Index / People / Full-time Faculty
Full-time Faculty
Chien-Sheng LiuChien-Sheng Liu
Job_title
Professor and Chair
Education
PhD degree FR0M the department of mechanical engineering at National Cheng Kung University, Tainan, Taiwan
E-mail
csliu@mail.ncku.edu.tw
Phone
Office(62114)、Laboratory(62159-52)
Lab
Office(91722)、Opto-electronics Sensing and Application Laboratory(IE715)
Webpage
Personal website
Expertise
Precision Measurement, Geometric Error Measurement and System Design for Machine Tools, 3D Optical Scanner, Laser-based Autofocusing Microscopy, Multi-DOF FSM actuator/Robot Spherical Actuator/VCM Design, Opto-electronics Sensing and Applications






Experience
  • 2018/08 ~ present Professor, Department of Mechanical Engineering, National Cheng Kung University
  • 2017/08 ~ 2018/07 Professor, Department of Mechanical Engineering, National Chung Cheng University
  • 2014/08 ~ 2017/07 Associate Professor, Department of Mechanical Engineering, National Chung Cheng University
  • 2012/08 ~ 2014/07 Assistant Professor, Department of Mechanical Engineering, National Chung Cheng University
  • 2011/02 ~ 2012/07 Assistant Professor, Department of Mmechanical Engineering, National Central University
  • 2003/01 ~ 2011/01 Mechanical Design Engineer, Industrial Technology Research Institute (ITRI)
Academic expertise
  • 2007/09 ~ 2010/06 Ph.D., Department of Mechanical Engineering, National Cheng Kung University
  • 1996/09 ~ 1999/06 M.S., Department of Power Mechanical Engineering, National Tsing Hua University
  • 1992/09 ~ 1996/06 B.Sc., Department of Power Mechanical Engineering, National Tsing Hua University
Papers
    
  1. Y. S. Hsu, C. S. Liu*, J. H. Hung, and H. H. Chiang, “Development of fixed-point two-degree-of-freedom positioning errors measurement system with precision improvement function,” Measurement, vol. 239, p. 115525, 2025.
  2. Y. T. Chen, C. S. Liu*, and K. M. Lin, “Synchronous measurement and verification of position-independent geometric errors and position-dependent geometric errors of rotary axes on five-axis machine tools,” International Journal of Precision Engineering and Manufacturing, online, 2024.
  3. C. S. Liu*, W. Y. Shih, Y. C. Li, and Y. C. Tzeng, “Design of thicknesses and refractive indexes measurement system combined with auto-focus system for multilayer transparent samples,” Optics and Laser Technology, vol. 177, p. 111188, 2024.
  4. Y. M. Su and C. S. Liu*, “Development of fixed-point two-degree-of-freedom angular error measurement system with precision improvement function,” Review of Scientific Instruments, vol. 95, p. 055105, 2024.
  5. Y. T. Chen, C. S. Liu*, W. C. Shiau, H. F. Xie, C. L. Chiu, Q. H. Yan, B. K. Lee, T. H. Chen, and Y. Y. Huang, “Geometric error measurement of rotary axes on five-axis machine tools: a review,” International Journal of Precision Engineering and Manufacturing, vol. 25, pp. 1311–1332, 2024.
  6. C. S. Liu*, K. C. Jiang, M. F. Chen, and P. M. Lin, “Design and characterization of four-degree-of-freedom fast steering mirror for laser compensation system,” IEEE Transactions on Industry Applications, vol. 60, pp. 3850–3859, 2024.
  7. J. H. Hung, H. D. Tu, W. H. Hsu, and C. S. Liu*,"Design and experimental validation of an optical autofocusing system with improved accuracy," Photonics vol. 10, no. 12, 1329, 2023.
  8. X. T. Chen, C. S. Liu*, andJ. H. Yen,“Development of water-wheel tail measurement system based on image projective transformation,” Water, vol. 15, p. 3889, 2023.
  9. 施玟妤, 劉建聖*,“多層透明板厚度及折射率量測系統,” 科儀新知235 期112.6, pp. 10-29, 2023.
  10. C. S. Liu*,X. T. Chen, W. Y. Shih, C. C. Lin, J. H. Yen, C. J. Huang, and Y. T. Yen “Smart water quality monitoring technology for fish farms using cellphone camera sensor,” Sensors and Materials, vol. 35, no. 8, pp. 3019–3029, 2023.
  11. C. S. Liu*, J. J. Lin, and B. R. Chen, “A novel 3D scanning technique for reflective metal surface based on HDR-like image from pseudo exposure image fusion method,” Optics and Lasers in Engineering, vol. 168, 107688, 2023.
  12. C. C. Lo, W. H. Hsu, and C. S. Liu*,“Six-degree-of-freedom geometrical errors measurement system with compensation of laser beam drifts and installation errors for linear stage,” Optics and Lasers in Engineering, vol. 162, p. 107407, 2023.
  13. Y. T. Chen, C. L. Wang, and C. S. Liu*, “Design of a measurement system for measuring geometric errors of a workpiece table during two-axis synchronous motion,” Proceedings of the Institution of Mechanical Engineers, Part B: Journal of Engineering Manufacture, Online, 2022.
  14. Y. T. Chen, T. C. Liu, and C. S. Liu*, “Geometric errors measurement of facing head and machining verification on large horizontal boring and milling machine tool,”International Journal of Advanced Manufacturing Technology, vol. 121, pp. 7439–7449, 2022.
  15. Y. T. Chen, T. Y. Lee, and C. S. Liu*, “Synchronous measurement and verification of position-independent geometric errors and position-dependent geometric errors in c-axis on mill-turn machine tools,”International Journal of Advanced Manufacturing Technology, vol. 121, pp. 5035–5048, 2022.
  16. C. S. Liu* and H. D. Tu, “Innovative image processing method to improve autofocusing accuracy,” Sensors, vol. 22, p. 5058, 2022.
  17. M. K. Lee, J. Z. Yu, H. Y. Chang, C. Y. Chang,C. S. Liu,and P. C. Lin, “Nonlinear multiphoton modification of glass substrates for fabrication of high aspect ratio through-glass vias,” AIP Advances,vol. 12, p. 055011, 2022.
  18. C. S. Liu*and C. H. Tsai “Design and characterization of innovative optical prism for four-degree-of-freedom fast steering mirror active laser compensation system,” Review of Scientific Instruments,vol. 93, p. 045002, 2022.
  19. C. M. Jan,C. S. Liu*,and C. Y. Lin, “Development of low-cost heterodyne interferometer with virtual electronic phasemeter,” Measurement and Control,vol. 55(5-6), pp. 229–238, 2022.
  20. W. C. Tai andC. S. Liu*, “Development and verification of six-degree-of-freedom error measurement system based on geometrical optics for linear stage,” International Journal of Advanced Manufacturing Technology,vol. 119, pp. 3903–3916, 2022.
  21. C. S. Liu*, Y. C. Wu, and Y. J. Lan, “Design of 4-DOF voice coil motor with function of reducing laser geometrical fluctuations,” Actuators, vol. 10, p. 320, 2021.
  22. G. Hao*, H. Li, Y. H. Chang, and C. S. Liu, “Design of four-DOF compliant parallel manipulators considering maximum kinematic decoupling for fast steer mirrors,” Actuators, vol. 10(11), p. 292, 2021.
