Shiwei Gao scite author profile

Drones are becoming increasingly used in a wide variety of industries and services and are delivering profound socioeconomic benefits. Technology needs to be in place to ensure safe operation and management of the growing fleet of drones. Mobile networks have connected tens of billions of devices on the ground in the past decades and are now ready to connect the drones flying in the sky. In this article, we share some of our findings in cellular connectivity for low altitude drones. We first present and analyze field measurement data collected during drone flights in a commercial Long-Term Evolution (LTE) network. We then present simulation results to shed light on the performance of a network when it is serving many drones simultaneously over a wide area. The results, analysis, and design insights presented in this article help enhance the understanding of the applicability and performance of providing mobile connectivity to low altitude drones.

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Interference Mitigation Methods for Unmanned Aerial Vehicles Served by Cellular Networks

Yajnanarayana

Wang

Gao

et al. 2018

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A main challenge in providing connectivity to the low altitude unmanned aerial vehicles (UAVs) through existing cellular network arises due to the increased interference in the network. The increased altitude and favourable propagation condition cause UAVs to generate more interference to the neighbouring cells, and at the same time experience more interference from the downlink transmissions of the neighbouring base stations. The uplink interference problem may result in terrestrial UEs having degraded performance, whereas the downlink interference problem may make it challenging for a UAV to maintain connection with the network. In this paper, we propose several uplink and downlink interference mitigation techniques to address these issues. The results indicate that the proposed solutions can reduce the uplink throughput degradation of terrestrial UEs and ensure UAVs to remain in LTE coverage under the worst case scenarios when all the base stations transmit at full power.

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A multi-objective decision model for investment in energy savings and emission reductions in coal mining

Zheng

Gao

et al. 2017

European Journal of Operational Research

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SVAE-WGAN-Based Soft Sensor Data Supplement Method for Process Industry

Gao

Qiu

et al. 2022

IEEE Sensors J.

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Shiwei Gao

The Sky Is Not the Limit: LTE for Unmanned Aerial Vehicles

Mobile Network-Connected Drones: Field Trials, Simulations, and Design Insights

Interference Mitigation Methods for Unmanned Aerial Vehicles Served by Cellular Networks

A multi-objective decision model for investment in energy savings and emission reductions in coal mining

SVAE-WGAN-Based Soft Sensor Data Supplement Method for Process Industry

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