[[abstract]]This article described a control law for stabilizing the vertical motion of a flapping-wing MAV and developed a system architecture that is potentially beneficial in realizing the autonomous flight of flapping-wing MAVs fewer than 10 g. The article began with a brief introduction to the Golden Snitch, including its development history and the development of the overall system. The vertical dynamics were given for altitude control. The use of wind tunnel tests to obtain aerodynamical parameters was described. Due to the limited payload-carrying capability, the control architecture was modified so that automatic control of flight altitude of a flapping-wing MAV fewer than 10 g is possible using current technology. Taking the hardw...
The bio-inspired robot is such a topic that has received growing attention. The ornithopter micro ae...
The use of drones, also called unmanned aerial vehicles (UAVs), is increasing every day. These aircr...
Flying animals with flapping wings may best exemplify the astonishing ability of natural selection o...
This article described a control law for stabilizing the vertical motion of a flapping-wing MAV and ...
Autonomous lightweight flapping-wing robots show potential to become a safe and affordable solution ...
In this paper we present our work on enabling Balloon launched high altitude UAV Missions for an aut...
<p>Miniature flapping flight systems hold great promise in matching the agility of their natural cou...
Background: Vibrational stability is a natural phenomenon where a system if vibrating at sufficien...
The usage and development of Unmanned Aerial Vehicles (UAVs) have increased rapidly in agriculture, ...
Recently, it has been recognised that flapping wing propulsion can be more efficient than convention...
Flapping-winged flight is very complex, and it is difficult to efficiently model the unsteady airflo...
Soaring is an action that can be readily seen in nature. Birds have long been known to stay aloft by...
This paper explores a method by which an unpowered, fixed-wing micro air vehicle (MAV) may autonomou...
Micro air vehicles (MAVs) with wing spans of 15 cm or less, and flight speed of 30-60 kph are of int...
Micro Air Vehicles (MAVs) are small, unmanned aerial systems that typically have a smaller than 12" ...
The bio-inspired robot is such a topic that has received growing attention. The ornithopter micro ae...
The use of drones, also called unmanned aerial vehicles (UAVs), is increasing every day. These aircr...
Flying animals with flapping wings may best exemplify the astonishing ability of natural selection o...
This article described a control law for stabilizing the vertical motion of a flapping-wing MAV and ...
Autonomous lightweight flapping-wing robots show potential to become a safe and affordable solution ...
In this paper we present our work on enabling Balloon launched high altitude UAV Missions for an aut...
<p>Miniature flapping flight systems hold great promise in matching the agility of their natural cou...
Background: Vibrational stability is a natural phenomenon where a system if vibrating at sufficien...
The usage and development of Unmanned Aerial Vehicles (UAVs) have increased rapidly in agriculture, ...
Recently, it has been recognised that flapping wing propulsion can be more efficient than convention...
Flapping-winged flight is very complex, and it is difficult to efficiently model the unsteady airflo...
Soaring is an action that can be readily seen in nature. Birds have long been known to stay aloft by...
This paper explores a method by which an unpowered, fixed-wing micro air vehicle (MAV) may autonomou...
Micro air vehicles (MAVs) with wing spans of 15 cm or less, and flight speed of 30-60 kph are of int...
Micro Air Vehicles (MAVs) are small, unmanned aerial systems that typically have a smaller than 12" ...
The bio-inspired robot is such a topic that has received growing attention. The ornithopter micro ae...
The use of drones, also called unmanned aerial vehicles (UAVs), is increasing every day. These aircr...
Flying animals with flapping wings may best exemplify the astonishing ability of natural selection o...