Cox et al., 1999 - Google Patents
Development of piezoelectrically actuated micro-aerial vehiclesCox et al., 1999
- Document ID
- 4260315754847328107
- Author
- Cox A
- Monopoli D
- Goldfarb M
- Garcia E
- Publication year
- Publication venue
- Microrobotics and Microassembly
External Links
Snippet
A discussion of the principles involved in small-scale flight is presented here. In addition, several novel mechanisms have been developed in an attempt to mechanically emulate flapping flight on the meso-scale. Wings are being developed which will exploit particular …
- 241000238631 Hexapoda 0 abstract description 19
Classifications
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B64—AIRCRAFT; AVIATION; COSMONAUTICS
- B64C—AEROPLANES; HELICOPTERS
- B64C33/00—Ornithopters
- B64C33/02—Wings; Actuating mechanisms therefor
Similar Documents
| Publication | Publication Date | Title |
|---|---|---|
| Cox et al. | The development of elastodynamic components for piezoelectrically actuated flapping micro-air vehicles | |
| Fearing et al. | Wing transmission for a micromechanical flying insect | |
| Wood | Liftoff of a 60mg flapping-wing MAV | |
| US9102407B2 (en) | Resonance engine | |
| Zhao et al. | A rotary joint for a flapping wing actuated by dielectric elastomers: design and experiment | |
| CN106114098B (en) | Water strider-like piezoelectric-driven ultramicro flapping-wing amphibious robot | |
| Singh et al. | Classification of actuation mechanism designs with structural block diagrams for flapping-wing drones: A comprehensive review | |
| Yan et al. | Self-lifting artificial insect wings via electrostatic flapping actuators | |
| Khan et al. | Design and optimization of a biologically inspired flapping mechanism for flapping wing micro air vehicles | |
| Giurgiutiu | Recent advances in smart-material rotor control actuation | |
| Cox et al. | Development of piezoelectrically actuated micro-aerial vehicles | |
| Finio et al. | Body torque modulation for a microrobotic fly | |
| JP3989943B2 (en) | Flapping levitation moving device | |
| Chen et al. | Design and analysis of an untethered micro flapping robot which can glide on the water | |
| Bhushan et al. | Design of the first sub-milligram flapping wing aerial vehicle | |
| Cox et al. | Actuator development for a flapping microrobotic microaerial vehicle | |
| CN103482065B (en) | A kind of micro flapping wing air vehicle based on electrostatic self-excited driving principle | |
| Giurgiutiu | Active-materials induced-strain actuation for aeroelastic vibration control | |
| JP2003135866A (en) | Driving mechanism and wing-flapping flying machine | |
| Cox et al. | Development of piezoelectrically actuated elastodynamic flapping micro-aerial vehicles | |
| JP4675346B2 (en) | Flapping levitation moving device | |
| Mukherjee et al. | Non-linear dynamic analysis of a piezoelectrically actuated flapping wing | |
| Fearing et al. | 23 A Micromechanical Flying Insect Thorax | |
| Hamamoto et al. | Thorax unit driven by unidirectional USM for under 10-gram flapping MAV platform | |
| O'Rourke | Efficacy of Flapping-wing Flight Via Dual Piezoelectric Actuation |