Sepideh Kabiri scite author profile

The aim of this study is to improve the performance of two-tier macro/femtocell networks using a power control approach. In wireless networks, power control plays an important role in improving a number of performance parameters such as co-channel interference and outage probability reduction, throughput increasing, and power saving. This study explores the evolution of centralised power control algorithm based on femtocell base station (FBS) clustering and predicted signal-to-interference-plus-noise ratio (SINR) of users. To reduce the computational complexity of centralised algorithm, dense deployed femtocells are considered in different clusters. In this case, femtocells inside one cluster make considerable interference to each other, while the interferences from femtocells of other clusters are negligible. Moreover, because of the non-linearity of SINR samples, non-linear logistic smooth transition autoregressive (LSTAR) model is used to model the SINR data, and then the next SINR samples are predicted from the previous samples. A c c o r d i n gt ot h ec l u s t e r e dF B S sa n dp r e d i c t e dS I N R ,t h e proposed power control scheme is applied to femtocell network in the downlink. The results demonstrate that the introduced method improves the outage probability and throughput and outperforms previous methods significantly.

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Modelling and forecasting of signal‐to‐interference plus noise ratio in femtocellular networks using logistic smooth threshold autoregressive model

Kabiri¹,

Lotfollahzadeh²,

Shayesteh³

et al. 2015

IET signal process.

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The aim of this paper is to present a non-linear statistical model to fit and forecast the signal-to-interference plus noise ratio (SINR) in two-tier heterogeneous cellular networks which consist of macrocells and femtocells. Since in these networks the number and locations of femtocell base stations (FBS) are variable, SINR forecasting can be useful in some areas such as power control and handover management. So far, linear autoregressive (AR) models have commonly been used in forecasting the received signal strength (rss) in macrocellular networks. However, AR modelling results in high mean square error (MSE) when data are non-linear. This paper focuses on SINR which takes into account signal strength, interference and noise effects. Moreover, macro-femto cellular network is considered. The F-test results show that the SINR data are non-linear, leading to use non-linear models instead of AR model. A nonlinear logistic smooth threshold AR (LSTAR) model is utilised to model and forecast the SINR data. Kolmogorov-Smirnov (K-S) test demonstrates that LSTAR provides good fitness to the SINR samples. The results indicate that LSTAR model achieves much better performance in modelling and forecasting of SINR data than the AR model.

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Frequency of Group B Streptococcus Colonization in pregnant women in Jahrom, 2014

Kabiri¹,

Kargar-Jahromi²,

Solhjoo³

et al. 2016

jjums

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Sepideh Kabiri

Technique for order of preference by similarity to ideal solution based predictive handoff for heterogeneous networks

Femtocell base station clustering and logistic smooth transition autoregressive‐based predicted signal‐to‐interference‐plus‐noise ratio for performance improvement of two‐tier macro/femtocell networks

Modelling and forecasting of signal‐to‐interference plus noise ratio in femtocellular networks using logistic smooth threshold autoregressive model

Frequency of Group B Streptococcus Colonization in pregnant women in Jahrom, 2014

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