术学院，山东青岛 266580
  3. 山东省高等学校协同创新中心：未来智能计算，山东烟台 264005
  4. 山东省高校智能信息处理重点实验室（山东工商学院），山东烟台 264005
- 作者简介：
  
  [ "毛艳艳（1979-），女，山东青岛人，山东工商学院讲师，主要研究方向为物联网技术、大数据处理。" ]
  [ "程大鹏（1979-），男，山东济宁人，博士，山东工商学院副教授，主要研究方向为无线传感器网络、时空大数据。" ]
  [ "冯烟利（1962-），男，山东烟台人，山东工商学院教授，主要研究方向为软件定义网络、智能信息处理。" ]
  [ "窦全胜（1971-），男，黑龙江大庆人，博士，山东工商学院教授，主要研究方向为解决优化问题的计算智能理论与方法、数据挖掘、知识工程与知识处理。" ]
  [ "李大社（1978-），男，山东临沂人，博士，山东工商学院副教授，主要研究方向为无线传感器网络。" ]
- 基金信息：
  
  国家自然科学基金资助项目(61772319);山东省自然科学基金资助项目(ZR2017MF049);赛尔网络下一代互联网技术创新基金资助项目(NGII20180609)
- DOI：10.11959/j.issn.1000-436x.2019017
  中图分类号： TP393
- 网络出版日期：2019-01，
  
  纸质出版日期：2019-01-25
- 稿件说明：
移动端阅览
毛艳艳, 程大鹏, 冯烟利, 等. C3S：基于相长干涉的智能传感系统并发传输策略研究[J]. 通信学报, 2019,40(1):180-194.

Yanyan MAO, Dapeng CHENG, Yanli FENG, et al. C3S:research of CI-based concurrent transmission strategy for intelligent sensing system[J]. Journal on communications, 2019, 40(1): 180-194.
毛艳艳, 程大鹏, 冯烟利, 等. C3S：基于相长干涉的智能传感系统并发传输策略研究[J]. 通信学报, 2019,40(1):180-194. DOI： 10.11959/j.issn.1000-436x.2019017.

Yanyan MAO, Dapeng CHENG, Yanli FENG, et al. C3S:research of CI-based concurrent transmission strategy for intelligent sensing system[J]. Journal on communications, 2019, 40(1): 180-194. DOI： 10.11959/j.issn.1000-436x.2019017.

摘要

并发传输技术对于智能传感系统具有重要意义。所提出的C3S策略基于相长干涉技术，由智能时钟同步层、智能能耗分配层和智能并行流水线层组成。智能时钟同步层设计了基于相长干涉的智能时钟校准算法ICCA，智能能耗分配层设计了相长干涉能量自适应调度方案 CIES，智能并行流水线层实现了基于相长干涉的并行流水线CI2P。实验结果表明，C3S策略可以有效提升智能传感系统并发传输的分组接收率，降低系统的能量消耗，改善系统的信道利用率。

Abstract

Concurrent transmission technology has important sense for Intelligent Sensing System (ISS).The C3S strategy based with constructive interference (CI) was proposed.C3S was composed of intelligent clock synchronization layer

intelligent energy consumption allocation layer and intelligent parallel pipeline layer.The intelligent clock synchronization layer designed ICCA

a CI-based intelligent clock calibration algorithm.The intelligent energy allocation layer designed CIES

a energy adaptive scheduling scheme for CI

Moreover

a CI-based parallel pipeline CI2P was implemented in the intelligent parallel pipeline layer.The experimental results show that the C3S strategy can effectively improve the packet receiving rate of the concurrent transmission in ISS.It can also reduce the energy consumption of ISS and improve the channel utilization rate of ISS.

关键词

Keywords

references

ZHANG P , WANG S K , GUO K H , et al . A secure data collection scheme based on compressive sensing in wireless sensor networks [J ] . Ad Hoc Networks , 2018 , 70 ( 3 ): 73 - 84 .