  23. J. C. Huang, C. S. Liu*, and C. Y. Tsai, “Calibration procedure of camera with multifocus zoom lens for three-dimensional scanning system,” IEEE Access, vol. 9, pp. 106387–106398, 2021.
  24. C. M. Jan, C. S. Liu*, C. L. Chen, and Y. T. Chen, “Optical interference system for simultaneously measuring refractive index and thickness of slim transparent plate,” Optics and Lasers in Engineering, vol. 145, p. 106668, 2021.
  25. C. S. Liu*, J. Y. Zeng, and Y. T. Chen, “Development of positioning error measurement system based on geometric optics for long linear stage,” International Journal of Advanced Manufacturing Technology,vol. 115, pp. 2595–2606, 2021.
  26. C. S. Liu*, Y. H. Lin, and C. N. Yeh, “Analytical investigation on torque of three-degree-of-freedom electromagnetic actuator for image stabilization,” Applied Sciences, vol. 11, p. 6872, 2021.
  27. Y. H. Lin, C. S. Liu*, and C. N. Yeh, “Design and simulation of novel 3-DOF spherical voice coil motor,” Actuators, vol. 10, p. 155, 2021.
  28. Y. H. Chang, G. Hao, and C. S. Liu*, “Design and characterisation of a compact 4-degree-of-freedom fast steering mirror system based on double Porro prisms for laser beam stabilization,”Sensors and Actuators A: Physical,vol. 322, p. 112639, 2021.
  29. C. S. Liu*and T. Y. Weng, “Thickness and Refractive Index Measurement System for Multilayered Samples,” IEEE Access,vol. 9, pp. 21474-21480, 2021.
  30. C. S. Liu* and Y. J. Ou, “Grinding wheel loading evaluation by using acoustic emission signals and digital image processing,” Sensors, vol. 20, p. 4092, 2020.
  31. C. M. Jan, C. S. Liu*, and J. Y. Yang, “Implementation and optimization of a dual-confocal autofocusing system,” Sensors, vol. 20, p. 3479, 2020.
  32. C. L. Hsieh, C. S. Liu*, and C. C. Cheng,“Design of a 5 degree of freedom–voice coil motor actuator for smartphone camera modules,” Sensors and Actuators A: Physical,vol. 309, p. 112014, 2020.
  33. C. L. Hsieh andC. S. Liu*, “Design of a voice coil motor actuator with L-shape coils for optical zooming smartphone cameras,” IEEE Access,vol. 8, pp. 20884-20891, 2020.
  34. C. S. Liu*, H. C. Hsu, and Y. X. Lin, “Design of a six-degree-of-freedom geometric errors measurement system for a rotary axis of a machine tool,” Optics and Lasers in Engineering, vol. 127, p. 105949, 2020.
  35. Y. H. Chang, C. S. Liu*, I W. Chen, M. S. Tsai, and H. C. Tseng, “Open-loop control of voice coil motor with magnetic restoring force using high-low frequency composite signals,” IEEE Access,vol. 7, pp. 146258-146263, 2019.
  36. C. S. Liu*, R. C. Song, and S. J. Fu, “Design of a laser-based autofocusing microscope for a sample with a transparent boundary layer,” Applied Physics B,vol. 125, no. 11, pp. 199, 2019.
  37. Y. T. Chen, P. More, C. S. Liu*, and C. C. Cheng, “Identification and compensation of position-dependent geometric errors of rotary axes on five-axis machine tools by using a touch-trigger probe and three spheres,”International Journal of Advanced Manufacturing Technology, vol. 102, pp. 3077-3089, 2019.
  38. Y. T. Chen, P. More, and C. S. Liu*, “Identification and verification of location errors of rotary axes on five-axis machine tools by using a touch-trigger probe and a sphere,” International Journal of Advanced Manufacturing Technology, vol. 100, pp. 2653-2667, 2019.
  39. Y. H. Chang, C. C. Hu, C. L. Hsieh, andC. S. Liu*, “Design of VCM Actuator for Optical Zooming Smartphone Cameras,” Microsystem Technologies, vol. 25, pp. 277-281, 2019.
  40. C. S. Liu*, J. J. Lai, and Y. T. Luo, “Design of a measurement system for six-degree-of-freedom geometric errors of a linear guide of a machine tool,” Sensors, vol. 19, pp. 5, 2019.
  41. Y. H. Chang, C. S. Liu*, and C. C. Cheng, “Design and characterisation of a fast steering mirror compensation system based on double Porro prisms by a screw-ray tracing method,” Sensors, vol. 18, pp. 4046, 2018.
  42. C. S. Liu*, Y. F. Pu, Y. T. Chen and Y. T. Luo, “Design of a measurement system for simultaneously measuring six-degree-of-freedom geometric errors of a long linear stage,” Sensors, vol. 18, pp. 3875, 2018.
  43. C. S. Liu*, Z. Y. Wang, and Y. T. Chen, “Novel system for simultaneously measuring the thickness and refractive index of a transparent plate with two optical paths,” Applied Physics B,vol. 124, no. 9, pp. 180, 2018.
  44. C. S. Liu*, and Y. A. Li, “Evaluation of grinding wheel loading phenomena by using acoustic emission signals,” International Journal of Advanced Manufacturing Technology, vol. 99, pp. 1109–1117, 2018.
  45. D. S. Liu, C. J. Lu*, S. H. Chen, C. S. Liu, and T. W. Liao, “Simplified numerical model for rapid design of AF module spring shape parameters,” Journal of Mechanics, vol. 34, issue 5, pp. 591-600, 2018.
  46. C. L. Hsieh, Y. H. Chang, Y. T. Chen, and C. S. Liu*, “Design of VCM actuator with L-shape coil for smartphone cameras,” Microsystem Technologies, vol. 24, no. 2, pp. 1033-1040, 2018.
  47. Y. T. Lee, A. S. Yang, Y. H. Juan, C. S. Liu*, and Y. H. Chang, “A new micro-hydrodynamic herringbone bearing using slant groove depth arrangements for performance enhancement,” Journal of Mechanics, vol. 33, no. 5, pp. 725-737, 2017.
  48. C. S. Liu*, B. J. Tsai, and Y. H. Chang, “A compact low-cost camera module with modified magnetic restoring force,” Journal of Mechanics, vol. 33, no. 4, pp.475-482, 2017.
  49. C. L. Hsieh, H. Y. Wang, Y. H. Chang, and C. S. Liu*, “Design of VCM actuator with the chamfered edge magnet for cellphone,” Microsystem Technologies, vol. 23, no. 12, pp. 5293-5302, 2017.
  50. J. C. Huang, C. S. Liu*, P. J. Chiang, W. Y. Hsu, J. L. Liu, B. H. Huang, and S. R. Lin, “Design and Experimental validation of novel three-dimensional optical scanner with zoom lens unit,” Measurement Science and Technology, vol. 28, pp. 105904-1-105904-10, 2017.
  51. C. Y. Chen, C. S. Liu*, C. K. Tee, and Y. C. Li, “Application of stabilized term in free boundary problems for optimizing bi-directional-rotation herringbone-grooved journal bearings,” Applied Mathematical Modelling, vol. 47, pp. 826-838, 2017.
  52. Y. H. Chang, C. J. Lu, C. S. Liu*, D. S. Liu , S. H. Chen, T. W. Liao, W. Y. Peng, C. H. Lin, “Design of miniaturized optical image stabilization and autofocusing camera module for cellphones,” Sensors and Materials, vol. 29, no. 7, pp. 989-995, 2017.
