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Integrated Wireless Networking Architecture for Maritime Communications. Authors: Wencai Du, Ma Zhen gxin , Youn Bai , etc. by Jeong - Ganghee. Wireless Mesh Networks: a survey. By lan F. Akyildiz , Xudong Wang, Welin Wang Computer Network, 2005. by Jeong - Ganghee.
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Integrated Wireless Networking Architecture for Maritime Communications. Authors:Wencai Du, Ma Zhen gxin, YounBai, etc. by Jeong - Ganghee Advanced Operating System – Spring 2012
Wireless Mesh Networks:a survey Bylan F. Akyildiz, Xudong Wang, Welin WangComputer Network, 2005 by Jeong - Ganghee Advanced Operating System – Spring 2012
Advanced Operating System – Spring 2012 • A WMN is dynamically self-organized & self-configured. • The GW/bridge functionalities in mesh routers enable the integration of WMNs with various existing wireless networks. • Deploying a WMN is not too difficult. Introduction
Advanced Operating System – Spring 2012 • WMNs consist of two types of nodes:mesh routers & mesh clients. • The architecture of WMNs can be classified into three main groups: • Infrastructure/Backbone • Client WMNs • Hybrid WMNs Network architecture
Advanced Operating System – Spring 2012 • Infrastructure/Backbone Network architecture
Advanced Operating System – Spring 2012 • Client WMNs • One type of radios on devices. • End-user applications Network architecture
Advanced Operating System – Spring 2012 • Hybrid WMNs Network architecture
Advanced Operating System – Spring 2012 • Multi-hop, Multi-link • Extend the coverage • To boost reliability. • Reducing the number of re-transmissions • Mobility dependence on the type of mesh nodes. Characteristic
Integrated Wireless Networking Architecture for Maritime Communications. by Jeong - Ganghee Advanced Operating System – Spring 2012
Advanced Operating System – Spring 2012 • IMCSIntegrated Maritime Communication Sys. • Network elements in IMCS • Communication Path Selection • Conclusions Agendas
Advanced Operating System – Spring 2012 Block diagram of integrated maritime communication system IMCS - Figure 1.
Advanced Operating System – Spring 2012 Illustrative diagram of integrated maritime communication system IMCS - Figure 2.
Advanced Operating System – Spring 2012 Network elements in imcs
Advanced Operating System – Spring 2012 • VANET between ships • Ship2ship wireless communications. • IEEE 802.11s wireless mesh network. [WMN] • Considering high mobility of marine vessels, more stable and robust R.P. is preferred. • The ship location information • High-precision GPS receiver • Shipborne navigation instrument VANET between Ships
Advanced Operating System – Spring 2012 • IEEE 802.11s mesh networkis compatible to those devices that are based on IEEE 802.11. • Wi-Fi interface (the dual-mode phone with both cellular & Wi-Fi interfaces, laptop computers with Wi-Fi interface) as Mesh Clients. • A high-precision GPS receiver terminal equipped with ECDIS* sends the navigation information to other ships through the Mesh network to make the navigation information available to the entire fleet. Mobile User Devices
Advanced Operating System – Spring 2012 • Electronic Chart Display andInformation System • ECDIS provides continuous position and navigational safety information. • The system generates audible and/or visual alarms when the vessel is in proximity to navigational hazards. Mobile User Devices
Advanced Operating System – Spring 2012 Illustrative diagram of integrated maritime communication system Shipborne GWs - Figure 2.
Advanced Operating System – Spring 2012 Illustrative diagram of integrated maritime communication system Shipborne GWs - Figure 2.
Advanced Operating System – Spring 2012 • Shipborne cellular gateway (C-GW) • Between VANET and the cellular mobile network. • Shipborne satellite gateway (S-GW) • Between VANET and the satellite mobile network. • needs to accomplish the conversions of the communication protocols & data formats. Shipborne Gateways
Advanced Operating System – Spring 2012 Illustrative diagram of integrated maritime communication system Satellite Terminal - Figure 2.
Advanced Operating System – Spring 2012 • Between VANET and the satellite MN. • For transferring data. • Inmarsat Fleet-Broadband*satellite terminal • To ensure sufficient link capacity. • Fleet-Broadband • Fleet-broadband is the first maritime communications service to provide cost-effective broadband data and voice, simultaneously, through a compact antenna on a global basis. Satellite Terminal
Advanced Operating System – Spring 2012 • Using the latest generation Inmarsat satellite • Fleet-Broadband service can provide broadband voice & data services with data rate up to 432 kbps for the global maritime users. • The interface of voice comm.can beTelephone line (RJ11/45). • The data services can be supported by a variety of methods such as Ethernet, ISDN for connection with PC or PDAs. Satellite Terminal (cont.)
Advanced Operating System – Spring 2012 • When aided by a Wi-Fi interface, • A satellite terminal can act as an 802.11s mesh client, and communicate directly with other Mesh Clients with Wi-Fi interface. • In addition, satellite terminal with streaming multimedia capability can support VoIP communications seamlessly across 802.11s Mesh network. Satellite Terminal (cont.)
Advanced Operating System – Spring 2012 Procedure ofcommunications path selectionby mobile users on board. Figure 4.
Advanced Operating System – Spring 2012 • IMCS[Integrated Maritime Communications System] • Three heterogeneous wireless communication net. • Select appropriate communications path • Their locations & wireless net. coverage conditions. • The IMCS can help to reducethe number of satellite terminals on board and network deployment and maintenance costs. Conclusions
Advanced Operating System – Spring 2012 • http://netlab18.cis.nctu.edu.tw/html/wlan_course/powerpoint/Wireless%20Mesh%20Network(a%20survey).pdf • Google image: wireless mesh networks a survey References