ANN-based model for multiband path loss prediction in built-up environments

ANN-based model for multiband path loss prediction in built-up environments

Path loss propagation models are critically needed for optimum planning and deployment of wireless communication networks. However, the complexity exhibited by the propagated signals makes the prediction of the received losses difficult in built-up environments. There is however a new paradigm shift...

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Bibliographic Details
Published in:Scientific African Vol. 17; p. e01350
Main Authors: Faruk, Nasir, Adebowale, Quadri Ramon, Olayinka, Imam-Fulani Yusuf, Adewole, Kayode S., Abdulkarim, Abubakar, Oloyede, Abdulkarim A., Chiroma, Haruna, Sowande, Olugbenga A., Olawoyin, Lukman A., Garba, Salisu, Usman, Aliyu D., Adediran, Yinusa A., Taura, Lawan S.
Format: Journal Article
Language:English
Published: Elsevier B.V 01-09-2022
Elsevier
Subjects:
Artificial neural networks
Multi-frequency band
Nigeria
Path loss
Radio wave propagation
NLOS
GPS
ITU
UNILORIN
MATLAB
COVID-19
MLP
SHF
BPNN
DTDNN
UHF
SDE
RBF
ME
ANFIS
NDTV
FFNN
RBW
Artificial neural networks
IP
FSPL
UMTS
LOS
5G
DTC
RF
GHz
Radio wave propagation
NTA
LTE
MHz
BTS
QoE
SVR
SC
Multi-frequency band
COST
QoS
VHF
L-BFGS
ARFCN
Nigeria
dB
MSE
GSM
LMA
DANL
LRNN
WCDMA
MWMF
Path loss
RMSE
RSSI
SCG
FTDBB
WiFi
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Description
Summary:Path loss propagation models are critically needed for optimum planning and deployment of wireless communication networks. However, the complexity exhibited by the propagated signals makes the prediction of the received losses difficult in built-up environments. There is however a new paradigm shift towards the application of computational methodologies, such as the Artificial Neural Networks (ANN), for multi-band path loss prediction. In this paper, we have developed a new ANN-based model for path loss prediction. The model was developed using large scale path loss data collected across 485 base stations in 6 urban cities of Nigeria, West Africa. The data collection, which spanned a period of 9 years, were taken over open areas, sub urban and urban environments, and the bands considered were 89.3 MHz, 103.5 MHz, 203.25MHz, 429.25 MHz, 529.25MHz, 615.25MHz, 629.25MHz, 900MHz, 1800 MHz and 2100MHz. The developed model was validated using independent path loss data across different frequencies, environments; and, distances and the results were compared with the popular empirical models such as Hata, COST 231 and Egli models, and to previously published ANN-based multi-frequency models. The global performance of 4.81 dB was obtained in terms of RMSE value with an R-value of 0.96, thus outperforming the existing ANN-based path loss models that were developed for multiple frequencies. Based on these findings, the proposed model can be deployed across all categories since the average RMSE values are all within the acceptable thresholds. Furthermore, the model is multi-frequency, thus will be suitable for multiple and complex environments, and usable for both short- and long-range wireless communication networks
ISSN:2468-2276
2468-2276
DOI:10.1016/j.sciaf.2022.e01350