Article ID Journal Published Year Pages File Type
453481 Computer Standards & Interfaces 2016 10 Pages PDF
Abstract

•We investigate the impact of mobile node radio architectures on achievable performance of mobility standards in wireless heterogeneous networks.•We provide a first energy consumption analysis on LTE to eHRPD mobility.•We discuss a first consideration for advanced flow-precision mobility supportability.

With the availability of various heterogeneous radio access technology standards, how to support multiple heterogeneous radio interfaces in a single device and provide seamless mobility between them is one of key issues in the design and implementation of modern multi-radio mobile devices (like smartphones). The radio architectures of such multi-radio mobile devices can have great impacts on achievable mobility performance. This paper presents a case study that investigates into the impacts of radio architecture design on mobility performance achievable in wireless standard implementation, with a particular focus on heterogeneous radio access mobility between Long Term Evolution (LTE) and enhanced High Rate Packet Data (eHRPD). We present an in-depth overview of handover procedures in standards and their achievable performance enhancements from the perspective of device radio architectures. We consider three radio architectures (single transmission/reception, single transmission dual reception, and dual transmission/reception architectures) and provide a performance analysis to compare the three architectures in terms of handover delay and energy consumption. We also discuss supportability for advanced flow-precision mobility under the different radio architectures, and present a comparison with another vertical handover technology.

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Physical Sciences and Engineering Computer Science Computer Networks and Communications
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