Kritik Soman scite author profile

Location of Base Stations (BS) in mobile networks plays an important role in coverage and received signal strength. As Internet of Things (IoT), autonomous vehicles and smart cities evolve, wireless network coverage will have an important role in ensuring seamless connectivity. Due to use of higher carrier frequencies, blockages cause communication to primarily be Line of Sight (LoS), increasing the importance of base station placement. In this paper, we propose a novel placement pipeline in which we perform semantic segmentation of aerial drone imagery using DeepLabv3+ and create its 2.5D model with the help of Digital Surface Model (DSM). This is used along with Vienna simulator for finding the best location for deploying base stations by formulating the problem as a multi-objective function and solving it using Non-Dominated Sorting Genetic Algorithm II (NSGA-II). The case with and without prior deployed base station is considered. We evaluate the base station deployment based on Signal to Interference Noise Ratio (SINR) coverage probability and user down-link throughput. This is followed by comparison with other base station placement methods and the benefits offered by our approach. Our work is novel as it considers scenarios where there is high ground elevation and building density variation, and shows that irregular BS placement improves coverage.

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Kritik Soman

Rooftop Detection using Aerial Drone Imagery

Object Detection from SAR Images based on Curvelet Despeckling

Design and Development of a MEMS Stacked Thermoelectric Microwatt Generator

Semantic Mobile Base Station Placement

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