Solar-powered shape-changing origami microfliers

计算机科学 几何学 数学
作者
Kyle Johnson,Vicente Arroyos,Amélie Ferran,Raul Villanueva,Dennis Yin,Tilboon Elberier,Alberto Aliseda,Sawyer B. Fuller,Vikram Iyer,Shyamnath Gollakota
出处
期刊:Science robotics [American Association for the Advancement of Science (AAAS)]
卷期号:8 (82) 被引量:14
标识
DOI:10.1126/scirobotics.adg4276
摘要

Using wind to disperse microfliers that fall like seeds and leaves can help automate large-scale sensor deployments. Here, we present battery-free microfliers that can change shape in mid-air to vary their dispersal distance. We design origami microfliers using bi-stable leaf-out structures and uncover an important property: a simple change in the shape of these origami structures causes two dramatically different falling behaviors. When unfolded and flat, the microfliers exhibit a tumbling behavior that increases lateral displacement in the wind. When folded inward, their orientation is stabilized, resulting in a downward descent that is less influenced by wind. To electronically transition between these two shapes, we designed a low-power electromagnetic actuator that produces peak forces of up to 200 millinewtons within 25 milliseconds while powered by solar cells. We fabricated a circuit directly on the folded origami structure that includes a programmable microcontroller, Bluetooth radio, solar power harvesting circuit, a pressure sensor to estimate altitude and a temperature sensor. Outdoor evaluations show that our 414 milligram origami microfliers are able to electronically change their shape mid-air, travel up to 98 meters in a light breeze, and wirelessly transmit data via Bluetooth up to 60 meters away, using only power collected from the sun.
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