Tanabe Kengo, Shiota Masato, Kusui Eiji, Iida Yohei, Kusama Hazumu, Kinoshita Ryosuke, Tsukui Yohei, Minegishi Rintaro, Sunohara Yuta, Fuchiwaki Ohmi
Department of Mechanical Engineering, Yokohama National University, 79-5 Tokiwadai, Hodogaya-ku, Yokohama 2408051, Kanagawa, Japan.
Micromachines (Basel). 2023 Feb 2;14(2):375. doi: 10.3390/mi14020375.
In this study, an XYθ position sensor is designed/proposed to realize the precise control of the XYθ position of a holonomic inchworm robot in the centimeter to submicrometer range using four optical encoders. The sensor was designed to be sufficiently compact for mounting on a centimeter-sized robot for closed-loop control. To simultaneously measure the XYθ displacements, we designed an integrated two-degrees-of-freedom scale for the four encoders. We also derived a calibration equation to decrease the crosstalk errors among the XYθ axes. To investigate the feasibility of this approach, we placed the scale as a measurement target for a holonomic robot. We demonstrated closed-loop sequence control of a star-shaped trajectory for multiple-step motion in the centimeter to micrometer range. We also demonstrated simultaneous three-axis proportional-integral-derivative control for one-step motion in the micrometer to sub-micrometer range. The close-up trajectories were examined to determine the detailed behavior with sub-micrometer and sub-millidegree resolutions in the MHz measurement cycle. This study is an important step toward wide-range flexible control of precise holonomic robots for various applications in which multiple tools work precisely within the limited space of instruments and microscopes.
在本研究中,设计/提出了一种XYθ位置传感器,以利用四个光学编码器在厘米到亚微米范围内实现全方位蠕动机器人XYθ位置的精确控制。该传感器设计得足够紧凑,可安装在厘米级机器人上进行闭环控制。为了同时测量XYθ位移,我们为四个编码器设计了一种集成的两自由度刻度。我们还推导了一个校准方程,以减少XYθ轴之间的串扰误差。为了研究这种方法的可行性,我们将刻度作为全方位机器人的测量目标。我们展示了厘米到微米范围内多步运动的星形轨迹的闭环序列控制。我们还展示了微米到亚微米范围内单步运动的同时三轴比例积分微分控制。在兆赫兹测量周期内,检查特写轨迹以确定具有亚微米和亚毫度分辨率的详细行为。这项研究是朝着对精确全方位机器人进行大范围灵活控制迈出的重要一步,适用于多种工具在仪器和显微镜的有限空间内精确工作的各种应用。