With advanced control, estimation and simulation requirements in unmanned aerial systems comes the need for sophisticated aerodynamic models. This paper reviews two common means for establishing such models; numerical design tools and wind tunnel testing, by presenting strengths and potential problems, in a ”lessons learned”-manner. As a case study throughout the paper, a six degrees-of-freedom aerodynamic model of the Skywalker X8 fixed-wing unmanned aerial vehicle is presented
Multirotor UAVs have in recent years become a trend among academics, engineers and hobbyists alike d...
In this paper we present our research about a particular ultralight WIG. WIG is the acronym of Wing...
Unmanned aerial vehicles (UAVs) have been more and more widely used not only in military areas but a...
Aerodynamics is a branch of dynamics concerned with the study of fluid flow and the interaction of t...
This work is the continuation of a longstanding project which aims at developping a fixed-wing unman...
In this paper, a maneuver design and aerodynamic parameter estimation procedure is carried out for s...
Although various tools (e.g., Wind tunnels, Professional-grade CFD packages, Industrial Grade Flight...
This thesis outlines the effort in developing an integrated simulation framework for assessing the s...
Stability and control derivatives of Skywalker X8 flying wing from flight-test data are estimated by...
Stability and control derivatives of Skywalker X8 flying wing from flight-test data are estimated by...
A flying wing configuration with highly swept leading edges and low aspect ratio such as the generic...
A flying wing configuration with highly swept leading edges and low aspect ratio such as the generic...
The process of creating a six degree-of-freedom model for an aerospace vehicle requires detailed kno...
Unmanned Aerial Vehicles (UAVs) provide the ability to perform a variety of experimental tests of sy...
The baseline configuration of a solar-powered unmanned aerial vehicle (UAV) with an endurance of ...
Multirotor UAVs have in recent years become a trend among academics, engineers and hobbyists alike d...
In this paper we present our research about a particular ultralight WIG. WIG is the acronym of Wing...
Unmanned aerial vehicles (UAVs) have been more and more widely used not only in military areas but a...
Aerodynamics is a branch of dynamics concerned with the study of fluid flow and the interaction of t...
This work is the continuation of a longstanding project which aims at developping a fixed-wing unman...
In this paper, a maneuver design and aerodynamic parameter estimation procedure is carried out for s...
Although various tools (e.g., Wind tunnels, Professional-grade CFD packages, Industrial Grade Flight...
This thesis outlines the effort in developing an integrated simulation framework for assessing the s...
Stability and control derivatives of Skywalker X8 flying wing from flight-test data are estimated by...
Stability and control derivatives of Skywalker X8 flying wing from flight-test data are estimated by...
A flying wing configuration with highly swept leading edges and low aspect ratio such as the generic...
A flying wing configuration with highly swept leading edges and low aspect ratio such as the generic...
The process of creating a six degree-of-freedom model for an aerospace vehicle requires detailed kno...
Unmanned Aerial Vehicles (UAVs) provide the ability to perform a variety of experimental tests of sy...
The baseline configuration of a solar-powered unmanned aerial vehicle (UAV) with an endurance of ...
Multirotor UAVs have in recent years become a trend among academics, engineers and hobbyists alike d...
In this paper we present our research about a particular ultralight WIG. WIG is the acronym of Wing...
Unmanned aerial vehicles (UAVs) have been more and more widely used not only in military areas but a...