Derives upper and lower bounds plus a closed-form suboptimal solution for optimal tether length and inclination angle of tethered UAVs to minimize average path loss, along with the distribution of the minimum inclination angle across environments.
Efficient deployment of multiple unmanned aerial vehicles for optimal wireless coverage,
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On the 3-D Placement of Airborne Base Stations Using Tethered UAVs
Derives upper and lower bounds plus a closed-form suboptimal solution for optimal tether length and inclination angle of tethered UAVs to minimize average path loss, along with the distribution of the minimum inclination angle across environments.