WEN W M,ZHAO S H , SHANG C JU , et al . EAPC:energy-aware path construction for data collection using mobile sink in wireless sensor networks [J ] . IEEE Sensors Journal , 2018 , 18 ( 2 ): 890 - 901

ILLIANO V P , MUNOZ-GONZÁLEZ L , LUPU E C . Don't fool me!:detection,characterisation and diagnosis of spoofed and masked events in wireless sensor networks [J ] . IEEE Transactions on Dependable and Secure Computing , 2017 , 14 ( 3 ): 279 - 293

ABU-MAHFOUZ A M , HANCKE G P . Localised information fusion techniques for location discovery in wireless sensor networks [J ] . International Journal of Sensor Networks , 2018 , 26 ( 1 ): 12 - 25

ERDEL J M , NATALIZIO E , CHOWDHURY K R , et al . Help from the sky:leveraging UAVs for disaster management [J ] . IEEE Pervasive Computing , 2017 , 16 ( 1 ): 24 - 32 .

DÂMASO A , ROSA N , MACIEL P . Integrated evaluation of reliability and power consumption of wireless sensor networks [J ] . Sensors , 2017 , 17 ( 11 ): 2547 .

SÁNCHEZ-ÁLVAREZ D , LINAJE M , RODRÍGUEZ-PÉREZ F J . A framework to design the computational load distribution of wireless sensor networks in power consumption constrained environments [J ] . Sensors , 2018 , 18 ( 4 ): 954 - 973 .

ANISI M H , ABDUL-SALAAM G , IDRIS M Y I , et al . Energy harvesting and battery power based routing in wireless sensor networks [J ] . Wireless Networks , 2017 , 23 ( 1 ): 249 - 266

MUKHERJEE M , SHU L , HU L , et al . Sleep scheduling in industrial wireless sensor networks for toxic gas monitoring [J ] . IEEE Wireless Communications , 2017 , 24 ( 4 ): 106 - 112

SAHOO P K , THAKKAR H K , HWANG I . Pre-scheduled and self organized sleep-scheduling algorithms for efficient k-coverage in wireless sensor networks [J ] . Sensors , 2017 , 17 ( 12 ): 2945 .

KUMAR A , SHWE H Y , WONG K J , et al . Location-based routing protocols for wireless sensor networks:a survey [J ] . Wireless Sensor Network , 2017 , 9 ( 01 ): 25 .

KURT S , YILDIZ H U , YIGIT M , et al . Packet size optimization in wireless sensor networks for smart grid applications [J ] . IEEE Transactions on Industrial Electronics , 2017 , 64 ( 3 ): 2392 - 2401

GOMES R D , QUEIROZ D V , LIMA FILHO A C , et al . Real-time link quality estimation for industrial wireless sensor networks using dedicated nodes [J ] . Ad Hoc Networks , 2017 , 59 : 116 - 133

JAVAID N , HAFEEZ T , WADUD Z , et al . Establishing a cooperation-based and void node avoiding energy-efficient underwater WSN for a cloud [J ] . IEEE Access , 2017 , 5 : 11582 - 11593 .

SAHOO P K , PATTANAIK S R , WU S L.A reliable data transmission model for IEEE 802.15 . 4E enabled wireless sensor network under WiFi interference [J ] . Sensors , 2017 , 17 ( 6 ): 1320 .

PRABAL D , STEPHEN D H , YIN C , et al . Design and evaluation of a versatile and efficient receiver-initiated link layer for low-power wireless [C ] // The 8th ACM Conference on Embedded Networked Sensor Systems , 2010 , 1 - 14 .

FEDERICO F , MARCO Z , LOTHAR T , et al . Efficient network flooding and time synchronization with Glossy [C ] // The 10th International Conference on Information Processing in Sensor Networks . 2011 , 73 - 84 .

