Abstract
Aerial vehicles (AVs) have challenges in terms of realizing low complexity and wide coverage area wireless communications architectures, especially for crowded or high density groups of AVs with state-of-the-art free space optical (FSO) and radio frequency (RF) based system designs. FSO architectures generally target point-to-point high gain directional links while requiring strict acquisition and tracking due to the narrow beam width of laser transmitters with challenges of vibration, turbulence, misalignment, atmospheric absorption, scattering, and fading. In this article, a novel multiuser free space optical system design of modulation and coding denoted by space-track modulation and coding (STMC) is proposed for crowded downlink communications. STMC does not require high accuracy tracking and costly system components by utilizing large beam divergence angles, more transmitter units with smaller aperture sizes and weights, and large spatial regions to receive modulated data at AV tracks. In addition, the spatio-optical wireless caching problem is introduced for AV networks while defining STMC problem information theoretically. STMC combines track based multiuser modulation and coding, with geographical and positional data for low data rate broadcasting applications with wide area coverage. Numerical simulations provide tens of bit/s data rates for thousands of kilometers of coverage area while simultaneously serving a significantly larger number of AVs. Finally, future works and open issues are discussed. The novel modulation and coding mechanisms are promising future applications for both high altitude AVs and low altitude drone networks with low complexity hardware for multiuser low data rate communications.
Highlights
Wireless communications networking for unmanned aerial vehicles (UAVs), high altitude platforms (HAPs), balloons, aircrafts and drones are important for various services such as commercial data and multimedia services to airplanes, remote sensing, geographical mapping, astronomical observations, military tasks, surveillance, and quantum cryptography networks [1]
In this article, a novel modulation and coding mechanism denoted by space-track modulation and coding (STMC) is proposed for crowded downlink networks of AVs
STMC defined for multiuser networks of AVs promises a rich set of applications with flexible design capability for varying altitudes and velocities of transmitters and receivers
Summary
Wireless communications networking for unmanned aerial vehicles (UAVs), high altitude platforms (HAPs), balloons, aircrafts and drones are important for various services such as commercial data and multimedia services to airplanes, remote sensing, geographical mapping, astronomical observations, military tasks, surveillance, and quantum cryptography networks [1]. STMC achieves multiuser data transmission to AVs without requiring complicated hardware, including high accuracy tracking and synchronization, narrow beam laser sources, and pointing It provides a larger number of laser modulator units with smaller aperture sizes and weights for each unit. Conventional receiver hardware in FSO satellite communications, i.e. photodetectors with intensifiers, mirrors, amplifiers, and filters for undesired noise sources, as shown, can be utilized, achieving tens of Mbit/s data rates with tens of watts transmission power [21,22,23] These include various combinations of PIN photodiodes, avalanche photodiodes (APD), and photomultiplier tubes (PMTs) with high gain front ends while having disadvantages of higher weight and larger size [23]. A system design for GEO and LEO orbits is presented for ultra-violet (UV) laser systems harvesting tens of kilowatts of power used for laser and electrical system components in [13]
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