Cooperative Networking towards Maritime Cyber Physical Systems

Tingting Yang; Hailong Feng; Chengming Yang; Zhonghua Sun; Jiadong Yang; Fan Sun; Ruilong Deng; Zhou Su

doi:10.1155/2016/3906549

Cooperative Networking towards Maritime Cyber Physical Systems

Tingting Yang
, Hailong Feng
, Chengming Yang
, Zhonghua Sun
, Jiadong Yang
, Fan Sun
, Ruilong Deng
, Zhou Su

Research output: Contribution to journal › Article › peer-review

6 Scopus citations

Abstract

An innovative paradigm named Cooperative Cognitive Maritime Cyber Physical Systems (CCMCPSs) is developed to achieve high-speed and low-cost communication services. The analysis of the available white space at sea, as well as the framework, is presented. Specifically, a bilevel game with two stages of PUs-to-SUs (primary users to secondary users) and SUs-to-SUs is proposed, to address the resource allocation issue of Decode-and-Forward (DF) relay mode with maximal-ratio combining (MRC) receiving mode in destination. Stackelberg game with priority is employed between PU and SUs, while a symmetrical system model is considered among SUs-to-SUs. The game theoretic procedure that converges to Nash equilibrium based on the utility and payoff function is illustrated. Simulation results demonstrate that our proposed strategy could effectively increase the throughput as well as the payoffs of the system.

Original language	English
Article number	3906549
Journal	International Journal of Distributed Sensor Networks
Volume	2016
DOIs	https://doi.org/10.1155/2016/3906549
State	Published - 2016
Externally published	Yes

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title = "Cooperative Networking towards Maritime Cyber Physical Systems",

abstract = "An innovative paradigm named Cooperative Cognitive Maritime Cyber Physical Systems (CCMCPSs) is developed to achieve high-speed and low-cost communication services. The analysis of the available white space at sea, as well as the framework, is presented. Specifically, a bilevel game with two stages of PUs-to-SUs (primary users to secondary users) and SUs-to-SUs is proposed, to address the resource allocation issue of Decode-and-Forward (DF) relay mode with maximal-ratio combining (MRC) receiving mode in destination. Stackelberg game with priority is employed between PU and SUs, while a symmetrical system model is considered among SUs-to-SUs. The game theoretic procedure that converges to Nash equilibrium based on the utility and payoff function is illustrated. Simulation results demonstrate that our proposed strategy could effectively increase the throughput as well as the payoffs of the system.",

author = "Tingting Yang and Hailong Feng and Chengming Yang and Zhonghua Sun and Jiadong Yang and Fan Sun and Ruilong Deng and Zhou Su",

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doi = "10.1155/2016/3906549",

language = "英语",

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T1 - Cooperative Networking towards Maritime Cyber Physical Systems

AU - Yang, Tingting

AU - Feng, Hailong

AU - Yang, Chengming

AU - Sun, Zhonghua

AU - Yang, Jiadong

AU - Sun, Fan

AU - Deng, Ruilong

AU - Su, Zhou

PY - 2016

Y1 - 2016

N2 - An innovative paradigm named Cooperative Cognitive Maritime Cyber Physical Systems (CCMCPSs) is developed to achieve high-speed and low-cost communication services. The analysis of the available white space at sea, as well as the framework, is presented. Specifically, a bilevel game with two stages of PUs-to-SUs (primary users to secondary users) and SUs-to-SUs is proposed, to address the resource allocation issue of Decode-and-Forward (DF) relay mode with maximal-ratio combining (MRC) receiving mode in destination. Stackelberg game with priority is employed between PU and SUs, while a symmetrical system model is considered among SUs-to-SUs. The game theoretic procedure that converges to Nash equilibrium based on the utility and payoff function is illustrated. Simulation results demonstrate that our proposed strategy could effectively increase the throughput as well as the payoffs of the system.

AB - An innovative paradigm named Cooperative Cognitive Maritime Cyber Physical Systems (CCMCPSs) is developed to achieve high-speed and low-cost communication services. The analysis of the available white space at sea, as well as the framework, is presented. Specifically, a bilevel game with two stages of PUs-to-SUs (primary users to secondary users) and SUs-to-SUs is proposed, to address the resource allocation issue of Decode-and-Forward (DF) relay mode with maximal-ratio combining (MRC) receiving mode in destination. Stackelberg game with priority is employed between PU and SUs, while a symmetrical system model is considered among SUs-to-SUs. The game theoretic procedure that converges to Nash equilibrium based on the utility and payoff function is illustrated. Simulation results demonstrate that our proposed strategy could effectively increase the throughput as well as the payoffs of the system.

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DO - 10.1155/2016/3906549

M3 - 文章

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VL - 2016

JO - International Journal of Distributed Sensor Networks

JF - International Journal of Distributed Sensor Networks

M1 - 3906549

ER -

Cooperative Networking towards Maritime Cyber Physical Systems

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