  53. 張隆武, 方彥博, 劉建聖*, 陳昱達, 林威辰, “雷射源微型精密構裝與檢測技術應用,” 機械工業雜誌, 407期, pp. 16-28, 2017.
  54. Y. T. Chen, W. C. Lin, and C. S. Liu*, “Design and experimental verification of novel six-degree-of freedom geometric error measurement system for linear stage,” Optics and Lasers in Engineering, vol. 92, pp. 94-104, 2017.
  55. C. S. Liu*and Y. H. Chang, “Development of novel spindle motor with dual air gaps to improve output torque,” Microsystem Technologies,vol. 23, pp. 371-379, 2017.
  56. C. S. Liu*, L. Kuo, and B. J. Tsai, “New electromagnetic design of miniature AF VCM actuator with low cost,” Journal of Mechanics, vol. 32, no. 4, pp. 421-426, 2016.
  57. Y. T. Chen, Y. S. Huang, and C. S. Liu*, “An optical sensor for measuring the position and slanting direction of flat surfaces,” Sensors, vol. 16, no. 7, pp. 1061-1-1061-13, 2016.
  58. C. S. Liu*, B. J. Tsai, and Y. H. Chang, “Design and applications of novel enhanced-performance force sensor,” IEEE Sensors Journal, vol. 16, no. 12, pp. 4665-4666, 2016.
  59. C. S. Liu*, Y. H. Chang, and H. F. Li, “Design of an open-loop controlled auto-focusing VCM actuator without spring plates,” International Journal of Applied Electromagnetics and Mechanics, vol. 51, pp. 61-70, 2016.
  60. C. S. Liu*, M. K. Lee, and Y. C. Chuo, “Miniature fluid dynamic bearing with improved load capacity,” Transactions of the Canadian Society for Mechanical Engineering, vol. 39, no. 3, pp. 527-535, 2015.
  61. 劉建聖*, 張育豪, 李鴻飛, 彭文陽, 林正軒, “磁預壓節能型音圈馬達自動對焦致動器的設計,” 機械工業雜誌, 391期, pp. 62-71, 2015.
  62. C. S. Liu*, Z. Y. Wang, and Y. C. Chang, “Design and characterization of high-performance autofocusing microscope with zoom in/out functions,”Applied Physics B, vol. 121, pp. 69-80, 2015.
  63. C. S. Liu* and H. F. Li, “Design and Experimental Validation of Novel Force Sensor,” IEEE Sensors Journal, vol. 15, pp. 4402-4408, 2015.
  64. C. Y. Chen, C. S. Liu*, Y. C. Li, and S. Mou, “Geometry optimization for asymmetrical herringbone grooves of miniature hydrodynamic journal bearings by using Taguchi technique,” Journal of Engineering Tribology, vol. 229, no. 2, pp. 196-206, 2015.
  65. C. S. Liu*and S. H. Jiang, “Precise autofocusing microscope with rapid response,”Optics and Lasers in Engineering, vol. 66, pp. 294-300, 2015.
  66. C. Y. Chen, C. S. Liu*and Y. C. Li, “Design and characterization of miniature fluid dynamic bearing using novel multi-step elliptical grooves,” Microsystem Technologies,vol. 21, no. 1, pp. 91-100, 2015.
  67. C. S. Liu*, M. K. Lee, and Y. C. Chuo, “Design of novel hydrodynamic grooved journal bearing with dual-layer herringbone-grooved patterns,” Applied Mechanics and Materials, vols. 764-765, pp. 239-243, 2015.
  68. C. S. Liu*and S. H. Jiang, “Design and experimental validation of novel enhanced-performance autofocusing microscope,”Applied Physics B, vol. 117, no. 4, pp. 1161-1171, 2014.
  69. C. S. Liu*and K. W. Lin, “Numerical and experimental characterization of reducing geometrical fluctuations of laser beam based on rotating optical diffuser,” Optical Engineering, vol. 53, no. 12, pp. 122408-1-122408-8, 2014.
  70. H. C. Yu*, T. C. Chen, and C. S. Liu, “Adaptive fuzzy logic proportional-integral-derivative control for a miniature autofocus voice coil motor actuator with retaining force,”IEEE Transactions on Magnetics, vol. 50, no. 11, pp. 8203204-1-8203204-4, 2014.
  71. H. Hocheng*, C .C. Tsao, C. S. Liu, and H. A. Chen, “Reducing drilling-induced delamination in composite tube by magnetic colloid back-up,” CIRP Annals - Manufacturing Technology, vol. 63, pp. 85-88, 2014.
  72. 劉建聖*, 李昱澄, “橢圓多階動壓軸承的最佳化設計,” 機械月刊, 第四十卷第三期, pp. 文42-54, 2014.
  73. C. S. Liu*, Y. C. Chang, K. W. Lin and P. H. Lin, “Speckle reduction in laser imaging applications using rotating magneto-optical disk,” Journal of the Optical Society of America A, vol. 31, no. 1, pp.16-20, 2014.
  74. C. S. Liu*and S. H. Jiang, “A novel laser displacement sensor with improved robustness toward geometrical fluctuations of the laser beam,” Measurement Science and Technology, vol. 24, pp. 105101-1-105101-8, 2013.
  75. C. S. Liu*, Y. C. Lin, and P. H. Hu, “Design and characterization of precise laser-based autofocusing microscope with reduced geometrical fluctuations,” Microsystem Technologies, vol. 19, no. 11, pp.1717-1724, 2013.
  76. S. S. Ko, C. S. Liu*, and Y. C. Lin, “Optical inspection system with tunable exposure unit for micro-crack detection in solar wafers,” Optik, vol. 124, pp. 4030-4035, 2013.
  77. C. Y. Chen, R. H. Yen*, and C. S. Liu*, “Characteristics of dynamic coefficients on stability for herringbone-grooved journal bearings,” Applied Mathematics & Information Sciences, vol. 7, no. 3, pp. 1215-1223, 2013.
  78. P. D. Lin*andC. S. Liu, “Jacobian and Hessian matrices of optical path length for computing the wave-front shape, irradiance, and caustics in optical systems,” Journal of the Optical Society of America A, vol. 29, no. 11, pp. 2272-2280, 2012.
  79. C. S. Liu*, C. H. Lin, Y. N. Sun, C. L. Ho, and C. C. Hsu, “True color blood flow imaging using a high-speed laser photography system,” Optical Engineering, vol. 51, no. 10, pp. 103201-1-103201-9, 2012.
  80. C. S. Liu*, P. H. Hu, and Y. C. Lin,“Design and experimental validation of novel optics-based autofocusing microscope,” Applied Physics B, vol. 109, no. 2, pp. 259-268, 2012.
  81. C. S. Liu*and S. S. Ko, “Miniature auto-focusing VCM actuator with excellent shock resistance,” Advanced Science Letters, vol. 8, pp. 83-88, 2012.
  82. 劉建聖, “手機相機自動對焦致動器的設計,” 智慧自動化產業期刊(Journal of Automation Intelligence and Robotics), no. 3, pp. 67-73, 2012.
  83. C. S. Liu*, S. S. Ko, and P. D. Lin, “Experimental Characterization of High-Performance Miniature Auto-Focusing VCM Actuator,” IEEE Transactions on Magnetics, vol. 47, no. 4, pp. 738-745, 2011.
  84. P. D. Lin* and C. S. Liu, “Geometrical MTF computation method based on the irradiance model,” Applied Physics B, vol. 102, pp. 243-249, 2011.
