This paper investigates the flight mechanics of a micro aerial vehicle without a vertical tail in an effort to reverse-engineer the agility of avian flight. The key to stability and control of such a tailless aircraft lies in the ability to control the incidence angles and dihedral angles of both wings independently. The dihedral angles can be varied symmetrically on both wings to control aircraft speed independently of the angle of attack and flight path angle, while asymmetric dihedral can be used to control yaw in the absence of a vertical stabilizer. It is shown that wing dihedral angles alone can effectively regulate sideslip during rapid turns and generate a wide range of equilibrium turn rates while maintaining a constant flight spee...
Purpose Unlike conventional aircraft, birds can glide without a vertical tail. The purpose of this ...
ABSTRACT: Poor lateral-directional stability due to the absence of vertical stabilizer is a great ri...
Today’s aerospace engineers can design a much lighter aircraft than before thanks to the improved ac...
This paper investigates the flight mechanics of a micro aerial vehicle without a vertical tail in an...
This paper explores the flight mechanics of a Micro Aerial Vehicle (MAV) without a vertical tail. Th...
Click on the DOI link below to access the article (may not be free).The purpose of this paper is to ...
The purpose of this paper is to analyze and discuss the performance and stability of a tailless micr...
A micro aerial vehicle capable of controlled transitory or sustained gliding flight. The vehicle inc...
There is a considerable interest in developing robotic aircraft, inspired by birds, for a variety of...
This paper considers the problems of (a) modelling the ight mechanics of a tail-less MAV equipped ...
This paper explores the use of variable wing dihedral and variable wing twist (in conjunction with ...
For a stable flight, it is required adequate stability of the aircraft to have good conditions of na...
The paper presents two open loop methods to control the unstable, longitudinal oscillation of a flap...
This paper presents an experimental demonstration of perching by a micro aerial vehicle (MAV) equipp...
This paper proposes a wing root control mechanism inspired by the drag-based system of a dragonfly. ...
Purpose Unlike conventional aircraft, birds can glide without a vertical tail. The purpose of this ...
ABSTRACT: Poor lateral-directional stability due to the absence of vertical stabilizer is a great ri...
Today’s aerospace engineers can design a much lighter aircraft than before thanks to the improved ac...
This paper investigates the flight mechanics of a micro aerial vehicle without a vertical tail in an...
This paper explores the flight mechanics of a Micro Aerial Vehicle (MAV) without a vertical tail. Th...
Click on the DOI link below to access the article (may not be free).The purpose of this paper is to ...
The purpose of this paper is to analyze and discuss the performance and stability of a tailless micr...
A micro aerial vehicle capable of controlled transitory or sustained gliding flight. The vehicle inc...
There is a considerable interest in developing robotic aircraft, inspired by birds, for a variety of...
This paper considers the problems of (a) modelling the ight mechanics of a tail-less MAV equipped ...
This paper explores the use of variable wing dihedral and variable wing twist (in conjunction with ...
For a stable flight, it is required adequate stability of the aircraft to have good conditions of na...
The paper presents two open loop methods to control the unstable, longitudinal oscillation of a flap...
This paper presents an experimental demonstration of perching by a micro aerial vehicle (MAV) equipp...
This paper proposes a wing root control mechanism inspired by the drag-based system of a dragonfly. ...
Purpose Unlike conventional aircraft, birds can glide without a vertical tail. The purpose of this ...
ABSTRACT: Poor lateral-directional stability due to the absence of vertical stabilizer is a great ri...
Today’s aerospace engineers can design a much lighter aircraft than before thanks to the improved ac...