A Systematic Review of Real-Time Deployments of UAV-Based LoRa Communication Network

Ghazali, Mohamad Hazwan Mohd; Teoh, Kelvin; Rahiman, Wan

doi:10.1109/access.2021.3110872

Cited by 47 publications

(24 citation statements)

References 75 publications

(78 reference statements)

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“…In the opposite scenario, where the end-nodes are fixed and the gateway is mobile, the work carried out is almost limited to unmanned aerial systems that use LoRaWAN gateways as mobile data sinks for various applications such as localization [ 48 , 49 ], the backup communication system in case of environmental disasters or hostile locations such as mines and forests [ 50 , 51 ], and many environmental monitoring applications. The performance analysis of such systems is mainly concerned with the efficient scheduling of the data collection and routing of the LoRaWAN gateway due to the limited power capacity in

s [ 52 , 53 , 54 ]. Unmanned aerial systems collect data while hovering over the end-nodes at low speeds and stay in location until all transmission is complete.…”

Section: Background and Related Workmentioning

confidence: 99%

Mobility of LoRaWAN Gateways for Efficient Environmental Monitoring in Pristine Sites

Sobhi

Elzanaty

Selim

et al. 2023

Sensors

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Environmental monitoring of delicate ecosystems or pristine sites is critical to their preservation. The communication infrastructure for such monitoring should have as little impact on the natural ecosystem as possible. Because of their wide range capabilities and independence from heavy infrastructure, low-power wide area network protocols have recently been used in remote monitoring. In this regard, we propose a mobile vehicle-mounted gateway architecture for IoT data collection in communication-network-free areas. The limits of reliable communication are investigated in terms of gateway speed, throughput, and energy consumption. We investigate the performance of various gateway arrival scenarios, focusing on the trade-off between freshness of data, data collection rate, and end-node power consumption. Then we validate our findings using both real-world experiments and simulations. In addition, we present a case study exploiting the proposed architecture to provide coverage for Wadi El-Gemal national park in Egypt. The results show that reliable communication is achieved over all spreading factors (SFs) for gateway speeds up to 150 km/h with negligible performance degradation at SFs=11,12 at speeds more than 100 km/h. The synchronized transmission model ensures the best performance in terms of throughput and power consumption at the expense of the freshness of data. Nonsynchronized transmission allows time-flexible data collection at the expense of increased power consumption. The same throughput as semisynchronized transmission is achieved using four gateways at only five times the energy consumption, while a single gateway requires seventeen times the amount of energy. Furthermore, increasing the number of gateways to ten increases the throughput to the level achieved by the synchronized scenario while consuming eight times the energy.

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s [ 52 , 53 , 54 ]. Unmanned aerial systems collect data while hovering over the end-nodes at low speeds and stay in location until all transmission is complete.…”

Section: Background and Related Workmentioning

confidence: 99%

Mobility of LoRaWAN Gateways for Efficient Environmental Monitoring in Pristine Sites

Sobhi

Elzanaty

Selim

et al. 2023

Sensors

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“…• Delivering medicine, food and water to the injured Schweizer et al, (2018) • Taking images of areas or infrastructures for damage assessment after disasters Yanchao Liu, (2019) • Food delivery Delivery of Goods Bhatt et al, (2018) • Medicine and blood samples delivery Sumanth Reddy et al, (2019) • Lightweight commercial products delivery Ghazali et al, (2021) • Network gateways Providing Wireless Coverage Wu et al, (2021) • Omnipresent coverage Tazibt et al, (2022) • Data collection S. K. Khan et al, (2021) • Relay nodes between wireless devices Fu et al, (2020) • Crop maturity and yield mapping Precision Agriculture Christiansen et al, (2017) • Field tile mapping Romero et al, (2018) • Irrigation scheduling Faiçal et al, (2017) • Pesticide spraying Kerkech et al, (2020) • Disease detection Stroppiana et al, (2018) • Weed detection Huuskonen & Oksanen, (2018) • Soil texture mapping Kavoosi et al, (2020) • Residue cover and tillage mapping Kas & Johnson, (2020) • Infrastructure internal inspection Infrastructure Inspection Gopalakrishnan et al, (2018) • Surface degradation assessment and crack detection Tan et al, (2021) • Vertical inspection for towers and high rise Jalil et al, (2019) • Power transmission lines inspection Gu et al, (2020) • Wind and oil/gas turbine inspection Nordin et al, (2022) • Onshore and offshore asset inspection Other than their operational purposes, the types of UAVs also differ according to their design features which affect their flying principles. In Figure 5, UAV types are classified first according to their vehicle mass, then the heavy types are further classified to rotor and wing types (Liew et al, 2017).…”

Section: Patil Et Al (2022)mentioning

confidence: 99%

An Overview to Unmanned Aerial Vehicles from Perspectives of Quality and Safety Management in Aviation

Şenvar

ÜNVER

2022

IJERAD

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“…[41] Provides experimental performance evaluation of ADR enhancements in a mobile node scenario. [42] Studies the real-time deployments of unmanned aerial vehicle (UAV)-based LoRa network. [43] Compares simulation tools for investigating and analyzing LoRa/LoRaWAN network performance.…”

Section: B Motivation and Contributionsmentioning

confidence: 99%

A Survey on Chirp Spread Spectrum-based Waveform Design for IoT

Azim¹,

Bazzi²,

Shubair³

et al. 2022

Preprint

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<p>Long Range (LoRa) is one of the most promising and widespread chirp spread spectrum (CSS)-based physical (PHY) layer technique for low-power wide-area networks (LPWANs). Using different spreading factors, LoRa can attain different spectral/energy efficiencies, and can target multitude of Internet-of-Thing (IoT) applications. However, one of the limiting factors for LoRa is the low bit rate. Little to no effort has been made in order to improve the achievable rate of LoRa, until recently, when a number of CSS-based PHY layer LoRa alternative are proposed for LPWANs. In this survey, for the first time, we present a comprehensive waveform design of these CSS-based schemes that have been proposed between 2019 to 2022. In total, fifteen alternatives to LoRa are compared. Other survey articles related to LoRa mostly tackle different issues, such as LoRa networking, LoRa deployment in massive IoT networks, and LoRa architectures, etc. This survey, on the other hand, comprehensively elucidates the waveform design of LoRa alternatives. The CSS schemes studied in this survey are divided into single chirp, multiple chirp, and index modulation based on the multiplexing pattern of the chirps. Complete transceiver architecture of these CSS schemes is studied, and performance is evaluated in terms of energy efficiency (EE), spectral efficiency (SE), bit-error rate (BER) performance in additive white Gaussian noise, BER in the presence of phase and frequency offsets. It has been observed that the EE, SE and robustness against the offsets is primarily linked to transmit symbol frame structure. The public versions of the MATLAB codes for the CSS schemes studied in this survey shall be provided to promote reproducible research.</p>

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A Systematic Review of Real-Time Deployments of UAV-Based LoRa Communication Network

Cited by 47 publications

References 75 publications

Mobility of LoRaWAN Gateways for Efficient Environmental Monitoring in Pristine Sites

Mobility of LoRaWAN Gateways for Efficient Environmental Monitoring in Pristine Sites

An Overview to Unmanned Aerial Vehicles from Perspectives of Quality and Safety Management in Aviation

A Survey on Chirp Spread Spectrum-based Waveform Design for IoT

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