  85. C. S. Liu*and P. D. Lin, “Determination of linear equations of position sensing detectors in small motion measurement systems,” Journal of the Optical Society of America A, vol. 27, no. 11, pp. 2480-2487, 2010.
  86. C. S. Liu*, M. C. Tsai, R. H. Yen, P. D. Lin, and C. Y. Chen, “Design and experimental verification of novel hydrodynamic grooved journal bearing,” Journal of the Chinese Society of Mechanical Engineers, vol. 31, no. 2, pp. 137-144, 2010.
  87. C. S. Liu*and P. D. Lin, “Computational method for deriving the geometric point spread function of an optical system,” Applied Optics, vol. 49, no. 1, pp. 126-136, 2010.
  88. C. S. Liu*and P. D. Lin, “Miniaturized auto-focusing VCM actuator with zero holding current,” Optics Express, vol. 17, no. 12, pp. 9754-9761, 2009.
  89. C. S. Liu*, P. D. Lin, and M. C. Tsai, “A miniature spindle motor with fluid dynamic bearings for portable storage device applications,” Microsystem Technologies, vol. 15, pp. 1001-1007, 2009.
  90. C. S. Liu*, P. D. Lin, P. H. Lin, S. S. Ke, Y. H. Chang, and J. B. Horng, “Design and characterization of miniature auto-focusing VCM actuator for cell phone camera applications,” IEEE Transactions on Magnetics, vol. 45, no. 1, pp. 155-159, 2009.
  91. C. S. Liu*and P. D. Lin, “A miniaturized low-power VCM actuator for auto-focusing applications,” Optics Express, vol. 16, no. 4, pp. 2533-2540, 2008.
  92. C. S. Liu*and P. D. Lin, “Analysis and validations of fluid dynamic bearing for spindle motors of high-density optical disc players,” Japanese Journal of Applied Physics, vol. 47, no. 10, pp. 8101-8105, 2008.
  93. C. S. Liu*and P. D. Lin, “High positioning repeatability of miniature actuator,” Sensors and Materials, vol. 20, no. 7, pp. 319-326, 2008.
  94. C. S. Liu*, Y. C. Chuo, P. H. Lin, M. C. Tsai, Y. H. Chang, and J. B. Horng, “Effects of the fluid dynamic bearing design on rotational precision of a spindle motor,” IEEE Transactions on Magnetics, vol. 43, no.2, pp. 790-792, 2007.
  95. C. S. Liu*, M. C. Tsai, Y. H. Wang, K. W. Lin, Y. C. Chuo, L. Y. Cheng, J. Y. Lee, Y. H. Chang, and J. B. Horng, “A slim spindle motor for blue ray disc player applications,” Journal of Magnetism and Magnetic Materials, vol. 304, pp. 362-364, 2006.
  96. C. C. Wang*, Y. D. Yao, C. S. Liu, and L. Y. Cheng, “Micro magnetic suspension motor design for miniature optical drive,” Japanese Journal of Applied Physics, vol. 45, no. 7, pp. 5801-5803, 2006.
  97. Y. C. Chuo*, C. C. Wang, C. S. Liu, H. C. Yu, Y. H. Chang, and J. B. Horng, “Development of a miniature axial-field spindle motor,” IEEE Transactions on Magnetics, vol. 41, no. 2, pp. 974-976, 2005.
  98. C. C. Wang*, C. S. Jang, C. W. Cheng, C. S. Liu, Y. H. Chang, and D. R. Huang, “Innovative Magnetic Bearing Motor,” Transactions of the Materials Research Society of Japan, vol. 29, no. 4, pp. 1713-1718, 2004.
  99. H. Hocheng*, N. H. Tai, and C. S. Liu, “Assessment of ultrasonic drilling of C/SiC   composite material,” Composites: Part A, vol. 31, pp. 133-142, 2000.
  100. N. H. Tai*, K. P. Lee, H. Hocheng, and C. S. Liu, “Processing and characterization of  carbon fiber reinforced ceramic nanocomposites,” Key Engineering Materials, vol. 164-165, pp. 105-108, 1999.
Symposium Paper
   
  1. B. K. Lee, C. S. Liu*, and M. F. Chen, “Trajectory positioning error compensation and verification for six-axis industrial robot,” Proceedings of the 20th International Conference on Precision Engineering (ICPE2024), P. GS10-01, 2024. (Sendai, Japan, October 24-26, 2024)
  2. Y. H. Kuo, W. N. Cheng, C. C. Cheng*, C. Y. Tsai, T. F. Chiang, C. K. Sung, and C. S. Liu, “High-static-low-dynamic vibration isolator component designed by topology optimization with hyperplastic material,” Proceedings of the International Conference on Civil Engineering: Innovations & Advancements (ICCEIA 2024), P. 108, 2024. (Barcelona, Spain, August 25-27, 2024)
  3. T. F. Chiang, S. M. Guo, W. N. Cheng, C. C. Cheng*, Y. H. Kuo, C. S. Liu, and C. K. Sung, “Grinding parameter designs for wafer grinding with predesignated wafer profiles,” Proceedings of the 10th World Congress on Mechanical, Chemical, and Material Engineering (MCM'24), P. 114, 2024. (Barcelona, Spain, August 22-24, 2024)
  4. Y. T. Chen, Y. J. Yan, C. S. Liu*, and C. C. Cheng, “Synchronous Measurement of Position-Independent Geometric Errors of Dual Rotary Axes on Five-axis Machine Tools,” Proceedings of the International Conference on Precision Engineering and Sustainable Manufacturing (PRESM 2024), P. A007, 2024. (Busan, Korea, July 07-12, 2024)
  5. Y. T. Chen, C. S. Liu*, and C. H. Yan, “Synchronous Measurement and Verification of Geometric Errors of Dual Rotating Axes of Five-axis Machine Tools,” Proceedings of the International Conference on Aerospace, Mechanical, Automotive and Materials Engineering (ICAMAME-24), ISER_12096, 2024. (Bangkok, Thailand, April 04-05, 2024)
  6. 顏于鈞, 劉建聖*,“五軸工具機雙旋轉軸安裝誤差之同步量測與驗證,” 第26 屆全國機構及機器設計學術研討會(CSMMT 2023)論文集, p. 007, 2023. (國立雲林科技大學, 雲林縣, Taiwan, October 27, 2023)
  7. 江坤城, 劉建聖*,“雷射光源補償系統之四自由度FSM設計與驗證,” 第26 屆全國機構及機器設計學術研討會(CSMMT 2023)論文集, p. 006, 2023. (國立雲林科技大學, 雲林縣, Taiwan, October 27, 2023)
  8. 黃鈺雯, 劉建聖*,“基於L形軛鐵之球型致動器設計,” 第26 屆全國機構及機器設計學術研討會(CSMMT 2023)論文集, p. 004, 2023. (國立雲林科技大學, 雲林縣, Taiwan, October 27, 2023)
