Cover

Stars also twinkle. If everything was always sharp, then there would be far fewer poems. With this cover I combine science and personal life. 

If you look closely you will notice a small detail: there is a red Chinese stamp on the bridge. My name is written there in ancient Chinese. 

I took this picture at the Oude Delft canal early one morning. My wife came up with ideas of only looking at the water’s reflection and putting the name on the stone. She also designed the title on the cover.” ‘

Hong Song, ‘Model-based control in adaptive optical systems’, 25 March 2011.

In spite of the great advances in aerial technology, nature still leads in flight techniques. Animal flight has always been a fascination in the scientific community and inspiration for the Atalanta project comes from flying insects: the name Atalanta comes from the butterfly species Vanessa atalanta.

Assistant professor Hans Goosen of TU Delft’s precision and microsystems engineering section (3mE) explains that the goal of the project, which started in November 2005, is to design a mechatronic flying device which can fly in different environments, such as an office, house or vehicle. The whole bug is to be completely self-sustaining in terms of energy management and navigation. A similar venture is the Delfly project at the faculty of Aerospace Engineering, with the goal being to miniaturize their larger model using a top-down approach. This poses some problems, especially when it comes to energy loss and weight. Hence, the Atalanta project decided to start from scratch and go ground-up, starting their development from a much smaller scale. The mass of the Atalanta bug is around 0.7g. Because of this, the energy losses are kept to a minimum.

The project was initiated by DevLab, which is a cooperative of twelve companies in Eindhoven. None of the companies is actually interested in the final outcome of the flying bug, rather the key goal is to have an understanding of the techniques, research and implementations required for the design. The biggest challenge is making everything integrated. This includes the sensors, micro-actuators, power systems, control, mechanics, navigation and communication systems. The team also aims to recreate the swarming behavior of certain insects.

The bug is a completely compliant mechanism that can bend and move upon actuation and is fully resonant. This means that at certain frequencies, even very small driving forces can produce large amplitude oscillations. There are absolutely no gears or hinges involved in the design. The wing frames are also made of flexible compliant material and they can flap and move in different directions. The flapping behavior of the four wings is complex and, again, the inspiration for their design comes from insects. Changes in the configuration of the wings result in changes in resonance—this is one of the challenging aspects of the project. The resonance state is perturbed by actuation and this reduces the energy required to generate lift. Around 0.6 g of lift is produced, which is a considerable amount, but it is not enough to lift the actuator itself. Development of a different form of energy storage for further weight reduction is in the works and one of the ideas is to use chemical energy for actuation. 

The goal of the Atalanta project is to design a mechatronic flying device that can fly in different environments, such as an office, house or vehicle. The whole bug is to be completely self-sustaining in terms of energy management and navigation and the biggest challenge is making everything integrated, such as the sensors, micro-actuators, power systems, control, mechanics, navigation and communication systems. The bug is a completely compliant mechanism, which can bend and move upon actuation and is fully resonant. There are absolutely no gears or hinges involved in the design. The mass of the Atalanta bug is just around 0.7g.

Caspar Bolsman is the PhD researcher working on the Atalanta project under the supervision of Hans Goosen. For more information or to get involved, assistant professor Hans Goosen would be delighted to hear from you at j.f.l.goosen@tudelft.nl