FEDERICO F , MARCO Z , LUCA M , et al . Low-power wireless bus [C ] // The 10th ACM Conference on Embedded Network Sensor Systems . 2012 , 1 - 14 .

MAKOTO S , YASUTAKA Y , HIROYUKI M . Field-oriented wireless sensor networks using low-power,end-to-end reliable collection protocol [C ] // The 77th IEEE Vehicular Technology Conference . 2013 , 1 - 5 .

MANJUNATH D , MUN C C , BEN L . Splash:fast data dissemination with constructive interference in wireless sensor networks [C ] // The 10th USENIX Symposium on Networked Systems Design and Implementation . 2013 , 269 - 282 .

WANG Y , HE Y , MAO X F , et al . Exploiting constructive interference for scalable flooding in wireless networks [J ] . IEEE/ACM Transactions on Networking , 2013 , 21 ( 6 ): 1880 - 1889 .

DOUG C , MARCUS C , ANDREAS T , et al . Forwarder selection in multi-transmitter networks [C ] // IEEE International Conference on Distributed computing in sensor systems . 2013 , 1 - 10 .

WANG Y , HE Y , CHENG D P , et al . Triggercast:enabling wireless constructive collisions [C ] // The 32nd IEEE International Conference on Computer Communications,mini conference . 2013 , 480 - 484 .

WANG Y , LIU Y H , HE Y , et al . Disco:Improving packet delivery via deliberate synchronized constructive interference [J ] . IEEE Transactions on Parallel and Distributed Systems , 2015 , 26 ( 3 ): 713 - 723

DOUG C , ANDREAS T . Flip-MAC:a density-adaptive contentionreduction protocol for efficient any-to-one communication [C ] // IEEE International Conference on Distributed computing in sensor systems . 2011 , 1 - 8

OLAF L , FEDERICO F , MARCO Z . Chaos:versatile and efficient all-to-all data sharing and in-network processing at scale [C ] // The 11th ACM Conference on Embedded Networked Sensor Systems . 2013 , 1 - 14

KASIM S Y , AYLIN K . Time synchronization based on slow- flooding in wireless sensor networks [J ] . IEEE Transactions on Parallel and Distributed Systems , 2014 , 25 ( 1 ): 244 - 253

ÖSTERLIND F , LUCA M , THIEMO V , et al . Strawman:resolving collisions in bursty low-power wireless networks [C ] // The 11th international conference on Information Processing in Sensor Networks . 2012 , 161 - 172

JI X Y , HE Y , WANG J L , et al . Walking down the STAIRS:efficient collision resolution for wireless sensor networks [C ] // The 33rd IEEE International Conference on Computer Communications . 2014 , 961 - 969 .

ROMAN L , FEDERICO F , MARCO Z , et al . Flocklab:a testbed for distributed,synchronized tracing and profiling of wireless embedded systems [C ] // ACM/IEEE International Conference on Information Processing in Sensor Networks . 2013 , 153 - 165 .

MARCO Z , FEDERICO F , LUCA M , et al . pTunes:runtime parameter adaptation for low-power MAC protocols [C ] // The 11th International Conference on Information Processing in Sensor Networks . 2012 , 173 - 184 .

CHRISTOPH L , PHILIPP S , ROGER W . PulseSync:an efficient and scalable clock synchronization protocol [J ] . IEEE/ACM Transactions on Networking , 2015 , 23 ( 3 ): 717 - 727 .

NIRANJINI R , PATRICK L , ANTHONY R . Visual light landmarks for mobile devices [C ] // The 13th International Symposium on Information Processing in Sensor Networks , 2014 , 249 - 260 .

KHALED A , LI X Y , WANG Y , et al . Geometric spanners for wireless ad hoc networks [J ] . IEEE Transactions on Parallel and Distributed Systems , 2003 , 14 ( 4 ): 408 - 421 .

浏览量

1036

下载量

CSCD

文章被引用时，请邮件提醒。

提交

工具集

关联资源

暂无数据