  9. Y. T. Chen, K. M. Lin, and C. S. Liu*, “Measurement of geometric errors in rotary axes on five-axis machine tools,” Proceedings of the International Conference on Precision Engineering and Sustainable Manufacturing (PRESM 2023), Keynote Speaker, Invited,p. 5, 2023. (Okinawa, Japan, July 16-21, 2023)
  10. C. C. Cheng*, Y. S. Chiu, C. S. Liu, and C. K. Sung, “Ball screw preload loss detection based on vibration holospectra,” Proceedings of the 29th International Congress on Sound and Vibration (ICSV29), p. 57, 2023. (Prague, Czech Republic, July 09-13, 2023)
  11. C. S. Liu*, K. C. Jiang, M. F. Chen, and P. M. Lin “Design and simulation of high-bandwidth 4-DOF fast steering mirror,” Proceedings of the 11th International Conference on Power Electronics-ECCE Asia (ICPE 2023-ECCE Asia), P1-058, 2023. (Jeju, Korea, May 22-25, 2023)
  12. Y. T. Chen, T. C. Liu, and C. S. Liu*, “Machining verification of geometric errors measurement system on large horizontal boring and milling machine tools,”Proceedings of the International Conference & Exhibition for Science 2023 (ICES2023), p. 208, 2023. (Riyadh, Saudi Arabia, February 06-08, 2023)
  13. 施玟妤,劉建聖*,“多層透明板厚度及折射率量測系統結合自動對焦系統之設計,” 中國機械工程學會第三十九屆全國學術研討會論文集, CA01-1234, 2022. (國立聯合大學, 苗栗市, Taiwan, December 02-03, 2022)
  14. 陳昱達, 林耕民,劉建聖*,“五軸工具機旋轉軸安裝誤差與運動誤差同步量測與驗證,” 第25 屆全國機構及機器設計學術研討會(CSMMT 2022)論文集, p. 022, 2022. (國立中山大學, 高雄市, Taiwan, November 11, 2022)
  15. 葉秋濃, 劉建聖*,“新型三自由度球形音圈馬達的設計,” 第25 屆全國機構及機器設計學術研討會(CSMMT 2022)論文集, p. 043, 2022. (國立中山大學, 高雄市, Taiwan, November 11, 2022)
  16. 羅濟宸, 劉建聖*,“具雷射源擾動及安裝誤差補償之線性軸六自由度幾何誤差量測系統,” 第25 屆全國機構及機器設計學術研討會(CSMMT 2022)論文集, p. 005, 2022. (國立中山大學, 高雄市, Taiwan, November 11, 2022)
  17. 林家珍, 陳柏融, 劉建聖*,“基於偽曝光類HDR圖像融合方法的金屬反光表面3D掃描技術,” 2022國際製造工程研討會暨產業論壇, p. ICIFME001, 2022. (中原大學, 桃園市, Taiwan, November05, 2022)
  18. J. H. Yen*, Y. T. Yen, A. Piggott, X. T. Chen, and C. S. Liu*, “International developed, local influenced-Smart aquaculture in Taijing Agriculture Biotechnology,”2022 FFTC Symposium on Intelligent Production of Livestock Industry and Aquaculture (2022 FFTC Symposium), Invited, S3-1, 2022. (Taipei, Taiwan, September 30, 2022)
  19. C. S. Liu*,X. T. Chen, W. Y. Shih, C. C. Lin, J. H. Yen, C. J. Huang, and Y. T. Yen “Smart monitoring technology of water quality using water color and waterwheel tail of fish farm,” Proceedings of the International Multi-Conference on Engineering and Technology Innovation 2022 (IMETI 2022), p. D201, 2022. (Kaohsiung, Taiwan, October 28-November 01, 2022)
  20. C. S. Liu* and C. Y. Jen, "Optical inspection system for simultaneously measuring thicknesses and refractive indexes of multilayered transparent substrates", Proc. SPIE 12137, Optics and Photonics for Advanced Dimensional Metrology II, 121370O, 2022. (Strasbourg, France, May 9-15, 2022)
  21. 劉建聖*, 戴暐哲,“基於幾何光學之線性軸六自由度誤差量測系統開發與驗證,”中國機械工程學會第38屆全國學術研討會論文集, D3-002, 2021. (國立成功大學, 台南市, Taiwan, December 03-04, 2021)
  22. 劉建聖*, 李定禹,“車銑複合機之C軸組裝誤差與運動誤差同步量測與驗證,”中國機械工程學會第38屆全國學術研討會論文集, D3-004, 2021. (國立成功大學, 台南市, Taiwan, December 03-04, 2021)
  23. Y. T. Chen, C. L. Wang, and C. S. Liu*, “Design of a measurement system for measuring geometric errors of a workpiece table at two axes synchronous motion,” Proceedings of the International Multi-Conference on Engineering and Technology Innovation 2021 (IMETI 2021), p. D102, 2021. (Taoyuan, Taiwan, October 29-30, 2021)
  24. C. S. Liu*, Y. H. Lin, and C. N. Yeh, “Development of Three-Degree-of-Freedom Electromagnetic Actuator for Image Stabilization,” Proceedings of the International Multi-Conference on Engineering and Technology Innovation 2021 (IMETI 2021), p. B101, 2021. (Taoyuan, Taiwan, October 29-30, 2021)
  25. 吳侑承, 藍毓傑, 劉建聖*,“具降低雷射幾何擾動功能之四自由度音圈馬達設計,” 第24 屆全國機構與機器設計學術研討會(CSMMT 2021)論文集, p. 014, 2021. (國立陽明交通大學, 新竹市, Taiwan, October 29, 2021)
  26. 劉唐兆, 劉建聖*,“大型臥式搪銑床之面盤幾何誤差量測與驗證”109年精密工程專題與論文獎論文集,p. 12, 2020. (臺北公務人力發展中心福華國際文教會館, 台北市, Taiwan, November 26, 2020)
  27. 曾絜妤, 劉建聖*,“幾何光學長行程線性軸定位誤差量測系統之開發”109年精密工程專題與論文獎論文集,p. 20, 2020. (臺北公務人力發展中心福華國際文教會館, 台北市, Taiwan, November 26, 2020)
  28. 謝長霖, 劉建聖*,“具自動對焦與旋轉補償光學防手震之手機相機模組,”中國機械工程學會第37屆全國學術研討會論文集, p. 0069, 2020. (國立虎尾科技大學, 雲林縣, Taiwan, November 20-21, 2020)
  29. 翁子堯, 劉建聖*,“三層透明基板厚度與折射率量測系統與自動對焦顯微鏡之設計,” 23 屆全國機構與機器設計學術研討會(CSMMT 2020)論文集, p. 015, 2020. (國立成功大學, 台南市, Taiwan, November 13, 2020)
  30. 張育豪, 劉建聖*,“基於Double Porro稜鏡四自由度FSM之雷射穩源系統設計,” 23 屆全國機構與機器設計學術研討會(CSMMT 2020)論文集, p. 014, 2020. (國立成功大學, 台南市, Taiwan, November 13, 2020)
  31. C. M. Jan, C. S. Liu*, and C. Y. Lin, “Design of Heterodyne Interferometer Based on Virtual Electronic Phasemeter,” Proceedings of the International Multi-Conference on Engineering and Technology Innovation 2020 (IMETI 2020), p. D201, 2020. (Taichung, Taiwan, October 23-27, 2020)
  32. G. Hao*, H. Li, Y. H. Chang, and C. S. Liu*, “Framework design of fast steer mirror oriented four-degrees-of-freedom compliant parallel manipulators considering maximum kinematic decoupling,” Proceedings of 4th International Workshop On Fundamental Issues, Applications And Future Research Directions For Parallel Mechanisms/ Manipulators/ Machines (Parallel 2020), p. 6. (Belfast, UK, Seotember 9-11, 2020)
  33. 謝長霖, 劉建聖*,“具五軸光學防手震補償之音圈馬達手機相機模組實驗驗證,”中國機械工程學會第36屆全國學術研討會論文集, p. 123, 2019. (國立臺灣師範大學, 台北市, Taiwan, December 07-08, 2019)
  34. 傅思榕, 翁子堯, 劉建聖*,“多層堆疊玻片組的厚度與折射率之量測系統設計與數學證明,”中國機械工程學會第36屆全國學術研討會論文集, p. 122, 2019. (國立臺灣師範大學, 台北市, Taiwan, December 07-08, 2019)
