Publications

Jian-Dong Ke, Yu-Jen Chiu, Hong-Chang Hsu, Jhy-Cherng Tsai, and Yu-Jen Wang, "Tri-Axis force sensing and Controlling for a horizontally distributed 3-PUU parallel mechanism," Measurement, Volume 249, (2025).

H. J. Huang, Y. H. Lin, S. H. Hsieh and Y. J. Wang, "Uncertainty analysis of a force and torque sensor calibration machine utilizing electromagnetic actuation," IEEE Sensors Journal, (2025).

Ke, J., Wang, Y., and Tsai, J., "Positioning Error Estimation Models for Horizontal-Distributed Prismatic–Universal–Universal Parallel Mechanism." ASME. J. Mechanisms Robotics. December (2024).

Yi-Hsiang Lin, Yu-Jen Wang, Yu-Shu Chen, and Shih-Ting Lin, "Design of a Noncontact Magnetostrictive Force Sensor Applied to Movable Objects ," IEEE Sensors Journal , (2024).

Yu-Jen Wang, Bei-Chia Chang, and Yu-Jan Lo, "Sensitivity-Adjustable force sensors based on one-dimensional superlattice structures," Measurement, Volume 230, (2024).

Yu-Jen Wang, Pei-Kai Chi, Yi-Hsiang Lin, Tien-Fu Lu, and Chung-Yang Sue, "A six-axis force and torque sensor consisting of compliant mechanisms and full-bridge strain gauges," Measurement, Volume 226, (2024).

Chuang, M.-C., Jan, C.-M., Wang, Y.-J., and Hsu, Y.-L. (2023). Intelligent Monitoring and Compensation between EDM and ECM. Applied Sciences, 13(2), 927. 

J. D. Ke, Y. J. Wang* and J. C. Tsai, “Kinematic error model of a 3-PUU parallel mechanism for translational motion,” Measurement, 202 (2022) 111853. (SCI, IF= 5.6, Instruments & Instrumentation: 9/63) 2. 

Y. J. Wang*, R. Y. Huang, C. Y. Sue and Yeng-Tseng Wang, “Triaxis Static Force Sensing for Langevin-Type Ultrasonic Tools Using Lead-Zirconate-Titanate Ceramic Rings,” IEEE Sensors Journal, 21 20 (2021), pp. 22518-22526. 

Y. J. Wang*, J. L. Ho and Y. B. Jiang, “A self-positioning linear actuator based on a piezoelectric slab with multiple pads,” Mechanical Systems and Signal Processing, 150 (2021), 107245. (SCI, IF= 8.9, Engineering, Mechanical: 4/137). 

Y. J. Wang*, C. W. Hsu and C. Y. Sue, “Design and Calibration of a Dual-Frame Force and Torque Sensor,” IEEE Sensors Journal, 20 20 (2020) pp. 12134-12145. 

C. Lee and Y. J. Wang*, “Development of a cloud-based IoT monitoring system for fish metabolism and activity in aquaponics,” Aquacultural Engineering, 90 (2020) 102067. 

Y. J. Wang*, C. Yang, C. Y. Sue, Y. T. Wang, “Analysis of a 0.1-μm stepping bi-axis piezoelectric stage using a 2-DOF lumped model”, Microsystem Technologies, https://doi.org/10.1007/s00542-019-04511-2 (2019). (SCI, IF= 1.581, Engineering Electrical: 147/260)

Y. J. Wang*, T. Y. Chuang, C. Lee, “Resonant frequency self-tunable piezoelectric cantilevers for energy harvesting and disturbing torque absorbing”, Sensors and Actuators A: Physical, 285 1 (2019) pp. 25-34. (SCI, IF= 2.311, Instruments: 19/61)

Y. J. Wang*, C. H. Chen, C. Y. Sue, W. H. Lu, Y. H. Chiou, “Estimation of blood pressure in the radial artery using strain-based pulse wave and photoplethysmography sensors”, Micromachines, 9 11 (2018) pp. 556. (SCI, IF= 2.222, Instruments: 22/61)

C. Lee, Y. J. Wang*, “A novel method to derive formulas for computing the wet-bulb temperature from relative humidity and air temperature”, Measurement, 128 (2018) pp. 271-275. (SCI, IF= 2.218, Engineering Multidisciplinary: 22/86)

Y. B. Jiang, Y. J. Wang*, G. L. Lin, C. E. Weng, W. H. Lu, “An automatic feeding system with a linear piezoelectric actuator, driving circuit and position sensors”, Microsystem Technologies, 24 4 (2018) pp. 1909-1917. (SCI, IF= 1.581, Engineering Electrical: 147/260)

T. H. Tran, Y. J. Wang, C. K. Cheng, P. C.-P. Chao*, C. C. Wang, “Using maximum likelihood to calibrate a six-DOF force/torque sensor”, Microsystem Technologies, 24 11 (2018) pp. 4493-4509. (SCI, IF= 1.581, Engineering Electrical: 147/260)

C. C. Lin*, G. H. Lee, Y. J. Wang, “Design and fabrication of gypsum mold for injection molding”, Journal of the Chinese Institute of Engineers, 41 2 (2018) pp. 160-167.

