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Underwater acoustic networks environment simulation with combination of BELLHOP and OPNET modeler

机译：结合BELLHOP和OPNET Modeler进行水声网络环境仿真

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Network simulation is highly indispensable for underwater acoustic network design and research. OPNET Modeler is efficient and popular in terrestrial wireless network simulation, however, suffering from no reasonable and suitable underwater acoustic channel model. Thus most of the network simulation for underwater acoustic networks only focus on routing and MAC protocols but ignore the realistic simulation of physical layer. Thus the results can not precisely reflect the performance of the protocol. In this paper, we take full consideration of the characteristics of underwater acoustic channel such as multipath effect, oceanic noise and frequency-selective fading. A collaborated simulation method is presented for underwater acoustic network simulation, by exploiting the combined advantages of BELLHOP and OPNET Modeler, which could provide a realistic and elaborate underwater acoustic network simulation environment.

机译：网络模拟对于水下声网络的设计和研究是必不可少的。 OPNET Modeler在地面无线网络仿真中非常有效且广受欢迎，但是它没有合理且合适的水下声通道模型。因此，大多数水下声学网络的网络仿真仅关注路由和MAC协议，而忽略了物理层的实际仿真。因此，结果不能准确反映协议的性能。在本文中，我们充分考虑了水下声通道的特性，例如多径效应，海洋噪声和频率选择性衰落。通过利用BELLHOP和OPNET Modeler的结合优势，提出了一种用于水声网络仿真的协同仿真方法，可以提供一个现实而精细的水声网络仿真环境。

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来源
《OCEANS 2017 - Aberdeen》|2017年|1-4|共4页
会议地点 Aberdeen(GB)
作者
Ruiqin Zhao; Miao Li; Weigang Bai;
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作者单位

Key Laboratory of Ocean Acoustics and Sensing (Northwestern Polytechnical University), Ministry of Industry and Information Technology, Xi'an, China;

Key Laboratory of Ocean Acoustics and Sensing (Northwestern Polytechnical University), Ministry of Industry and Information Technology, Xi'an, China;

Key Laboratory of Ocean Acoustics and Sensing (Northwestern Polytechnical University), Ministry of Industry and Information Technology, Xi'an, China;

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会议组织
原文格式 PDF
正文语种 eng
中图分类
关键词
Underwater acoustics; Mathematical model; MATLAB; Oceans; Pipelines; Physical layer; Receivers;

机译：水下声学;数学模型; MATLAB;海洋;管道;物理层;接收器;;

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专利

1. Attack simulation model and channel statistics in underwater acoustic sensor networks [J] . Jing Nan, Bi Weihong, Yue Qing Tsinghua Science and Technology . 2011,第6期

机译：水下声传感器网络的攻击仿真模型和信道统计
2. Attack Simulation Model and Channel Statistics in Underwater Acoustic Sensor Networks [J] . Nan Jing, Weihong Bi, Qing Yue 清华大学学报（英文版） . 2011,第006期

机译：水下声传感器网络的攻击仿真模型和信道统计
3. OPNET-based modeling and simulation study on handoffs in Internet-based infrastructure wireless mesh networks [J] . Weiyi Zhao, Jiang Xie Computer networks . 2011,第12期

机译：基于OPNET的基于Internet的基础架构无线网状网络中切换的建模和仿真研究
4. Underwater Acoustic Networks Environment Simulation with Combination of BELLHOP and OPNET Modeler [C] . Ruiqin Zhao, Miao Li, Weigang Bai Oceans (Conference) . 2017

机译：带有Bellhop和Opnet Modeler组合的水下声学网络环境模拟
5. Environment Models for Realistic Simulation and Emulation of Wireless Networks. [D] . Wang, Xiaohui. 2014

机译：无线网络的逼真的仿真和仿真的环境模型。
6. A Stratified Acoustic Model Accounting for Phase Shifts for Underwater Acoustic Networks [O] . Ping Wang, Lin Zhang, Victor O. K. Li 2013

机译：水下声学网络相移的分层声学模型
7. OPNET-based Simulation and Research on MAC Protocol of Data Link Layer in Underwater Acoustic Networks [O] . 樊光辉 2008

机译：基于OPNET的水下声网数据链路层MAC协议仿真研究

Underwater acoustic networks environment simulation with combination of BELLHOP and OPNET modeler

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