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@inproceedings{faucris.200731265,
abstract = {
Prediction of control channel signaling messages during an active Long Term Evolution-Advanced (LTE-A) connection with the network is a promising technique to reduce power consumption of mobile devices. In order to reduce the prediction’s computational complexity and thus, the power consumed by the predictor itself, various dimensionality reduction algorithms are evaluated in this paper. Moreover, specific windowing and normalization pre-processing steps are proposed to support the heterogeneous binary and integer time series data of LTE control channel messages. Using a simple Feed Forward Neural Network (FFNN) predictor, four dimensionality reduction algorithms, Principal Component Analysis (PCA), Independent Component Analysis (ICA), Autoencoder (AE), and Deep AE, are compared with respect to the prediction accuracy. Experiments based on live network data show that PCA achieves the best performance and allows to successfully reduce LTE-A control channel time series data from 450 to 45 dimensions without degrading the prediction accuracy compared to a FFNN predictor without dimensionality reduction.
},
author = {Mercader, Alexandra and Ah Sue, Jonathan and Hasholzner, Ralph and Brendel, Johannes},
booktitle = {Proc. of the IEEE 5G World Forum},
date = {2018-07-09/2018-07-11},
doi = {10.1109/5gwf.2018.8516973},
editor = {IEEE},
faupublication = {yes},
pages = {1-10},
peerreviewed = {unknown},
title = {{Improvements} in {LTE}-{Advanced} {Time} {Series} {Prediction} with {Dimensionality} {Reduction} {Algorithms}},
venue = {Santa Clara, CA},
year = {2018}
}