Y. J. Wang*, T. Y. Chuang and J. H. Yu, “Design and Kinetic Analysis of Piezoelectric Energy Harvesters with Self-adjusting Resonant frequency”, Smart Materials and Structures, 26 1 (2017) 095037. (SCI, IF= 2.769, Instruments: 5/56)

C. Lee*, Y. J. Wang, “Psychrometer based on a contactless infrared thermometer with a predictive model for water evaporation”, Biosystems Engineering, 160 (2017) 84-94 (SCI, IF= 1.997, Agriculture engineering: 7/57)

Y. J. Wang*, C. Lee, Y. B. Jiang, K. C. Fu, “Design and dynamic analysis of a piezoelectric linear stage for pipetting liquid samples”, Smart Materials and Structures, 26 6 (2017) 065004 (SCI, IF= 2.769, Instruments: 5/56)

Y. J. Wang*, K. C. Fu, C. C. Wang, “A Smart Pinless Ejection Mechanism Using Dual-Resonance Excitation Langevin Piezoelectric Transducers”, Smart Materials and Structures, 25 1 (2016) 015014 (SCI, IF= 2.769, Instruments: 5/56)

Y. J. Wang*, T. Y. Chen, M. C. Tsai, C. H. Wu, “Noninvasive blood pressure monitor using strain gauges, a fastening band, and a wrist elasticity model”, Sensors and Actuators A: Physical, 1 252 (2016) 198-208 (SCI, IF= 2.311, Instruments: 19/61)

Y. J. Wang*, J. H. Yu, “Enhancement of rolling energy conversion of a boat using an eccentric rotor revolving in a hula-hoop motion”, Ocean Engineering, 116 (2016) 21-31 (SCI, IF= 1.488, Marine Engineering: 2/14)

Y. J. Wang*, Y. C. Chen and S. C. Shen, “Design and Analysis of a Standing-Wave Trapezoidal Ultrasonic Linear Motor”, Journal of Intelligent Material Systems and Structures, 26 (2015) 2295-2303 (SCI, IF=1.975, Material science: 105/271)

Y. J. Wang*, C. D. Chen, C. C. Lin and J. H. Yu, “A nonlinear suspended energy harvester for a tire pressure monitoring system”, Micromachines, 6 (2015) 312-327 (SCI, IF= 2.222, Instruments: 22/61)

Y. J. Wang*, Y. T. Hao and H. Y. Lin, “Design of a weighted-rotor energy harvester based on dynamic analysis and optimization of circular Halbach array magnetic disk”, Micromachines, 6 (2015) 375-389 (SCI, IF= 2.222, Instruments: 22/61)

Y. J. Wang*, C. D. Chen and Chien Li, “Design and analysis of a compact synthetic-jet-based air pump for large airflow”, Microsystem Technologies, 21 (2015) 1437-1446 (SCI, IF= 1.581, Engineering Electrical: 147/260)

Y. J. Wang* and C. D. Chen, “Design and jump phenomenon analysis of an eccentric ring energy harvester”, Smart Mater. Struct., 22, 10 (2013) 105019 (SCI, IF= 2.769, Instruments: 5/56)

Y. J. Wang*, C. D. Chen and C. K. Sung, “System design of a weighted-pendulum type electromagnetic generator for harvesting energy from a rotating wheel”, IEEE/ASME Transactions on Mechatronics, 18, 2 (2013) 754-763 (SCI, IF=3.652, Manufacture:1/39)

Jiang Yi-Bin, Wang Yu-Jen, Lin Guan-Long, Huang Jian-Lun, "A miniature automatic feeding system for microfluidic samples based on piezoelectric actuator and position-sensing IC," Proceeding of the 2016 International conference on computing and precision engineering, Kenting, Taiwan, Sep., 2016.

王郁仁、李治廣、孫韶甫，“建立電子浮標自主發電之雙軸能量轉換器”，第20屆全國機構與機器設計學術研討會，I-26，國立彰化師範大學，彰化，台灣，2016年11月17日。

林冠龍、江益賓、王郁仁，“具步進調變之小型壓電定位平台”，第19屆全國機構與機器設計學術研討會，I-34，國立屏東科技大學，屏東，台灣，2016年10月28日。

Jui-Hsin Yu, Tsung-Yi Chuang, Yu-Jen Wang, “Research of piezoelectric energy harvesters with adjustable resonance frequency,” 19th National Conference on the Design of Mechanisms and Machines, F-33, Pingtung, Taiwan. October, 2016

Tsung-Yi Chuang, Yu-Jen Wang, “A piezoelectric cantilever for energy harvesting and disturbance torque absorption,” 20th National Conference on the Design of Mechanisms and Machines, F-31, Changhua, Taiwan. November, 2017

Tsung-Yi Chuang, Yu-Jen Wang, Chien-Erh Weng, “Analysis of disturbing torque absorption and power generation of a piezoelectric energy harvester,” Proceedings of the ASME 2017 information storage & process systems conference, California, USA. August, 2017.

Tsung-Yi Chuang, Yu-Jen Wang, “A piezoelectric energy cantilever for energy harvesting and disturbance torque absorption,” Third Computational Mechanics Conference in Taiwan, Tainan, Taiwan. October, 2017

Yi-Bin Jiang, Yu-Jen Wang, Kuo-Chieh Fu, Guan-Long Lin, "An automatic feeding system with a linear piezoelectric actuator, a driving circuit and position sensors," Proceeding of the 2017 International conference on applied system innovation, Sapporo, Japan, May, 2017.