Design and Analysis of a Two-Degree-of-Freedom Inertial Piezoelectric Platform
Qingbing Chang, Yicheng Xu, Xian Deng, Xuan Liu, Liangkuan Zhu, Jian Li, Yingxiang Liu

TL;DR
This paper introduces a new piezoelectric platform for precise leaf stomatal detection, combining large motion range and high resolution.
Contribution
A novel 2-DOF cross-scale piezoelectric platform with a 3-DOF stator is proposed to improve detection of leaf stomata.
Findings
The platform achieves a motion range of 15 mm × 15 mm with high resolution.
Displacement resolutions reach 11.39 nm and 13.61 nm in X and Y directions.
The platform successfully detects leaf stomatal density, showing potential for botanical micro-detection.
Abstract
Leaf stomatal density directly regulates the rates of gas exchange and water loss and is a core indicator of plants’ water-retention capacity and drought adaptability. Because detecting leaves over a macroscopic range requires large-stroke motion, whereas accurate identification of stomata demands high-precision positioning, the operational platform for stomatal-density detection faces the dual challenge of large strokes and high resolution. This paper proposes a novel two-degree-of-freedom (2-DOF) cross-scale piezoelectric platform that employs a new three-degree-of-freedom (3-DOF) piezoelectric stator to address the backlash issue in inertial drive and combines it with finite-element simulation for verification. The prototype of the 2-DOF cross-scale piezoelectric positioning platform is developed, and a series of experiments are conducted to evaluate its performance. The experimental…
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Taxonomy
TopicsPiezoelectric Actuators and Control · Tree Root and Stability Studies · Electrowetting and Microfluidic Technologies
