Hashim Safdar scite author profile

Hashim Safdar

4Publications

34Citation Statements Received

0Citation Statements Given

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Affiliations

Federal Urdu University, University of Technology Malaysia, MIMOS (Malaysia)

Publications

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Irregular Geometry Based Sectored FFR Scheme for ICI Mitigation in Multicellular Networks

Ullah¹,

Ullah²,

Khalid³

et al. 2020

jcm

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Future Cellular Systems are aiming aggressive frequency reuse in response to the exponential increase in the data traffic demand. The system capacity boosted accordingly, however, at the expense of increased Inter Cell Interference (ICI). Fractional Frequency Reuse (FFR) is an effective ICI mitigation approach, however, mostly analyzed with regular geometry model in literature. In this paper, Irregular Geometry based Sectored-FFR (IGS-FFR) scheme is proposed for ICI mitigation in the realistic irregular geometry cellular networks. The proposed scheme realize full frequency utilization by dynamic spectrum partition while considering heterogeneous traffic demand. Moreover, the performance of high order sectoring in the cell edge region is investigated. It is shown that the proposed IGS-FFR scheme outperform the existing approaches in terms of achievable throughput, average sum rate and user satisfaction while considering full traffic load.

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Resource allocation for uplink M2M communication: A game theory approach

Safdar

Fisal

Ullah

et al. 2013

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Abstract-Machine-to-Machine (M2M) communication in cellular network is the driver for the future Internet of Things (IoT). The main challenge of M2M communication is the possibility of huge traffic in the uplink network that can cause problem in the network. This paper considers the problem of resource allocation among machines connecting in uplink to different femto base stations (FBSs). Resource allocation problem is analyzed through both non-cooperative and cooperative game to maximize their data rate and minimize utilization of power. Numerical result shows that by adapting non-cooperative game, all machines are getting data rate as per Nash Equilibrium (NE) or either they can set their strategy to maximize their data rate selfishly. On the other hand for coalitional game theory approach machines who participate in game are getting fair resource allocations.

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Voronoi cell geometry based dynamic Fractional Frequency Reuse for OFDMA cellular networks

Ullah

Fisal

Safdar

et al. 2013

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Abstract-Interference Management (1M) is one of the major challenges of next generation wireless communication. Fractional Frequency Reuse (FFR) has been acknowledged as an efficient 1M technique, which offers significant capacity enhancement and improve cell edge coverage with low complexity. In literature, FFR has been analyzed mostly with cellular networks described by Hexagon Grid Model, which is neither tractable nor scalable to the dense deployment of next generation wireless networks.Moreover, the perfect geometry based grid model tends to overestimate the system performance and not able to reflect the reality. In this paper, we use the stochastic geometry approach, FFR is analyzed with cellular network modeled by homogeneous Poisson Point Process (PPP). A dynamic frequency allocation scheme is proposed which take into account the randomness of the cell coverage area describe by Voronoi tessellation. It is shown that the proposed scheme outperforms the traditional fixed frequency allocation schemes in terms of per user capacity and capacity density.

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Fractional frequency reuse for irregular geometry based heterogeneous cellular networks

Ullah

Fisal

Safdar

et al. 2015

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Hashim Safdar

Irregular Geometry Based Sectored FFR Scheme for ICI Mitigation in Multicellular Networks

Resource allocation for uplink M2M communication: A game theory approach

Voronoi cell geometry based dynamic Fractional Frequency Reuse for OFDMA cellular networks

Fractional frequency reuse for irregular geometry based heterogeneous cellular networks

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