Omar M. Eshanta scite author profile

Mobile communications have witnessed a phenomenal increase in the amount of users, services, and applications. Orthogonal Frequency Division Multiple Access (OFDMA) targets to provide broadband connectivity to wide area coverage, in mobile environments, for Next Generation Networks (NGNs), which results in significant design challenges in the MAC (Medium Access Control) layer to provide an efficient resource allocation in a cost-effective manner. This paper proposes a two-dimensional (2D) Burst Packing (BP) algorithm for OFDMA downlink (DL) subframe that can provide the service providers with an efficient, fast, flexible, and high-spectral efficiency method to allocate system resources among the Mobile Stations (MSs). The proposed Orientation-Based Burst Packing (OBBP) algorithm uses the Orientation Factors (OFs) of the bursts as a criteria to achieve the challenging issues in the BP problem. The simulation results show that OBBP algorithm can achieve a high packing efficiency up to 99.2% when the burst size ratio (BSR) is 50%.

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VHO Strategy for QoS-Provisioning in the WiMAX/WLAN Interworking System

Eshanta¹,

Ismail²,

Jumari³

et al. 2009

Asian J. of Applied Sciences

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An efficient burst packing algorithm for OFDMA systems

Eshanta

Ismail

Jumari

2010

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Orthogonal Frequency Division Multi p le Access (OFDMA) targets to p rovide broadband connectivity to wide area coverage in mobile environments, which results in significant design challenges in the Medium Access Control (MAC) layer to p rovide an efficient resource allocation in a cost-effective manner. This p a p er p ro p oses a two dimensional (2D) Burst Packing (BP) algorithm for OFDMA down Link (DL) subframe that can p rovide the service p roviders with an efficient, fast, flexible and high s p ectral efficiency method to allocate system resources among the Mobile Stations (MSs). The p ro p osed Orientation-Based Burst Packing algorithm uses the Orientation Factors (OF) of the bursts as a criteria to achieve the challenging issues in the BP p roblem. The simulation results show that the p ro p osed algorithm can achieve a high p acking efficiency u p to 99.2 % when the burst size ratio (BSR) is 50 %.

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Omar M. Eshanta

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OBBP: An Efficient Burst Packing Algorithm for IEEE802.16e Systems

VHO Strategy for QoS-Provisioning in the WiMAX/WLAN Interworking System

An efficient burst packing algorithm for OFDMA systems

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