Telecommunications Science ›› 2018, Vol. 34 ›› Issue (6): 20-28.doi: 10.11959/j.issn.1000-0801.2018196
• Topic:ocean Internet • Previous Articles Next Articles
Quansheng GUAN,Weiqi CHEN,Hua YU,Fangjiong CHEN,Fei JI
Revised:
2018-06-09
Online:
2018-06-01
Published:
2018-07-03
Supported by:
CLC Number:
Quansheng GUAN,Weiqi CHEN,Hua YU,Fangjiong CHEN,Fei JI. Acoustic-radio cooperative marine information network[J]. Telecommunications Science, 2018, 34(6): 20-28.
[1] | 徐文, 鄢社锋, 季飞 ,等. 海洋信息获取、传输、处理及融合前沿研究评述[J]. 中国科学:信息科学, 2016,46(8):1053. |
XU W , LIN S F , JI F ,et al. A review of researches on the acquisition,transmission,processing and integration of oceanic information[J]. Scientia Sinica Informationis, 2016,46(8):1053. | |
[2] | 夏明华, 朱又敏, 陈二虎 ,等. 海洋通信的发展现状与时代挑战[J]. 中国科学:信息科学, 2017(6). |
XIA M H , ZHU Y M , CHEN E H ,et al. The status quo of the development of marine communications and the challenges of the times[J]. Scientia Sinica Informationis, 2017(6). | |
[3] | DINC E , AKAN O B . Beyond-line-of-sight communications with ducting layer[J]. IEEE Communications Magazine, 2014,52(10): 37-43. |
[4] | ZAIDI K S , JEOTI V , DRIEBERG M . Fading characteristics in evaporation duct:fade margin for a wireless link in the south china sea[J]. IEEE Access, 2018(6): 11038-11045. |
[5] | ZENG Y , ZHANG R , LIM T J . Wireless communications with unmanned aerial vehicles:opportunities and challenges[J]. IEEE Communications Magazine, 2016,54(5): 36-42. |
[6] | SOZER E M , STOJANOVIC M , PROAKIS J G . Underwater acoustic networks[J]. IEEE Journal on Oceanic Engineering, 2000,25(1): 72-83. |
[7] | AKYILDIZ I F , POMPILI D , MELODIA T . Underwater acoustic sensor networks:research challenges[J]. Ad Hoc Networks, 2005,33(3): 257-279. |
[8] | 许肖梅 . 水声通信与水声网络的发展与应用[J]. 声学技术, 2009,28(6): 811-816. |
XU X M . Development and applications of underwater acoustic communication and networks[J]. Technical Acoustics, 2009,28(6): 811-816. | |
[9] | 郑君杰, 阮鲲, 李延宾 ,等. 水声通信网络问题研究[J]. 电信科学, 2009,25(10): 63-66. |
ZHENG J J , RUAN K , LI Y B ,et al. Research of underwater acoustic communication network[J]. Telecommunications Science, 2009,25(10): 63-66. | |
[10] | 张曦, 闫涛, 王红卫 ,等. 基于交叉传输的水声通信网络MAC协议[J]. 电信科学, 2013,29(4): 106-111. |
ZHANG X , YAN T , WANG H W ,et al. A MAC protocol based on interleaving transmission for underwater acoustic network[J]. Telecommunications Science, 2013,29(4): 106-111. | |
[11] | LIU Y , CHEN F J , JI F ,et al. A new amphibious network infrastructure with hybrid acoustic and radio links[Z]. 2013. |
[12] | CHEN Y , JI F , GUAN Q . Adaptive RTO for handshaking-based mac protocols in underwater acoustic networks[J]. Future Generation Computer Systems, 2018. |
[13] | STOJANOVIC M , PREISIG J . Underwater acoustic communication channels:propagation models and statistical characterization[J]. IEEE Communications Magazine, 2009,47(1): 84-89. |
[14] | GORBAN A N , POKIDYSHEVA L I , SMIRNOVA E V . Law of the minimum paradoxes[J]. Bull Math Biol, 2011,73(9): 2013-2044. |
[15] | CHAKCHOUK N . A survey on opportunistic routing in wireless communication networks[J]. IEEE Communications Surveys & Tutorials, 2015,17(4): 2214-2241. |
[16] | LIU M , JI F , GUAN Q ,et al. On-surface wireless-assisted opportunistic routing for underwater sensor networks[Z]. 2016. |
