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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机译:VelociRoACH是一个10厘米长,30克重的六足机器人,能够以2.7 m / s的速度运行,这是迄今为止相对于规模而言最快的有腿机器人。我们通过动态相似性技术和运动适应性介绍了该设计,从而实现了这种高度动态的性能。此外,我们证明了随着机器人系统规模的减小,旋转动力学对于稳定性至关重要。我们提出了一种针对腿部Millirobots的实验动态调整的新方法,旨在找到具有最小旋转能量的稳定极限周期。通过实施空气动力学旋转阻尼器,我们进一步降低了系统中的旋转能量,并证明了具有较低旋转能量的稳定极限环对干扰更稳定。这种方法在不影响前进速度的情况下提高了系统的稳定性。
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