Jean-Daniel Nicoud scite author profile

We aim at developing ultralight autonomous microflyers capable of freely flying within houses or small built environments while avoiding collisions. Our latest prototype is a fixed-wing aircraft weighing a mere 10 g, flying around 1.5 m/s and carrying the necessary electronics for airspeed regulation and lateral collision avoidance. This microflyer is equipped with two tiny camera modules, two rate gyroscopes, an anemometer, a small microcontroller, and a Bluetooth radio module. Inflight tests are carried out in a new experimentation room specifically designed for easy changing of surrounding textures.keywords: indoor flying robot, vision-based navigation, collision avoidance, optic flow.

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Toward indoor flying robots

Nicoud¹,

Zufferey²

2002

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Developing a research autonomous plane for flying in a laboratory space is a challenge that forces one to understand the specific aerodynamic, power and construction constraints. In order to obtain a very slow flight while maintaining a high maneuverability, ultralight structures and adequate components are required. In this paper we analyze the wing, propeller and motor characteristics and propose a methodology to optimize the motor/gear/propeller system. The C4 model plane (50g, 1.5m/s) demonstrates the feasibility of such a laboratory flying test-bed.

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The Pemex-B autonomous demining robot: perception and navigation strategies

Nicoud

Habib

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Autonomous vacuum cleaner

Ulrich

Mondada

Nicoud

1997

Robotics and Autonomous Systems

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This paper presents the results of the development of an autonomous mobile robot, designed according to some new concepts established in this eld during the last decade. These principles can be found in other work based on the constructivist approach, arti cial life, subsumption architecture and other bottom-up methodologies. These ideas have been applied to the complete robot design, spanning from the shape of the robot to the sensors, from the electronics to the software control structure. By this way w e h a ve developed what we call an "Application Speci c Mobile Robot" ASMR. The target application is a domestic autonomous vacuum cleaner. Despite the actual limitations of the nal robot, this work shows how this methodology can bring many i n teresting results.

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A 1.5g SMA-actuated Microglider looking for the Light

Kovač

Guignard

Nicoud³

et al. 2007

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Abstract-Unpowered flight can be used in microrobotics to overcome ground obstacles and to increase the traveling distance per energy unit. In order to explore the potential of goal-directed gliding in the domain of miniature robotics, we developed a 22cm microglider weighing a mere 1.5g and flying at around 1.5m/s. It is equipped with sensors and electronics to achieve phototaxis, which can be seen as a minimal level of control autonomy. A novel 0.2g Shape Memory Alloy (SMA) actuator for steering control has been specifically designed and integrated to keep the overall weight as low as possible. In order to characterize autonomous operation of this robot, we developed an experimental setup consisting of a launching device and a light source positioned 1m below and 4m away with varying angles with respect to the launching direction. Statistical analysis of 36 autonomous flights demonstrate its flight and phototaxis efficiency.

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