LAUSR

Accurate channel model predictions are crucial in mobile communication systems to identify the coverage area of cellular base stations. It also allows network operators to optimally choose the locations of the new sites, solve coverage gap problems and optimize the current network parameters. Current prediction models use ray tracing techniques that are too computationally expensive and depend on the 3D maps, which are costly and need to be regularly updated. This paper proposes a multi-modal channel model prediction algorithm using satellite images to extract the environmental features and other numerical features. For an accurate evaluation, experimental measurements in the 2100 MHz band are gathered and combined with 2D maps from two different LTE network areas with varying characteristics to practically reference our results and compare the results with the ray-tracing output. Using the well-known AlexNet architecture as a baseline for our model and introducing new numerical features, we achieve a mean absolute error (MAE) of 2.06 dB and 2.6 root-mean-square error (RMSE) with 4.8 dB enhancement compared to only using numerical features. Using transfer learning, we train the model in area one and test it in another area. We achieve 1.47 dB MAE and 1.99 RMSE with 77.34 % reduction in the training time.