Roll Control in Fruit Flies

Abstract

Due to aerodynamic instabilities, stabilizing flapping flight requires ever-present fast corrective actions. Here we investigate how flies control body roll angle, their most susceptible degree of freedom. We glue a magnet to each fly, apply a short magnetic pulse that rolls it in mid-air, and film the corrective maneuver. Flies correct perturbations of up to 100 within 307ms by applying a stroke-amplitude asymmetry that is well described by a linear PI controller. The response latency is 5ms, making the roll correction reflex one of the fastest in the animal kingdom.