Method for Evaluating the Quality of Service Characteristic of a Packet Access Network for IoT Devices

This article presents various traffic separation approaches to transmit HSPA (HSDPA/HSUPA) traffic in the existing ATM-based UMTS Radio Access Network, together with Release 99 (R99) traffic. The traffic separation technique enables QoS differentiations of HSPA and R99 traffic, while aiming to achieve a maximum utilization of the transport resources in the radio access network. The potential benefit of applying traffic separation and its impact on the performance of the transport network as well as the end users are explored in this article. The quantitative evaluations are provided by simulations. The results presented are obtained from a UMTS simulation model developed in this work which can transmit HSDPA and HSUPA traffic as well as R99 traffic simultaneously. The presented results demonstrate that applying traffic separation between HSPA and R99 traffic can considerably improve the performance of both HSPA and R99 traffic, and as well bring significant gain on efficient bandwidth utilization.

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Quality of Service Model and Signaling for Cellular IP Access Network

IFIP International Federation for Information Processing - Broadband Satellite Comunication Systems and the Challenges of Mobility ◽

10.1007/0-387-24043-8_19 ◽

2005 ◽

pp. 191-204

Author(s):

Suraj Jaiswal ◽

Fernando Boavida ◽

Joao Orvalho ◽

Sukumar Nandi

Keyword(s):

Quality Of Service ◽

Access Network ◽

Service Model ◽

Cellular Ip

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On the Quality of Service of fixed-line broadband access network: The Italian experience

2011 50th FITCE Congress - "ICT: Bridging an Ever Shifting Digital Divide" ◽

10.1109/fitce.2011.6133438 ◽

2011 ◽

Cited By ~ 1

Author(s):

L. Rea ◽

P. Bolletta ◽

E. Mammi ◽

A. Valenti

Keyword(s):

Quality Of Service ◽

Access Network ◽

Broadband Access ◽

Italian Experience ◽

Fixed Line ◽

Broadband Access Network

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Use of Traffic Separation Techniques for the Transport of HSPA and R99 Traffic in the Radio Access Network with Differentiated Quality of Service

International Journal of Business Data Communications and Networking ◽

10.4018/jbdcn.2009040106 ◽

2009 ◽

Vol 5 (2) ◽

pp. 84-100

Author(s):

Xi Li ◽

Yasir Zaki ◽

Thushara Weerawardane ◽

Andreas Timm-Giel ◽

Carmelita Görg ◽

...

Keyword(s):

Quality Of Service ◽

Access Network ◽

Separation Techniques ◽

Radio Access Network ◽

Radio Access

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Quality of Service Issues in Micro Mobility Enabled Wireless Access Networks

Advances in Wireless Technologies and Telecommunication - Quality of Service Architectures for Wireless Networks ◽

10.4018/978-1-61520-680-3.ch011 ◽

2010 ◽

pp. 238-256

Author(s):

A. Dev Pragad ◽

Vasilis Friderikos ◽

A. Hamid Aghvami

Keyword(s):

Quality Of Service ◽

Mobile Networks ◽

Mobility Management ◽

Access Network ◽

Wireless Access ◽

Wireless Access Networks ◽

Handover Delay ◽

Wireless Access Network ◽

Micro Mobility

Provision of Quality of Service (QoS) and Micro Mobility management is imperative to delivering content seamlessly and efficiently to the next generation of IP based mobile networks. Micro mobility management ensures that during handover the disruption caused to the live sessions are kept to a minimum. On the other hand, QoS mechanisms ensure that during a session the required level of service is maintained. Though many micro mobility and QoS mechanisms have been proposed to solve their respective aspects of network operation, they often have interaction with each other and can lead towards network performance degradation. This chapter focuses specifically on the issues of interaction between micro mobility and QoS mechanisms. Special focus is given to the relatively unexplored area of the impact Mobility Agents can have on the wireless access network. Mobility Agents play a central role in providing micro mobility support. However, their presence (location and number) can affect the routing as well as the handover delay. Through an example network this issue is highlighted. Following which an optimization framework is proposed to deploy Mobility Agents optimally within a micro mobility enabled wireless access network to minimise both the routing overhead as well as the handover delay. Results show considerable improvements in comparison to deploying the Mobility Agents arbitrarily.

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