Marcos Guzmán scite author profile

Marcos Guzmán

4Publications

90Citation Statements Received

36Citation Statements Given

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Affiliations

Universidad de Sevilla

Publications

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Design of the High-Payload Flapping Wing Robot E-Flap

Zufferey

Tormo-Barbero

Guzmán

et al. 2021

IEEE Robot. Autom. Lett.

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Autonomous lightweight flapping-wing robots show potential to become a safe and affordable solution for rapidly deploying robots around humans and in complex environments. The absence of propellers makes such vehicles more resistant to physical contact, permitting flight in cluttered environments, and collaborating with humans. Importantly, the provision of thousands of species of birds that have already mastered the challenging task of flapping flight is a rich source of solutions. However, small wing flapping technology is still in its beginnings, with limited levels of autonomy and physical interaction capability with the environment. One significant limitation to this is the low payload available. Here we show the Eagle-inspired Flapping-wing robot E-Flap, a 510g novel design capable of a 100% of payload, exceeding the requirement of the computing and sensing package needed to fly with a high degree of autonomy. The concept is extensively characterized, both in a tracked indoor space and in outdoor conditions. We demonstrate flight path angle of up to 50 • and velocities from as low as 2 m/s to over 6m/s. Overall, the robotic platform has been proven to be reliable, having performed over 100 flights. Through mechanical and electronics advances, the E-Flap is a robust vehicle prototype and paves the way towards flapping-wing robots becoming a practical fully autonomous flying solution. Video attachment: https://youtu.be/GpAa176TMf0.

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Adaptive Nonlinear Control For Perching of a Bioinspired Ornithopter

Maldonado

Acosta

Tormo-Barbero

et al. 2020

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Design and comparison of tails for bird-scale flapping-wing robots

Guzmán

Paez

Maldonado

et al. 2021

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Flapping-wing robots (so-called ornithopters) are a promising type of platform to perform efficient winged flight and interaction with the environment. However, the control of such vehicles is challenging due to their under-actuated morphology to meet lightweight requirements. Consequently, the flight control of flapping-wing robots is predominantly handled by the tail. Most ornithopters feature a tail with two degrees of freedom but the configuration choice is often arbitrary and without indepth study. In this paper, we propose a thorough analysis of the design and in-flight performance for the three tails. Their design and manufacturing methods are presented, with an emphasis on low weight, which is critical in ornithopters. The aerodynamics of the tails is analyzed through CFD simulations and their performance compared experimentally. The advantages and performance metrics of each configuration are discussed based on flight data. Two types of 3D flight tests were carried out: aggressive heading maneuvers and level turns. The results show that an inverted V-tail outperforms the others regarding maneuverability and stability. From the three configurations, only the inverted V-Tail can perform an aggressive stable banked level turn with a radius of 3.7 m at a turning rate of 1.6 rad/s. This research work describes the impact of the tail configuration choice on the performance of bird-scale flapping-wing robots.

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Design and comparison of tails for bird-scaleflapping-wing robots

Guzmán

Ruiz

Maldonado

et al. 2021

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Marcos Guzmán

Design of the High-Payload Flapping Wing Robot E-Flap

Adaptive Nonlinear Control For Perching of a Bioinspired Ornithopter

Design and comparison of tails for bird-scale flapping-wing robots

Design and comparison of tails for bird-scaleflapping-wing robots

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