Regis Lerbour scite author profile

enhanced Inter-Cell Interference Coordination (eICIC) is used in LTE heterogeneous networks to reduce interference in the small cell expansion region. Service areas of small cells are often expanded by a Cell Selection Offset (CSO) to increase their traffic uptake and offload macro cell traffic. eICIC relies on Almost Blank Subframes (ABS) or Reduced Power Almost Blank Subframes (RP-ABS) to manage interference between macro and small cellular layers. Gains achieved from deploying intra-carrier small cells are highly dependent on the optimization of eICIC parameters. This paper provides a novel optimization formulation to achieve optimal small cell CSOs and macro cell ABS or RP-ABS patterns. The performance of the outlined optimization framework is evaluated by state-of-the-art LTE system level simulations. Simulation results indicate an average network capacity gain of 19.4% from optimizing ABSeICIC parameters, and a 22.8% gain from optimizing RP-ABSeICIC parameters. Similarly, a 42.2% average gain in user data rates is achieved from optimizing ABS-eICIC parameters, and a 45.9% gain from optimizing RP-ABS-eICIC parameters.

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Adaptive Kalman Filtering for Local Mean Power Estimation in Mobile Communications

Kurt

Lerbour

Helloco

et al. 2006

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Mirroring LTE Scheduler Performance with an Adaptive Simulation Model

Trifan¹,

Lerbour²,

Helloco³

2015

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Enhanced 3D Geolocation Algorithm for LTE Call Traces

Trifan¹,

Lerbour²,

Helloco³

2016

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Regis Lerbour

K-Means MU-MIMO User Clustering for Optimized Precoding Performance

An Optimization Framework for LTE eICIC and Reduced Power eICIC

Adaptive Kalman Filtering for Local Mean Power Estimation in Mobile Communications

Mirroring LTE Scheduler Performance with an Adaptive Simulation Model

Enhanced 3D Geolocation Algorithm for LTE Call Traces

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