  35. Y. H. Kuo*, C. C. Cheng, and C. S. Liu, “Hollow structure designs using topology optimization,” Proceedings of 4th Polish Congress of Mechanics and 23rd International Conference on Computer Methods in Mechanics (PCM-CMM 2019), p. 58. (Kraków, Poland, September 8-12, 2019)
  36. C. S. Liu*, P. More, Y. T. Chen, and C. C. Cheng “Development of experimental measurement strategy to analyze the measurement method of location errors of rotary C-axis on five-axis machine tools,” Proceedings of 2019 Engineering Mechanics Institute International Conference (EMI 2019), p. 266. (Lyon, France, July 3-5, 2019)
  37. C. C. Cheng*, Y. S. Chiu, M. S. Tsai, Y. T. Chen, and C. S. Liu “Natural frequency identifications of spindle-toolsystem of machine tools during machining,” Proceedings of 2019 Engineering Mechanics Institute International Conference (EMI 2019), p. 223. (Lyon, France, July 3-5, 2019)
  38. C. S. Liu* and R. C. Song, “Development of laser-based autofocusing microscope with high positioning accuracy for transparent boundaries,” Proceedings of Second International Conference on Optics, Photonics and Lasers (OPAL' 2019), pp. 9-10. (Amsterdam, The Netherlands, April 24-26, 2019)
  39. 謝長霖, 張育豪, 劉建聖*,“具五軸光學防手震補償之音圈馬達手機相機模組設計,”中國機械工程學會第35屆全國學術研討會論文集, p. 104, 2018. (國立中正大學, 嘉義縣, Taiwan, November 30-December 01, 2018)
  40. 任昶豫, 傅思榕, 劉建聖*,“測量多層堆疊玻片組的厚度與折射率之量測系統設計與模擬,”中國機械工程學會第35屆全國學術研討會論文集, p. 114, 2018. (國立中正大學, 嘉義縣, Taiwan, November 30-December 01, 2018)
  41. C. S. Liu*, Y. T. Luo, Y. T. Chen and Y. F. Pu, “Measurement of six-degree-of-freedom geometric error for a machine tool,” Proceedings of2018 IEEE International Conference on Advanced Manufacturing (IEEE ICAM 2018), p. T180004. (Yunlin, Taiwan, November 16-18, 2018)
  42. C. S. Liu*, Y. F. Pu, Y. T. Chen, and Y. T. Luo, “Design of a measurement system for simultaneously measuring six-degree-of-freedom geometric errors of a long linear stage,” Proceedings of the 6th International Symposium on Sensor Science 2018 (I3S2018), p. sciforum-017939. (Kenting, Taiwan, August 06-08, 2018)
  43. C. S. Liu*, and Y. A. Li, “The sensing technology of applying the acoustic emission sensor to the grinding wheel loading phenomenon,” Proceedings of 14th IEEE/ASME International Conference on Mechatronic and Embedded Systems and Applications (MESA2018), p. 98. (Oulu, Finland, July 02-04, 2018)
  44. C. C. Hu, C. L. Hsieh, Y. H. Chang, andC. S. Liu*, “Design of VCM actuator with optical zoom for smartphone cameras,” Proceedings of the IEEE International Magnetics Conference 2018 (INTERMAG 2018), p. CT-12. (Marina Bay Sands Convention Center, Singapore, April 23-27, 2018)
  45. C. S. Liu*, J. C. Huang, and Y. C. Huang, “Calibration of multi-focal planes for zoom-lens unit,” Proceedings of 2017 Eleventh InternationalConference on Sensing Technology (ICST2017), p. S2C-05. (Sydney, Australia, December 02-04, 2017)
  46. 羅詠泰, 陳昱達, 蒲昱帆,劉建聖*, “可線性軸六自由度幾何誤差量測系統,”2017全國製造工程研討會論文集, p. SME02, 2017. (崑山科技大學, 台南市, Taiwan, November 17-18, 2017)
  47. 李祐安,劉建聖*, “應用聲射感測器於砂輪填塞現象之感測技術,”2017全國製造工程研討會論文集, p. SME04, 2017. (崑山科技大學, 台南市, Taiwan, November 17-18, 2017)
  48. 蒲昱帆, 陳昱達, 羅詠泰,劉建聖*, “可同時量測六自由度幾何誤差的長行程線軌量測系統,”2017全國製造工程研討會論文集, p. SME07, 2017. (崑山科技大學, 台南市, Taiwan, November 17-18, 2017)
  49. 陳昱達, Pruthvikumar s more,劉建聖*, “五軸工具機雙旋轉軸組裝誤差線上量測技術分析,”2017全國製造工程研討會論文集, p. SME13, 2017. (崑山科技大學, 台南市, Taiwan, November 17-18, 2017)
  50. C. S. Liu*, Z. Y. Wang, and Y. T. Chen, “Optical sensor for simultaneous refractive index and thickness measurement,” Proceedings of the International Symposium on Optomechatronic Technology 2017 (ISOT2017), p. AQ-05. (Tainan, Taiwan, November 05-09, 2017)
  51. C. L. Hsieh, H. Y. Wang, Y. H. Chang, andC. S. Liu*, “Analysis and validations of optical image stabilization actuator for cellphone camera modules,” Proceedings of the 24rd International Congress on Sound and Vibration (ICSV24), p. T17#68. (London, UK, July 23-27, 2017)
  52. C. L. Hsieh, Y. H. Chang, Y. T. Chen, and C. S. Liu*, “Design of VCM actuator with the L-shape coil for smartphone cameras,” Proceedings of the IEEE International Magnetics Conference 2017 (INTERMAG 2017), p. HT-06. (Dublin, Ireland, April 24-28, 2017)
  53. G. J. Vathakkattil, Y. H. Chang, G. Hao*, V. Pakrashi*, and C. S. Liu*, “Development of a distributed-compliance auto-focusing voice-coil actuator,” Proceedings of the Asian Conference on Engineering and Natural Sciences 2017 (ACENS2017), p. 67442, 2017. (Sapporo Convention Center, Hokkaido, Japan, January 19-21, 2017)
  54. C. S. Liu*, C. M. Jan, and J. Y. Yang, “The development and optimization of an optical autofocusing system by adopting the dual-confocal configuration,” Proceedings of the 6th International Conference on Advanced Manufacturing (ICAM2016), p. F8543, 2016. (Sun Moon Lake, Taiwan, December 16-19, 2016)
  55. 劉建聖*,王澤彥,宋睿耆,“應用於透明邊界層之雷射自動對焦顯微鏡之設計,”中國機械工程學會第三十三屆全國學術研討會論文集, pp. 1225, 2016. (國立臺灣大學, 台北市, Taiwan, December 3-4, 2016)
  56. Y. H. Chang, C. J. Lu, C. S. Liu*, D. S. Liu , S. H. Chen, W. Y. Peng, C. H. Lin, “Design of miniaturized optical image stabilization actuator module for cellphone cameras,” Proceedings of the International Multi-Conference on Engineering and Technology Innovation 2016 (IMETI 2016), p. 181, 2016. (Taichung, Taiwan, October 28-November 01, 2016)
  57. Y. T. Lee, A. S. Yang*, C. S. Liu, Y. H. Chang, and Y. H. Juan, “CFD simulations to determine the loading characteristics of a micro-hydrodynamic bearing at different designs of herringbone grooves,” 2016 JSRAE Annual Conference, p. C133, 2016. (Kobe, Japan, September 6-9, 2016)
