Some Investigations on QoS in the Wireline-Wireless Network Interface Zone

In the next generation of networks we will begin to see the true convergence of voice, multimedia, and data traffic. This merging of various dedicated networks will occur both in the wired and wireless domains. Given the growth in the areas of wireless voice and data, we see that the combination of...

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Main Author: Tewari, Maneesh
Other Authors: Jamadagni, H S
Format: Others
Language:en
Published: Indian Institute of Science 2005
Subjects:
Online Access:http://hdl.handle.net/2005/54
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spelling ndltd-IISc-oai-etd.ncsi.iisc.ernet.in-2005-542013-01-07T21:20:05ZSome Investigations on QoS in the Wireline-Wireless Network Interface ZoneTewari, ManeeshElectronics EngineeringCall admission controlQuality of Service (QoS)Real-time trafficMicro MobilityWireless NetworkBase StationVoice TrafficNetwork SimulatorIn the next generation of networks we will begin to see the true convergence of voice, multimedia, and data traffic. This merging of various dedicated networks will occur both in the wired and wireless domains. Given the growth in the areas of wireless voice and data, we see that the combination of mobile and Internet communication constitutes the driving force behind the third-generation wireless system and makes the basis for the fourth-generation wireless system. For services like voice over IP over wireless (VoIPoW), the main challenge is to achieve QoS and spectrum efficiency. In order to support better QoS the IETF Mobile IP Working Group is discussing a number of enhancements to the base protocol to reduce the latency, packet loss and signaling overhead experienced during handoff. This support also includes both the call admission and the subsequent scheduling of packet transmissions. In this thesis, we will first survey the work done on issues related to QoS provisioning for wireless network and then will address bandwidth allocation problem in packet radio network with special emphasis on wireline to wireless internetworking zone. The main aim of the thesis is to evolve a strategy to reduce the call dropping probability by negotiating the QoS in those conditions when we do not have the sufficient resources (mainly bandwidth) to allocate. In order to achieve the QoS we have investigated the behaviour of the Real-time Voice traffic on a wireless link and its relation to the associated quality of service. This investigation opens a way for QoS negotiation, in a condition like during handoff, when the network is not able to sustain the negotiated bandwidth. The main results of this work are, that even with reduced bandwidth, quality for speech can be maintained at a reasonable level and this way the call dropping can be reduced. Such a scheme is useful in those conditions when we do not have the sufficient bandwidth to allocate like during a handoff of a mobile host from one cell to another. Moreover the bandwidth is a scarce resource in wireless domain so there should be an efficient call admission control policy. Many call admission control policies are proposed in the literature; here we propose a simple scheme for real-time traffic, specially speech, in a base station which increases the system throughput. In addition to above, we have also experimented with Cellular IP, one of the implementations of proposed micro-mobility architecture to provide faster handoff and seamless mobility in wired and wireless network.Indian Institute of ScienceJamadagni, H S2005-02-09T09:13:48Z2005-02-09T09:13:48Z2005-02-09T09:13:48Z2003-03Electronic Thesis and Dissertation360182 bytesapplication/pdfhttp://hdl.handle.net/2005/54124400375enI grant Indian Institute of Science the right to archive and to make available my thesis or dissertation in whole or in part in all forms of media, now hereafter known. I retain all proprietary rights, such as patent rights. I also retain the right to use in future works (such as articles or books) all or part of this thesis or dissertation.
collection NDLTD
language en
format Others
sources NDLTD
topic Electronics Engineering
Call admission control
Quality of Service (QoS)
Real-time traffic
Micro Mobility
Wireless Network
Base Station
Voice Traffic
Network Simulator
spellingShingle Electronics Engineering
Call admission control
Quality of Service (QoS)
Real-time traffic
Micro Mobility
Wireless Network
Base Station
Voice Traffic
Network Simulator
Tewari, Maneesh
Some Investigations on QoS in the Wireline-Wireless Network Interface Zone
description In the next generation of networks we will begin to see the true convergence of voice, multimedia, and data traffic. This merging of various dedicated networks will occur both in the wired and wireless domains. Given the growth in the areas of wireless voice and data, we see that the combination of mobile and Internet communication constitutes the driving force behind the third-generation wireless system and makes the basis for the fourth-generation wireless system. For services like voice over IP over wireless (VoIPoW), the main challenge is to achieve QoS and spectrum efficiency. In order to support better QoS the IETF Mobile IP Working Group is discussing a number of enhancements to the base protocol to reduce the latency, packet loss and signaling overhead experienced during handoff. This support also includes both the call admission and the subsequent scheduling of packet transmissions. In this thesis, we will first survey the work done on issues related to QoS provisioning for wireless network and then will address bandwidth allocation problem in packet radio network with special emphasis on wireline to wireless internetworking zone. The main aim of the thesis is to evolve a strategy to reduce the call dropping probability by negotiating the QoS in those conditions when we do not have the sufficient resources (mainly bandwidth) to allocate. In order to achieve the QoS we have investigated the behaviour of the Real-time Voice traffic on a wireless link and its relation to the associated quality of service. This investigation opens a way for QoS negotiation, in a condition like during handoff, when the network is not able to sustain the negotiated bandwidth. The main results of this work are, that even with reduced bandwidth, quality for speech can be maintained at a reasonable level and this way the call dropping can be reduced. Such a scheme is useful in those conditions when we do not have the sufficient bandwidth to allocate like during a handoff of a mobile host from one cell to another. Moreover the bandwidth is a scarce resource in wireless domain so there should be an efficient call admission control policy. Many call admission control policies are proposed in the literature; here we propose a simple scheme for real-time traffic, specially speech, in a base station which increases the system throughput. In addition to above, we have also experimented with Cellular IP, one of the implementations of proposed micro-mobility architecture to provide faster handoff and seamless mobility in wired and wireless network.
author2 Jamadagni, H S
author_facet Jamadagni, H S
Tewari, Maneesh
author Tewari, Maneesh
author_sort Tewari, Maneesh
title Some Investigations on QoS in the Wireline-Wireless Network Interface Zone
title_short Some Investigations on QoS in the Wireline-Wireless Network Interface Zone
title_full Some Investigations on QoS in the Wireline-Wireless Network Interface Zone
title_fullStr Some Investigations on QoS in the Wireline-Wireless Network Interface Zone
title_full_unstemmed Some Investigations on QoS in the Wireline-Wireless Network Interface Zone
title_sort some investigations on qos in the wireline-wireless network interface zone
publisher Indian Institute of Science
publishDate 2005
url http://hdl.handle.net/2005/54
work_keys_str_mv AT tewarimaneesh someinvestigationsonqosinthewirelinewirelessnetworkinterfacezone
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