[17] | LIU Z , GUAN Q , CHEN F ,et al. Outage probability analysis for unmanned underwater vehicle based relaying[C]// The 11th ACM International Conference on Underwater Networks &Systems,October 24-26,2016,Shanghai,China. New York:ACM Press, 2016. |
[18] | CHIANG M , LOW S H , CALDERBANK A R ,et al. Layering as optimization decomposition:a mathematical theory of network architectures[J]. Proceedings of the IEEE, 2007(95): 255-312. |
[19] | GUO M , JIANG S , GUAN Q . QoS provisioning performance of IntServ,DiffServ and DQS with multi-class self-similar traffic[J]. Transactions on Emerging Telecommunications Technologies, 2013,24(6): 600-614. |
[20] | GUO M , GUAN Q , JIANG S ,et al. A differentiated queueing service based admission control policy for wireless multimedia[C]// 2014 IEEE International Conference on Communications (ICC),June 10-14,2014,Sydney,NSW,Australia. Piscataway:IEEE Press, 2014. |
[21] | CAI Y , JIANG S , GUAN Q ,et al. Decoupling congestion control from TCP for multi-hop wireless networks (semi-TCP):an implementation study[J]. EURASIP Journal on Wireless Communications and Networking, 2013(149): 1-140. |
[22] | CHEN W , GUAN Q , JIANG S ,et al. Joint qos provisioning and congestion control for multi-hop wireless networks[J]. EURASIP Journal on Wireless Communications and Networking, 2016(19): 1-11. |
[23] | CHEN W , YU H , GUAN Q ,et al. Reliable and opportunistic transmissions for underwater acoustic networks[J]. IEEE Network, 2018,PP(99): 1-6. |
[24] | GUO B , MAO H , JIANG S ,et al. Domain-by-domain implementation of semi-TCP in all-optical networks[Z]. 2014. |
[25] | KUSHALNAGAR N , MONTENEGRO G , SCHUMACHER C . IPv6 over low-power wireless personal area networks(6LoWPANs):overview,assumptions,problem statement,and goals:RFC4919[S]. 2007. |
[26] | Integrated undersea surveillance system (IUSS)[Z] 2010. |
[27] | CURTIN T B , BELLINGHAM J G . Progress toward autonomous ocean sampling networks[J]. Deep Sea Research Part II Topical Studies in Oceanography, 2009,56(3-5): 62-67. |
[28] | RICE J , GREEN D . Underwater acoustic communications and networks for the us navy’s seaweb program[C]// Second International Conference on Sensor Technologies and Applications,August 25-31,2008,Cap Esterel,France. Piscataway:IEEE Press, 2008: 715-722. |
[29] | GRUND M , FREITAG L , PREISIG J ,et al. The PLUSNet underwater communications system:acoustic telemetry for undersea surveillance[C]// Oceans,Sept 18-21,2006,Boston,MA,USA. Piscataway:IEEE Press, 2006: 1-5. |
[30] | ACAR G , ADAMS A E . ACMENet:an underwater acoustic sensor network protocol for real-time environmental monitoring in coastal areas[J]. IEE Proceedings-Radar,Sonar and Navigation, 2006,153(4): 365-380. |
[31] | PALMER J , YUEN N , ORE J P ,et al. On air-to-water radio communication between UAVs and water sensor networks[C]// IEEE International Conference on Robotics and Automation,May 26-30,2015,Seattle,WA,USA. Piscataway:IEEE Press, 2015: 5311-5317. |
[32] | HATTAB G , ELTARHUNI M , ALALI M ,et al. An underwater wireless sensor network with realistic radio frequency path loss model[J]. International Journal of Distributed Sensor Networks, 2013(7): 188-192. |
[33] | 贺岩, 周田华, 陈卫标 ,等. 水下与空中平台蓝绿激光通信关键技术研究[J]. 科技资讯, 2016,14(1): 176-176. |
