Space-track modulation and coding for high density aerial vehicle downlink networks with free space optical and visible light communications

Name: Space-track modulation and coding for high density aerial vehicle downlink networks with free space optical and visible light communications
Author: Gülbahar, Burhan

İsim	Space-track modulation and coding for high density aerial vehicle downlink networks with free space optical and visible light communications
Yazar	Gülbahar, Burhan
Basım Tarihi:	2019
Basım Yeri	- TÜBİTAK
Konu	Space-track modulation and coding, Aerial vehicle, Satellite, High altitude platform, Airplane, Drone, Free space optic, Visible light communications
Tür	Süreli Yayın
Dil	İngilizce
Dijital	Evet
Yazma	Hayır
Kütüphane:	Özyeğin Üniversitesi
Demirbaş Numarası	1300-0632
Kayıt Numarası	81bb3e74-6f8d-4e91-9953-688a8580928a
Lokasyon	Electrical & Electronics Engineering
Tarih	2019
Notlar	Vestel Electronics
Örnek Metin	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.
DOI	10.3906/elk-1802-130
Cilt	27

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Space-track modulation and coding for high density aerial vehicle downlink networks with free space optical and visible light communications

Yazar Gülbahar, Burhan

Basım Tarihi 2019

Basım Yeri - TÜBİTAK

Konu Space-track modulation and coding, Aerial vehicle, Satellite, High altitude platform, Airplane, Drone, Free space optic, Visible light communications

Tür Süreli Yayın

Dil İngilizce

Dijital Evet

Yazma Hayır

Kütüphane Özyeğin Üniversitesi

Demirbaş Numarası 1300-0632

Kayıt Numarası 81bb3e74-6f8d-4e91-9953-688a8580928a

Lokasyon Electrical & Electronics Engineering

Tarih 2019

Notlar Vestel Electronics

Örnek Metin 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.

DOI 10.3906/elk-1802-130

Cilt 27