This dissertation experimentally investigates the pitch-up phase and yaw phase of the aggressive perching maneuver with the focus on the velocity reduction to validate the theoretical research work done in this field. The aggressive perching maneuver is performed by birds and offers the ability to bleed off excess velocity in order to decel- erate rapidly and land within short distances and time. Different approaches offer the ability to generate large deceleration forces with the desired benefit that unmanned aerial vehicle can perform rapid precision landings and holding its position, allowing to execute reconnaissance and surveillance mission without being airborne. The en- hancement of capabilities is an everlasting process that inevita...
The objective of this report is an investigative analysis on perching mechanisms. The report details...
In this work, we present an experimental setup and guide to enable the perching of large flapping-wi...
Small fixed wing uncrewed air vehicles (UAVs) are often required to fly at low speeds and high angle...
Advances in materials, actuators, and control architectures have enabled new design paradigms for un...
This final year project covers the optimization of aircraft perching maneuver through geometric reco...
Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/90669/1/AIAA-2011-218-164.pd
Due to their vastly unsteady aerodynamics, mimicking the flight maneuvers of natural flyers requires...
This thesis presents optimization, parametric study, stability analysis and trajectory tracking of f...
Aerodynamicists with a vision for birdlike aircraft systems must move beyond steady flow models towa...
Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/83613/1/AIAA-2010-4943-835.pd
A perching bird is able to rapidly decelerate at a high angle of attack while maintaining lift and c...
This paper presents an experimental demonstration of perching by a micro aerial vehicle (MAV) equipp...
Copyright © 2017 by Jorge M. M. Barata, Telmo J. A. Silva, Fernando M. S. P. Neves and André R. R. S...
This paper presents a sliding control strategy for executing a sideslip perching maneuver under dyna...
The application of the avian perching manoeuvre in man-made aircraft is an area of active research t...
The objective of this report is an investigative analysis on perching mechanisms. The report details...
In this work, we present an experimental setup and guide to enable the perching of large flapping-wi...
Small fixed wing uncrewed air vehicles (UAVs) are often required to fly at low speeds and high angle...
Advances in materials, actuators, and control architectures have enabled new design paradigms for un...
This final year project covers the optimization of aircraft perching maneuver through geometric reco...
Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/90669/1/AIAA-2011-218-164.pd
Due to their vastly unsteady aerodynamics, mimicking the flight maneuvers of natural flyers requires...
This thesis presents optimization, parametric study, stability analysis and trajectory tracking of f...
Aerodynamicists with a vision for birdlike aircraft systems must move beyond steady flow models towa...
Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/83613/1/AIAA-2010-4943-835.pd
A perching bird is able to rapidly decelerate at a high angle of attack while maintaining lift and c...
This paper presents an experimental demonstration of perching by a micro aerial vehicle (MAV) equipp...
Copyright © 2017 by Jorge M. M. Barata, Telmo J. A. Silva, Fernando M. S. P. Neves and André R. R. S...
This paper presents a sliding control strategy for executing a sideslip perching maneuver under dyna...
The application of the avian perching manoeuvre in man-made aircraft is an area of active research t...
The objective of this report is an investigative analysis on perching mechanisms. The report details...
In this work, we present an experimental setup and guide to enable the perching of large flapping-wi...
Small fixed wing uncrewed air vehicles (UAVs) are often required to fly at low speeds and high angle...