  58. P. J. Chiang*, P. H. Huang, J. C. Huang,andC. S. Liu, “The principle of 3D structure light,” Proceedings of the 1st International Conference on Engineering and Science (ICES 2016), p. H107. (Yilan, Taiwan, July 8-10, 2016)
  59. M. S. Tsai*, Y. C. Huang, C. Y. Chen, and C. S. Liu, “Vibration suppression of feed drive system for machine tool using shaping technique,” Proceedings of the 23rd International Congress on Sound and Vibration (ICSV23), p. 361, 2016. (Athens, Greece, July 10-14, 2016)
  60. Y. T. Lee, A. S. Yang*, C. S. Liu, C. H. Cheng, and Y. J. Wang, “Flow study of a micro-hydrodynamic bearing with herringbone grooves,” Proceedings of the First Pacific Rim Thermal Engineering Conference 2016 (PRTEC 2016), p. 14597, 2016. (Hawaii's Big Island, USA, March 13-17, 2016)
  61. 劉建聖*,張昱清,王澤彥,“具變焦功能自動聚焦顯微鏡設計與功能驗證,”中國機械工程學會第三十二屆全國學術研討會論文集, p. 0276, 2015. (國立高雄應用科技大學, 高雄市, Taiwan, December 11-12, 2015)
  62. C. Y. Chen, C. S. Liu*, and Y. C. Li, “Design and optimization of bi-directional-rotation herringbone-grooved journal bearings,” Proceedings of the International Conference on Computing and Precision Engineering 2015 (ICCPE 2015), p. 7, 2015. (Nantou, Taiwan, November 27-30, 2015)
  63. C. S. Liu*and Y. H. Chang, “Development of novel spindle motor with dual air gap,” Proceedings of the International Multi-Conference on Engineering and Technology Innovation 2015 (IMETI 2015), p. 55, 2015. (Kaohsiung, Taiwan, October 30-November 03, 2015)
  64. Y. J. Lan, C. S. Liu, T. C. Yang, C. Y. Chen*, and T. C. Yu, “Inverse simulation approach on determining effective thermal conductivity of porcine liver,” Proceedings of the International Multi-Conference on Engineering and Technology Innovation 2015 (IMETI 2015), p. 225, 2015. (Kaohsiung, Taiwan, October 30-November 03, 2015)
  65. J. L. Liu, C. S. Liu, J. C. Huang, C. C. Kuo, and P. J. Chiang*, “Development of three-dimensional structured light scanner with color projection system,” Proceedings of the 12th International Symposium on Measurement Technology and Intelligent Instruments (ISMTII 2015), p. 1065, 2015. (Taipei, Taiwan, September 22-25, 2015)
  66. J. C. Huang, C. S. Liu*, C. C. Kuo, P. J. Chiang, and J. L. Liu, “Design and development of novel three-dimensional optical scanner,” Proceedings of the 12th International Symposium on Measurement Technology and Intelligent Instruments (ISMTII 2015), p. 1041, 2015. (Taipei, Taiwan, September 22-25, 2015)
  67. C. S. Liu*, H. F. Li, and M. K. Lee, “Innovative AF VCM actuator for smart phone camera module,” Proceedings of the ASME 2015 International Design Engineering Technical Conferences & Computers and Information in Engineering Conference (IDETC/CIE 2015), p. DETC2015-46031. (Boston, USA, August 02-05, 2015)
  68. C. S. Liu*, J. C. Huang, C. C. Kuo, P. J. Chiang, and J. L. Liu, “Study and characterization of three-dimensional structure light scanner system based on zoom-lens optical configuration,” Proceedings of the 38th International MATADOR Conference on Advanced Manufacturing, p. 134, 2015. (Huwei, Taiwan, March 28-31, 2015)
  69. 劉建聖*,李鴻飛, “新型微型音圈馬達自動對焦致動器設計,” 中國機械工程學會第三十一屆全國學術研討會論文集, p. 53, 2014. (逢甲大學, 台中市, Taiwan, December 6-7, 2014)
  70. 楊駿億, 詹家銘, 蔡宗立, 胡博期, 郭全禎, 劉建聖*,“雙共軛焦系統應用於自動對焦之研究,” 2014年模具暨應用產業技術論文發表會論文集, p. 325, 2014. (南港展覽館, 台北市, Taiwan, August 28, 2014)
  71. C. S. Liu*, M. K. Lee, and Y. C. Chuo, “Design of novel hydrodynamic grooved journal bearing with dual-layer herringbone-grooved patterns,” Proceedings of the International Conference on Engineering and Technology Innovation 2014, p. 68, 2014. (Kenting,Taiwan, October 31-November 04, 2014)
  72. J. Y. Yang, C. C. Kuo, C. S. Liu*, C. M. Jan, P. C. Hu, and C. L. Tsai, “Design and characterization of auto-focusing sensing system based on dual-confocal optical configuration,” Proceedings of the 5th International Conference on Advanced Manufacturing (ICAM2014), p. S0016, 2014. (Chiayi, Taiwan, September 30-October 3, 2014)
  73. C. S. Liu*, H. F. Li, and H. T. Yau, “Innovative force gauge,” Proceedings of the ASME 2014 12th Biennial Conference on Engineering Systems Design and Analysis (ESDA2014), p. ESDA2014-20082, 2014. (Copenhagen, Denmark, June 25-27, 2014)
  74. H. C. Yu*, T. C. Chen, andC. S. Liu, “Design and Position Servo Control of a Novel VCM-type Autofocus Actuator with Retaining Force,” Proceedings of the the IEEE International Magnetics Conference 2014, pp. 1841-1842, 2014. (Dresden, Germany, May 4-8, 2014)
  75. 劉建聖*, 李昱澄, 陳建佑, “橢圓多階動壓軸承的最佳化設計,” 中國機械工程學會第三十屆全國學術研討會論文集, p. 49, 2013. (國立宜蘭大學, 宜蘭縣, Taiwan, December 6-7, 2013)
  76. 陳贊臣*, 余興政, 劉建聖, “手機相機之新型自動對焦音圈馬達適應性模糊PID控制,”中華民國第34屆電力工程研討會論文集, p. 245, 2013. (國立勤益科技大學, 台中市, Taiwan, December 6-7, 2013)
  77. 劉建聖*, 李昱澄, 陳建佑, 牟善琦, “以田口法作微型動壓軸承最佳化設計,” 中華民國力學學會年會暨第36屆全國力學會議論文集, p. 103, 2012. (國立中央大學, 桃園縣, Taiwan, November 16-17, 2012)
  78. C. S. Liu*, Y. C. Lin, and P. H. Hu, “Design and characterization of precise laser-based autofocusing microscope with reduced geometrical fluctuations,” Proceedings of the International Conference on Engineering and Technology Innovation 2012, p. 171, 2012. (Kaohsiung, Taiwan, November 02-06, 2012)  
  79. 劉建聖*, 林坤緯, 江昇鴻, 胡平浩, 林央正, “新型雙光路光學式自動聚焦顯微鏡之設計, ” 第二十屆全國自動化科技研討會論文集, p. 17, 2012. (長庚大學, 桃園縣, Taiwan, November 2-3, 2012)
