End-to-end Physical Layer Communication using Bi-directional GRUs for ISI Channels

Ultra wideband (UWB) radio ascends as an attractive physical layer for extraordinarily chosen frame (MANET) adaptability. Guiding in MANET is a study that can be inferred from the vibrant thinking of the topology system and the impediments to resources. In this document, UWB is proposing a stable coordination structure concentrating on the flimsiness problem from the foggy area of communication. This tool is a cross-layer shift of tradition-controlled uncommonly delegated on-ask for vector (AODV), called CLS AODV. The managing exposure calculation is associated by showing source planning and extraordinarily chose on-request multipath remove vector (AOMDV) organizing. Rather than the open way in AODV, the got sign quality can be used to reveal shady territory wish affiliation state data, just as course state seeing. A preventive neighborhood fix course gauge dependent on HELLO knows about keeping the affiliation breakage event. Greetings notification is extended not only for neighborhood identification and exchange of neighborhood data, but also as an ON / OFF fee for controlling neighborhood location layout and HELLO design. The proliferation shows the progression of CLS AODV to the extent of the package incident and the typical end-to-end acknowledgement without exchanging the differentiated performance.

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End-to-End Physical Layer Authentication for Dual-Hop Wireless Networks

IEEE Access ◽

10.1109/access.2019.2906699 ◽

2019 ◽

Vol 7 ◽

pp. 38322-38336 ◽

Cited By ~ 1

Author(s):

Pinchang Zhang ◽

Jinxiao Zhu ◽

Yin Chen ◽

Xiaohong Jiang

Keyword(s):

Wireless Networks ◽

Physical Layer ◽

End To End

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Quality of Service (QoS) in WiMAX

Technologies and Protocols for the Future of Internet Design ◽

10.4018/978-1-4666-0203-8.ch007 ◽

2012 ◽

pp. 143-161

Author(s):

Kashinath Basu ◽

Sherali Zeadally ◽

Farhan Siddiqui

Keyword(s):

Quality Of Service ◽

Mobility Management ◽

Physical Layer ◽

Ieee 802.16 ◽

Future Application ◽

Protocol Stack ◽

Radio Interface ◽

Radio Resources ◽

End To End

The WiMAX technology provides wireless QoS-enabled broadband access for fixed and mobile users at the metropolitan level. It is end-to-end IP based and provides a rich set of QoS support for multimedia-based ubiquitous computing. The main contribution of WiMAX in terms of technology has been over its radio interface, which is based on the IEEE 802.16-2004 and 802.16e protocols. It is a two layer protocol stack, which provides a very robust QoS framework. At the physical layer, it focuses on optimising the use of radio resources. In the MAC layer, the main focus is on efficient scheduling and allocation of bandwidth to meet the QoS requirements of IP sessions. This chapter investigates the WiMAX architecture, its components, and the QoS support provided by the IEEE 802.16 protocol stack. It also examines mobility management issues, end-to-end QoS, and current and future application areas of the technology.

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