Flight control for target seeking by 13 gram ornithopter

Baek, Stanley; Bermudez, F. L. Garcia; Fearing, Ronald S.

doi:10.1109/iros.2011.6094581

Cited by 60 publications

(17 citation statements)

References 18 publications

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“…This proposed framework has four main pieces, a main robot (1) which is assisted by one or more picket robots (2). The main robot has a method to localize itself and the picket robots (3), and the picket robots have a method to classify terrain (4).…”

Section: Discussionmentioning

confidence: 99%

Detection of slippery terrain with a heterogeneous team of legged robots

Haldane

Fankhauser

Siegwart

et al. 2014

2014 IEEE International Conference on Robotics and Automation (ICRA)

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Abstract-Legged robots come in a range of sizes and capabilities. By combining these robots into heterogeneous teams, joint locomotion and perception tasks can be achieved by utilizing the diversified features of each robot. In this work we present a framework for using a heterogeneous team of legged robots to detect slippery terrain. StarlETH, a large and highly capable quadruped uses the VelociRoACH as a novel remote probe to detect regions of slippery terrain. StarlETH localizes the team using internal state estimation. To classify slippage of the VelociRoACH, we develop several Support Vector Machines (SVM) based on data from both StarlETH and VelociRoACH. By combining the team's information about the motion of VelociRoACH, a classifier was built which could detect slippery spots with 92% (125/135) accuracy using only four features.

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Section: Discussionmentioning

confidence: 99%

Detection of slippery terrain with a heterogeneous team of legged robots

Haldane

Fankhauser

Siegwart

et al. 2014

2014 IEEE International Conference on Robotics and Automation (ICRA)

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“…For micro-size level, there are two research groups who have recently achieved initial autonomous flight for their platforms. In [6], researchers at University of California, Berkeley have designed two PID controllers for decoupled 6-DoF longitudinal and lateral dynamics models, and they are executed onboard at 400 Hz to drive 13-gram ornithopter during cruise flight. In [142], DelFly II MAV accomplished autonomous station-keeping in a small wind-tunnel, and similarly two PID controllers are developed for decoupled longitudinal and lateral dynamics control.…”

Section: Flight Control Of Small-scale Flapping-wing Uavsmentioning

confidence: 99%

A Survey of Small-Scale Unmanned Aerial Vehicles: Recent Advances and Future Development Trends

2014

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This paper provides a brief overview on the recent advances of small-scale unmanned aerial vehicles (UAVs) from the perspective of platforms, key elements, and scientific research. The survey starts with an introduction of the recent advances of small-scale UAV platforms, based on the information summarized from 132 models available worldwide. Next, the evolvement of the key elements, including onboard processing units, navigation sensors, mission-oriented sensors, communication modules, and ground control station, is presented and analyzed. Third, achievements of small-scale UAV research, particularly on platform design and construction, dynamics modeling, and flight control, are introduced. Finally, the future of small-scale UAVs' research, civil applications, and military applications are forecasted.

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“…A lightweight electronics package controls the robot's locomotion and logs data from its on-board sensors [2]. It includes a 40 MHz microprocessor, an inertial measurement unit, an 802.15.4 wireless radio, and motor control circuitry 1 .…”

Section: Motor Transmission and Control Electronicsmentioning

confidence: 99%

Animal-inspired design and aerodynamic stabilization of a hexapedal millirobot

Haldane

Peterson

Bermudez

et al. 2013

2013 IEEE International Conference on Robotics and Automation

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Abstract-The VelociRoACH is a 10 cm long, 30 gram hexapedal millirobot capable of running at 2.7 m/s, making it the fastest legged robot built to date, relative to scale. We present the design by dynamic similarity technique and the locomotion adaptations which have allowed for this highly dynamic performance. In addition, we demonstrate that rotational dynamics become critical for stability as the scale of a robotic system is reduced. We present a new method of experimental dynamic tuning for legged millirobots, aimed at finding stable limit cycles with minimal rotational energy. By implementing an aerodynamic rotational damper, we further reduced the rotational energy in the system, and demonstrated that stable limit cycles with lower rotational energy are more robust to disturbances. This method increased the stability of the system without detracting from forward speed.

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Flight control for target seeking by 13 gram ornithopter

Cited by 60 publications

References 18 publications

Detection of slippery terrain with a heterogeneous team of legged robots

Detection of slippery terrain with a heterogeneous team of legged robots

A Survey of Small-Scale Unmanned Aerial Vehicles: Recent Advances and Future Development Trends

Animal-inspired design and aerodynamic stabilization of a hexapedal millirobot

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