HE Y , ZHOU T H , CHEN W B ,et al. Headline:key technology research of laser communication between underwater and airborne platform[J]. Science & Technology Information, 2016,14(1): 176-176. | |
[34] | Defense Advanced Research Projects Agency.Request for information-next generation undersea communications[Z] 1989. |
[35] | JIANG S M , CHEN H . A possible development of marine internet:a large scale cooperative heterogeneous wireless network (extended version)[J]. Journal of Communication & Computer, 2015,12(4): 199-211. |
[36] | 李贺武, 吴茜, 徐恪 ,等. 天地一体化网络研究进展与趋势[J]. 科技导报, 2016,34(14): 95-106. |
LI H W , WU Q , XU K ,et al. Research progress and trend of the integrated network of heaven and earth[J]. Science & Technology Review, 2016,34(14): 95-106. |
[1] | Rong WANG, Jianyin ZHANG, Yue SONG, Hao ZHANG, Bin WEI. Architecture and key technologies of 5G power private network [J]. Telecommunications Science, 2022, 38(Z1): 240-249. |
[2] | Hongbin LUO, Shan ZHANG, Zhiyuan WANG. Interconnection and coexistence of heterogeneous network:requirements, challenges, and architecture [J]. Telecommunications Science, 2022, 38(6): 18-30. |
[3] | Zhigang YU, Xu FENG, Zhaoxiang HUANG, Zhou LU. Research on the architecture of space-ground integrated information network: integration of communication, networking and computing [J]. Telecommunications Science, 2022, 38(4): 11-29. |
[4] | Xiaodong DUAN, Tao SUN. Towards converged, intelligent, low-carbon characterized 5G-Advanced technologies [J]. Telecommunications Science, 2022, 38(3): 3-9. |
[5] | Xiaowen WU, Zhenfeng JIAO, Xiang LING, Bing LIU, Lidong ZHU, Lei HAN. Outlook on satellite communications network architecture for 6G [J]. Telecommunications Science, 2021, 37(7): 1-14. |
[6] | Yuhua HU,Yingqi TANG,Bei LI. 5G network co-construction and sharing mode [J]. Telecommunications Science, 2020, 36(9): 148-153. |
[7] | Wenyue CHEN,Yuneng CHEN,Cheng CHEN,Tingjing ZHANG. Analysis of rural OTN network planning and networking architecture [J]. Telecommunications Science, 2020, 36(2): 137-144. |
[8] | Huijuan ·AO, Liang GENG. Trend of next generation network architecture:computing and networking convergence evolution [J]. Telecommunications Science, 2019, 35(9): 38-43. |
[9] | Cong LI, Bo LEI, Chongfeng XIE, Yunhe LI. Trustworthy network based on blockchain technology [J]. Telecommunications Science, 2019, 35(10): 60-68. |
[10] | Hongyu XIANG,Xinran ZHANG,Zhuying PIAO,Mugen PENG. Network architecture in the 5Gmobile systems [J]. Telecommunications Science, 2018, 34(8): 10-18. |
[11] | Lihua WU,Lei SHEN. NFV resource pool planning and deploying scheme [J]. Telecommunications Science, 2018, 34(6): 99-106. |
[12] | Shengming JIANG. Marine internet:strategies,tactics and challenges [J]. Telecommunications Science, 2018, 34(6): 2-8. |
[13] | Chao DONG,Yankun CHEN. Analysis on marine monitoring and data service of marine internet [J]. Telecommunications Science, 2018, 34(6): 15-19. |
[14] | Zhenhua QU. Design of network architecture and method of bandwidth measure for IMS bearer network of State Grid [J]. Telecommunications Science, 2017, 33(7): 167-175. |
[15] | Xu DENG. L2/L3 equipment deployment scheme in PTN network architecture [J]. Telecommunications Science, 2017, 33(6): 164-170. |
Viewed | ||||||
Full text |
|
|||||
Abstract |
|
|||||
|