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UAV-Based Solution for Extending the Lifetime of IoT Devices: Efficiency, Design, and Sustainability


Conceptos Básicos
Proposing a UAV-based solution to extend the lifetime of IoT devices through efficient wireless power transfer.
Resumen
  • Internet of Things (IoT) technology is crucial for digitization.
  • Battery-powered IoT devices face autonomy challenges.
  • Conventional strategies for extending device lifespan have limitations.
  • UAV-based charging offers an efficient solution.
  • Magnetic resonance coupling (MRC) system enhances efficiency.
  • Detailed analysis of coil design, misalignments, and efficiency calculations.
  • Components like PRU and PTU play key roles in the charging process.
  • Communication between components enables real-time adjustments.
  • System validation through experimental measurements.
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Estadísticas
An actual corresponding design and implementation of the full UAV-based charging system and its proof-of-concept validation are presented. The results presented in this paper hence confirm that the proposed UAV-based approach and design are functionally successful and efficient charging can be achieved, provided the constraints and challenges coming with the approach are adequately dealt with. Moreover, it comes with an overall reduction in ecological footprint for IoT applications relying on battery-powered nodes in need of medium energy and/or considerable lifetime expectation (5 years or more).
Citas
"The focus of this paper is on an in-situ charging solution for IoT devices accomplished by a UAV that flies close enough to enable coupled wireless power transfer." - Authors "We here present an unmanned aerial vehicle (UAV)-based charging solution as an alternative for extending the lifetime of IoT devices." - Authors

Ideas clave extraídas de

by Jarne Van Mu... a las arxiv.org 03-21-2024

https://arxiv.org/pdf/2403.12996.pdf
UAV-Based Solution for Extending the Lifetime of IoT Devices

Consultas más profundas

How can the proposed UAV-based solution impact the future development of IoT technology?

The UAV-based solution presented in the context above offers a novel approach to extending the lifetime of IoT devices by enabling remote charging through coupled wireless power transfer. This innovation could have several significant impacts on the future development of IoT technology: Extended Device Lifetime: By providing an autonomous method for recharging IoT devices, this solution can significantly extend their operational lifespan. This is crucial for applications where frequent battery replacements or maintenance are impractical or costly. Increased Efficiency: The efficiency gains achieved through optimized wireless power transfer and real-time adjustments based on feedback data can lead to more energy-efficient operations for IoT devices, reducing overall energy consumption. Enhanced Sustainability: With a focus on reducing ecological footprints, this approach promotes sustainability by minimizing waste from disposable batteries and lowering carbon emissions associated with traditional maintenance methods. Improved Reliability: The ability to autonomously recharge IoT devices using UAVs reduces dependency on manual interventions, leading to more reliable and consistent operation of these systems. Expanded Applications: The implementation of UAV-based charging systems opens up new possibilities for deploying IoT devices in remote or hard-to-reach locations where traditional charging methods may not be feasible.

What potential challenges or drawbacks might arise from implementing a widespread use of UAV-based charging systems for IoT devices?

While UAV-based charging systems offer numerous benefits, there are also some challenges and drawbacks that need to be considered when implementing them on a larger scale: Regulatory Hurdles: Operating drones/UAVs in urban areas or densely populated regions may face regulatory restrictions due to safety concerns, airspace regulations, privacy issues, etc., which could limit widespread deployment. Security Risks: Using drones for charging purposes introduces security vulnerabilities such as interception of communication signals between the drone and device, potential hacking threats during data transmission, etc., which need robust cybersecurity measures. Cost Considerations: Implementing and maintaining a fleet of drones for regular device recharging may incur high initial setup costs along with ongoing operational expenses like maintenance, training personnel, etc., impacting cost-effectiveness. Environmental Impact: While promoting sustainability is one advantage of this system, it's essential to consider the environmental impact caused by increased drone usage like carbon emissions from flights contributing to air pollution if not managed efficiently. Technical Limitations: Factors such as limited flight time per charge cycle for drones/UAVs restricting coverage area before needing recharging themselves pose technical limitations that must be addressed effectively.

How can advancements in wireless power transfer technology benefit other industries beyond IoT applications?

Advancements in wireless power transfer (WPT) technology hold promise for various industries beyond just Internet-of-Things (IoT) applications: Medical Sector: WPT can revolutionize medical device technologies by enabling implantable medical devices like pacemakers or neurostimulators to be charged wirelessly without invasive procedures. It allows continuous monitoring equipment used in hospitals or clinics to operate seamlessly without interruptions due to battery changes. 2 . ### Automotive Industry: - Wireless Charging Systems (WCS) powered by WPT can facilitate electric vehicle (EV) adoption by offering convenient at-home charging solutions without physical plug-ins. - Dynamic Electric Vehicle Charging (DEVC) while driving over designated roads equipped with WPT infrastructure enables continuous EV operation over long distances. 3 . ### Consumer Electronics: - Integration into smartphones/laptops eliminates reliance on wired chargers enhancing user convenience; coffee shops/airports could embed WPT pads allowing users seamless access. - Household appliances like smart speakers/clocks/tablets benefit from cordless functionality improving aesthetics & usability within homes/offices 4 . ### Aerospace & Defense: - In aerospace applications: aircraft sensors/systems powered wirelessly reduce wiring complexity weight onboard enhancing fuel efficiency - Military defense mechanisms leverage covert powering options via WPT ensuring secure operations across varied terrains/environments 5 . ### Manufacturing & Industrial Automation: - Robotics automation processes gain flexibility/mobility sans wired connections increasing productivity efficiencies - Smart factories deploy sensor networks powered wirelessly streamlining data collection/transmission optimizing production workflows Advancements in WPT transcend industry boundaries offering innovative solutions fostering sustainable practices enhanced operational efficiencies benefiting diverse sectors globally
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