The avian-inspired sideslip perching maneuver is an aggressive flight scenario that involves high turn rates and high rates of change of aerodynamic angles to decelerate and descend the aircraft rapidly for a precision landing. The occurrence of aerodynamic stall delay is unpredictable. Besides dynamic stall effects, state perturbations and model uncertainties heavily influence the accuracy of the landing and evidently, the success of the maneuver. This paper seeks to extend the convergence area related to the initial perching launch points and enhance the stability of the sideslip perching maneuver by formulating an adaptive gain sliding mode control technique. Based on a reference optimal sideslip trajectory generated by an optimization m...
This work presents a model-free nonlinear controller for an ornithopter prototype with bioinspired w...
An adaptive aircraft has been designed with new degrees of freedom, morphing control inputs, that wi...
Due to their vastly unsteady aerodynamics, mimicking the flight maneuvers of natural flyers requires...
This paper presents a sliding control strategy for executing a sideslip perching maneuver under dyna...
This thesis presents optimization, parametric study, stability analysis and trajectory tracking of f...
This final year project covers the optimization of aircraft perching maneuver through geometric reco...
This dissertation experimentally investigates the pitch-up phase and yaw phase of the aggressive per...
Advances in materials, actuators, and control architectures have enabled new design paradigms for un...
Abstract—Dynamic perching maneuvers for fixed-wing air-craft are becoming increasingly plausible due...
The ability of birds to perch robustly and effectively is a powerful demonstration of the capabiliti...
For a UAV to perch on a wire, aircraft control systems which operate far outside typical operating e...
Aerodynamicists with a vision for birdlike aircraft systems must move beyond steady flow models towa...
Abstract. Birds routinely execute post-stall maneuvers with a speed and precision far beyond the cap...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Mechanical Engineering, 2014.Ca...
We describe the design of an aerial robot inspired by birds and the underlying theoretical developme...
This work presents a model-free nonlinear controller for an ornithopter prototype with bioinspired w...
An adaptive aircraft has been designed with new degrees of freedom, morphing control inputs, that wi...
Due to their vastly unsteady aerodynamics, mimicking the flight maneuvers of natural flyers requires...
This paper presents a sliding control strategy for executing a sideslip perching maneuver under dyna...
This thesis presents optimization, parametric study, stability analysis and trajectory tracking of f...
This final year project covers the optimization of aircraft perching maneuver through geometric reco...
This dissertation experimentally investigates the pitch-up phase and yaw phase of the aggressive per...
Advances in materials, actuators, and control architectures have enabled new design paradigms for un...
Abstract—Dynamic perching maneuvers for fixed-wing air-craft are becoming increasingly plausible due...
The ability of birds to perch robustly and effectively is a powerful demonstration of the capabiliti...
For a UAV to perch on a wire, aircraft control systems which operate far outside typical operating e...
Aerodynamicists with a vision for birdlike aircraft systems must move beyond steady flow models towa...
Abstract. Birds routinely execute post-stall maneuvers with a speed and precision far beyond the cap...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Mechanical Engineering, 2014.Ca...
We describe the design of an aerial robot inspired by birds and the underlying theoretical developme...
This work presents a model-free nonlinear controller for an ornithopter prototype with bioinspired w...
An adaptive aircraft has been designed with new degrees of freedom, morphing control inputs, that wi...
Due to their vastly unsteady aerodynamics, mimicking the flight maneuvers of natural flyers requires...