Page 140 - 201806
P. 140
970 2018 年 11 月
tem for multiple platforms[C]. IEEE Oceans Conference, a software-defined underwater acoustic modem with real-
Washington DC, 2005, 2: 1086–1092. time pphysical layer adaptation capabilities[C]// Interna-
[9] Singh S, Webster S E, Freitag L, et al. Acoustic commu- tional Conference on Underwater Networks & Systems.
nication performance of the WHOI Micro-Modem in sea ACM, 2014: 25.
trials of the Nereus vehicle to 11,000 m depth[C]. Oceans, [23] Li Y, Huang H. The design and experiment of a software-
2012: 1–8. defined acoustic modem for underwater sensor network[C].
[10] European Defence Agency (EDA). European understand- Proc. MTS/IEEE Oceans, 2010: 1–4.
ings for research organisation, programmes and activi- [24] 李宇, 黄海宁. 基于水声传感器网络的多路径协同多跳通信研
ties (EUROPA)[DB/OL]. [2015-01-28]. http://www.eda. 究 [J]. 应用声学, 2010, 29(5): 324–329.
europa.eu/RandTUserGuide/docs/default-document. Li Yu, Huang Haining. A multi-route cooperative multi-
[11] Dol H, Walree P V. Underwater acoustic communication hop communication for underwater acoustic sensor net-
research at TNO—Past and present[C]. Proc. IEEE/OES works[J]. Journal of Applied Acoustics, 2010, 29(5):
Oceans, 2011. 324–329.
[12] Leus G, Walree P A V. Multiband OFDM for covert
[25] Zhang J, Qiao G, Wang C. An intelligent management
acoustic communications[J]. IEEE Journal on Selected Ar-
platform for underwater acoustic modem[C]. International
eas in Communications, 2008, 26(9): 1662–1673.
Symposium on Computational Intelligence & Design.
[13] Yan H, Wan L, Zhou S, et al. DSP based receiver imple-
IEEE, 2013: 93–96.
mentation for OFDM acoustic modems[J]. Physical Com-
[26] 刘凇佐, 周锋, 孙宗鑫, 等. 单矢量水听器 OFDM 水声通信技
munication, 2012, 5(1): 22–32.
术实验 [J]. 哈尔滨工程大学学报, 2012, 33(8): 941–947.
[14] Yan H, Zhou S, Shi Z, et al. DSP implementation of SISO
Liu Songzuo, Zhou Feng, Sun Zongxin, et al. Experimen-
and MIMO OFDM acoustic modems[C]. Oceans, 2010:
tal study of OFDM underwater acoustic communication
1–6.
using a vector hydrophone[J]. Journal of Harbin Engineer-
[15] Chitre M, Freitag L, Sozer E, et al. An architecture for
ing University, 2012, 33(8): 941–947.
underwater networks[C]. Proc. OCEANS’06 Asia Pacific
[27] Wang C, Zhang Q, Yan Z. Implementation of under-
IEEE, 2006.
water acoustic modem based on the OMAP-L138 pro-
[16] Shahabudeen S, Chitre M, Motani M, et al. Unified simu-
cessor[C]. IEEE International Conference on Signal Pro-
lation and implementation software framework for under-
cessing, Communications and Computing. IEEE, 2014:
water MAC protocol development[C]. Proc. MTS/IEEE
800–805.
Oceans, 2009.
[28] 曾堃, 周跃海, 童峰. 时频差分 OFDM 水声语音通信系统的
[17] Carlson E A, Beaujean P P, An E. Simulating communi-
设计与实现 [J]. 厦门大学学报: 自然科学版, 2015, 54(3):
cation during multiple AUV operations[C]. Autonomous
404–408.
Underwater Vehicles, IEEE/OES, 2004, PP: 76–82.
Zeng Kun, Zhou Yuehai, Tong Feng. Design and imple-
[18] Shusta J, Freitag L, Partan J. A modular data link layer
mentation of time frequency differential OFDM under-
for underwater networks[C]. OCEANS, 2008, PP: 1–5.
water voice communication system[J]. Journal of Xiamen
[19] Casari P, Tapparello C, Guerra F, et al. Open source
University: Natural Science, 2015, 54(3): 404–408.
suites for underwater networking: WOSS and DESERT
underwater[J]. Network IEEE, 2014, 28(5): 38–46. [29] Berning F, Radtke T, Rautenberg S, et al. A realization
[20] Tapparello C, Casari P, Toso G, et al. Performance of the software defined radio concept in an underwater
evaluation of forwarding protocols for the RACUN net- communication modem[C]//Underwater Communications
work[C]. Eighth ACM International Conference on Un- and Networking. IEEE, 2015: 1–5.
derwater Networks and Systems. ACM, 2013: 1–8. [30] Wan L, Zhou H, Xu X, et al. Adaptive modulation and
[21] Demirors E, Sklivanitis G, Melodia T, et al. Software- coding for underwater acoustic OFDM[J]. IEEE Journal
defined underwater acoustic networks: toward a high- of Oceanic Engineering, 2015, 40(2): 327–336.
rate real-time reconfigurable modem[J]. IEEE Communi- [31] Chitre M, Bhatnagar R, Ignatius M, et al. Baseband sig-
cations Magazine, 2015, 53(11): 64–71. nal processing with unetstack[C]. Underwater Communi-
[22] Demirors E, Sklivanitis G, Santagati G E, et al. Design of cations & Networking, 2014: 1–4.
