It has been observed and experimentally validated that birds and bats can obtain airflow information with mechanoreceptors on their wing and body surfaces to achieve ultrastable, highly maneuverable, and energy efficient flights. Inspired by this observation, an attitude control method using the real-time flow (pressure and shear) information is studied. Previous research has demonstrated the effectiveness of using pressure information only for a micro air vehicle\u27s pitching control in both simulation and wind tunnel tests. In this paper, the new concept is extended to three-axis attitude controls. A new three-axis attitude motion model is developed, relating the pressure and shear information to attitude states. A nonlinear controller, ...
Small fixed wing uncrewed air vehicles (UAVs) are often required to fly at low speeds and high angle...
The scale of fixed-wing Micro Aerial Vehicles (MAVs) lend them to many unique applications. These ap...
Flying animals such as birds, bats and insects all have extensive arrays of sensory or- gans distrib...
It has been observed and experimentally validated that birds and bats can obtain airflow information...
Biological studies show that birds and bats can obtain airflow information with mechanoreceptors on ...
Maintaining stable flight of micro aerial vehicles is challenging, especially in complex, low-Reynol...
In recent years, there has been much interest in biology to develop new sensing and control technolo...
Fixed-wing micro aerial vehicles experience attitude control difficulties as they operate in highly ...
There are significant challenges associated with the flight control of fixed-wing micro air vehicles...
Biological phenomena found in nature can be learned and customized to obtain innovative engineering ...
Inspired by sensing strategies observed in birds and bats, a new attitude control concept of directl...
Inspired by sensing strategies observed in birds and bats, a new attitude control concept of directl...
Maintaining stable flight of small unmanned or micro aerial vehicles (SUAVs or MAVs) is complicated ...
Small fixed-wing unmanned aerial systems (UAS) may require increased agility when operating in turbu...
A gust perturbation alleviation control method based on a real-time pressure sensor is proposed. Pre...
Small fixed wing uncrewed air vehicles (UAVs) are often required to fly at low speeds and high angle...
The scale of fixed-wing Micro Aerial Vehicles (MAVs) lend them to many unique applications. These ap...
Flying animals such as birds, bats and insects all have extensive arrays of sensory or- gans distrib...
It has been observed and experimentally validated that birds and bats can obtain airflow information...
Biological studies show that birds and bats can obtain airflow information with mechanoreceptors on ...
Maintaining stable flight of micro aerial vehicles is challenging, especially in complex, low-Reynol...
In recent years, there has been much interest in biology to develop new sensing and control technolo...
Fixed-wing micro aerial vehicles experience attitude control difficulties as they operate in highly ...
There are significant challenges associated with the flight control of fixed-wing micro air vehicles...
Biological phenomena found in nature can be learned and customized to obtain innovative engineering ...
Inspired by sensing strategies observed in birds and bats, a new attitude control concept of directl...
Inspired by sensing strategies observed in birds and bats, a new attitude control concept of directl...
Maintaining stable flight of small unmanned or micro aerial vehicles (SUAVs or MAVs) is complicated ...
Small fixed-wing unmanned aerial systems (UAS) may require increased agility when operating in turbu...
A gust perturbation alleviation control method based on a real-time pressure sensor is proposed. Pre...
Small fixed wing uncrewed air vehicles (UAVs) are often required to fly at low speeds and high angle...
The scale of fixed-wing Micro Aerial Vehicles (MAVs) lend them to many unique applications. These ap...
Flying animals such as birds, bats and insects all have extensive arrays of sensory or- gans distrib...