Abstract
Increasing the availability of Unmanned Aerial Vehicles (UAV's) platforms leads to a variety of applications for aerial exploration, surveillance, and transport. Many of these applications rely on the communication between the UAV and the ground receiver which is subjected to high mobility that may lead to restrictions on link connectivity and throughput. In order to design high throughput and efficient communication schemes for these scenarios, a deep understanding of the communication channel behavior is required, especially taking into account measurement data from flight experiments. Channel propagation in urban environments involves diffraction effects which modify the Line-of-Sight (LoS) contribution of the total received signal, especially when the receiver is located on the ground. This process leads to scenarios where Multiple-Input Multiple-Output (MIMO) signal processing can take advantage from this situation. In this context, the goal of this paper is to study the diffraction effects of the LoS component through spatial correlation metrics of the signal. To accomplish this, we propose the use of a geometric stochastic technique to model the channel behavior which lies between High Altitude Platforms (HAP) and terrestrial link communications.
Highlights
D RONES and UAVs are a consolidated technology which support wireless communication systems
There is a consensus that the Multiple-Input Multiple-Output (MIMO) communication system is beneficial for increasing the link throughput, more measurement campaigns are needed [5]
Channel correlations and capacities are studied by simulations
Summary
D RONES and UAVs are a consolidated technology which support wireless communication systems. Studies that take into account characteristics and relationships between multiple antennas and the surrounding geometrical structure are reported in [12], [3], [4], [5] According to these contributions, measurement campaigns for Air-toGround (A2G) channel characterization have been conducted primarily for Single-Input Single-Output (SISO) link communication systems, especially for channel characterization on airport scenarios and high altitude aircraft flights. For low altitude UAV-A2G channels in urban scenarios, the main multipath contribution comes from nearby scatterers and it requires many geometric parameters to generate signal models. In this sense, a cylindrical scatterer geometry has the advantage of requiring less parameters and computational effort than an elliptical configuration and could be more appropriate to characterize the A2G channel.
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