This paper presents the mathematical modeling of flapping flight inch-size micro aerial vehicles (MAVs), namely micromechanical flying insects (MFIs). The target robotic insects are electromechanical devices propelled by a pair of independent flapping wings to achieve sustained autonomous flight, thereby mimicking real insects. In this paper, we describe the system dynamic models which include several elements that are substantially different from those present in fixed or rotary wing MAVs. These models include the wing-thorax dynamics, the flapping flight aerodynamics at a low Reynolds number regime, the body dynamics, and the biomimetic sensory system consisting of ocelli, halteres, magnetic compass, and optical flow sensors. The mathemat...
Micro aerial vehicles design represents a challenge that lasted for years and the fact that they ope...
Abstract: A flight-dynamics oriented simulation model of a flapping-wing Micro Air Vehicle (MAV) has...
Insects are the most successful animal on the planet, undergoing evolutionary adaptions in size and ...
Abstract — This paper presents the mathematical modeling of flapping flight inch-size micro aerial v...
Abstract — This paper presents the mathematical modeling of flapping flight for inch-size micro aeri...
Despite significant interest for over a decade in developing micro air vehicles (MAVs) that mimic th...
In this paper, we present the design of the flight control algorithms for flapping wing micromechani...
Abstract — In this paper we present the design of flight control algorithms for flapping wing microm...
The goal of the current research is to develop a hover capable, fully autonomous, flapping wing micr...
This paper explores the design of a flapping mechanism inspired by the insect thorax. A two-degree-o...
This paper presents theoretical and experimental analyses of insect flapping mechanics and aerodynam...
This dissertation explores flapping flight as an effective form of locomotion for unmanned micro aer...
Small (approximately 6 inch long, or hand-held) reconnaissance micro air vehicles (MAVs) will fly in...
Abstract Micro-aerial vehicles (MAV) and their promising applications—such as undetected sur-veillan...
This paper describes recent results on the design and simulation of a flight control system for Micr...
Micro aerial vehicles design represents a challenge that lasted for years and the fact that they ope...
Abstract: A flight-dynamics oriented simulation model of a flapping-wing Micro Air Vehicle (MAV) has...
Insects are the most successful animal on the planet, undergoing evolutionary adaptions in size and ...
Abstract — This paper presents the mathematical modeling of flapping flight inch-size micro aerial v...
Abstract — This paper presents the mathematical modeling of flapping flight for inch-size micro aeri...
Despite significant interest for over a decade in developing micro air vehicles (MAVs) that mimic th...
In this paper, we present the design of the flight control algorithms for flapping wing micromechani...
Abstract — In this paper we present the design of flight control algorithms for flapping wing microm...
The goal of the current research is to develop a hover capable, fully autonomous, flapping wing micr...
This paper explores the design of a flapping mechanism inspired by the insect thorax. A two-degree-o...
This paper presents theoretical and experimental analyses of insect flapping mechanics and aerodynam...
This dissertation explores flapping flight as an effective form of locomotion for unmanned micro aer...
Small (approximately 6 inch long, or hand-held) reconnaissance micro air vehicles (MAVs) will fly in...
Abstract Micro-aerial vehicles (MAV) and their promising applications—such as undetected sur-veillan...
This paper describes recent results on the design and simulation of a flight control system for Micr...
Micro aerial vehicles design represents a challenge that lasted for years and the fact that they ope...
Abstract: A flight-dynamics oriented simulation model of a flapping-wing Micro Air Vehicle (MAV) has...
Insects are the most successful animal on the planet, undergoing evolutionary adaptions in size and ...