  80. H. K. Lin*, H. Y. Chen, J. Y. Su, C. C. Liang, and C. S. Liu, “Addressing cholesteric liquid crystal display by pulsed laser,” Proceedings of the 43rd International Symposium on Robotics 2012, pp. 881-885, 2012. (Taipei, Taiwan, August 29-31, 2012)
  81. C. S. Liu*, K. W. Lin, and S. H. Jiang, “Development of precise autofocusing microscope based on reduction of geometrical fluctuations,” Proceedings of SICE Annual Conference 2012, pp. 967-972, 2012. (Akita, Japan, August 20-23, 2012)
  82. Y. C. Lin, P. H. Hu, K. Y. Huang, Y. H. Wang, S. S. Ko, and C. S. Liu*, “Design and characterization of laser-based inspection system,” Proceedings of SICE Annual Conference 2012, pp. 1062-1066, 2012. (Akita, Japan, August 20-23, 2012)
  83. 劉建聖, 吳惟*, 林昌進, “共軸光學系統的MTF計算理論,” 中國機械工程學會第二十八屆全國學術研討會論文集, p. 45, 2011. (國立中興大學, 台中市, Taiwan, December 10-11, 2011)
  84. 吳惟*, 劉建聖, 林昌進, 王勺融, “含稜鏡非直線光軸光學系統的歪斜光線追蹤,” 中國機械工程學會第二十八屆全國學術研討會論文集, p. 45, 2011. (國立中興大學, 台中市, Taiwan, December 10-11, 2011)
  85. C. Y. Chen, R. H. Yen*, and C. S. Liu*, “Characteristics of dynamic coefficients on stability for herringbone-grooved journal bearings,” Proceedings of the First International Conference on Engineering and Technology Innovation 2011, p. 179, 2011. (Kenting, Taiwan, November 11-15, 2011)
  86. C. S. Liu*and S. S. Ko, “Miniature auto-focusing VCM actuator with excellent shock resistance,” Proceedings of the First International Conference on Engineering and Technology Innovation 2011, p. 22, 2011. (Kenting, Taiwan, November 11-15, 2011)
  87. C. S. Liu*, P. H. Hu, Y. H. Wang, S. S. Ke, Y. C. Lin, Y. H. Chang, and J. B. Horng, “Novel fast laser-based auto-focusing microscope,” IEEE Sensors 2010 Conference, pp. 481-485, 2010. ( Hawaii, USA, November 1-4, 2010)
  88. Y. H. Wang, P. H. Hu, Y. C. Lin, S. S. Ke, Y. H. Chang, C. S. Liu, and J. B. Horng, “Dual-confocal auto-fFocus sensing system in ultrafast laser application,” IEEE Sensors 2010 Conference, pp. 486-489, 2010. ( Hawaii, USA, November 1-4, 2010)
  89. S. S. Ke, K. W. Lin, Y. C. Lin, J. T. Chen, Y. H. Wang, and C. S. Liu, “High-performance inspecting system for detecting micro-crack defects of solar wafer,” IEEE Sensors 2010 Conference, pp. 494-497, 2010.( Hawaii, USA, November 1-4, 2010)
  90. J. Y. Lee, Y. J. Lin, Y. H. Wang, and C. S. Liu, “Development of an auto-focus system by the moiré method,” 10th International Symposium on Measurement and Quality Control, p. D5-113, 2010. ( Osaka, Japan, September 5-9, 2010)
  91. C. S. Liu, C. H. Chen, C. C. Chung, P. H. Lin, K. H. Lin, Y. N. Sun, “Colored laser photography for high speed imaging,” 15th Microoptics Conference, pp. 216-217, 2009.
  92. C. S. Liu, C. H. Chen, C. C. Chung, P. H. Lin, and Y. N. Sun, “Novel colored pulse laser photography for high speed imaging,” 3rd IEEE-NANOMED Conference, pp. 153-154, 2009.
  93. C. S. Liu, P. D. Lin, P. H. Lin, S. S. Ke, Y. H. Chang, and J. B. Horng, “High positioning repeatability of miniature actuator,” Asia-Pacific Conference of Transducers and Micro-Nano Technology, p. 2S18, 2008.
  94. K. W. Lin, Y. H. Chiang, Y. S. Liu, L. Y. Cheng, C. S. Liu, and Y. H. Chang, “Design of a reflected light measuring apparatus for LBIC measurement of crystalline solar cells,” 17th International Photovoltaic Science and Engineering Conference, pp. 85-86, 2007.
  95. M. C. Tsai, Y. H. Wang, C. S. Liu, S. S. Ke , P. H. Lin, C. C. Chung, Y. H. Chang, and J. B. Horng, “Development of a VCM actuator for cell phone application,” Taiwan-Korea Data Storage Symposium, p. 33-34, 2007.
  96. M. C. Tsai, Y. H. Wang, C. S. Liu, S. S. Ke , P. H. Lin, C. C. Chung, Y. H. Chang, and J. B. Horng, “Design of a power-saving voice coil motor for compact camera modules,” Asia Forum on Magnetics, p. B96-B97, 2007.
  97. C. S. Liu, Y. C. Chuo, P. H. Lin, S. S. Ke, Y. H. Chang, and J. B. Horng, “Effects of the fluid dynamic bearing design on rotational precision of a spindle motor,” Asia-Pacific Data Storage Conference, p. PA2, 2006.
  98. C. S. Liu, M. C. Tsai, Y. H. Wang, Y. C. Chuo, and Y. H. Chang, “Development of a slim precise spindle motor,” 50th Magnetism and Magnetic Materials Conference, p. HR-15, 2005.
  99. C. S. Liu, M. C. Tsai, Y. H. Wang, K. W. Lin, Y. C. Chuo, L. Y. Cheng, J. Y. Lee, Y. H. Chang, and J. B. Horng, ”A slim spindle motor for blue ray disc player applications,” International Symposium on Advanced Magnetic Technologies, pp. 207-208, 2005.
  100. Y. C. Chuo, J. Y. Lee, K. W. Lin, C. S. Liu, Y. H. Chang, and J. B. Horng, “Design of a miniature spindle motor with the hydrodynamic bearing,” International Symposium on Advanced Magnetic Technologies, pp. 209-210, 2005.
  101. C. C. Wang, Y. D. Yao, C. S. Liu, and L. Y. Cheng, “Micro magnetic suspension motor design for miniature optical drive,” International Symposium on Optical Memory, p. MP1, 2005.
  102. Y. C. Chuo, C. C. Wang, C. S. Liu, H. C. Yu, Y. H. Chang, and J. B. Horng, ”Development of a miniature axial-field spindle motor,” Asia-Pacific Data Storage Conference, pp. 86-87, 2004.
  103. C. S. Liu, M. L. Lai, Y. C. Chuo, L. Yu Cheng, K. H. Chang, W. C. Chen, and J. B. Horng, “Property analysis of a slim spindle motor having a hydrodynamic bearing,” Asia-Pacific Data Storage Conference, pp. 88-89, 2004.
  104. C. C. Wang, C. S. Jang, C. W. Cheng, C. S. Liu, Y. H. Chang, and D. R. Huang, “Innovative magnetic bearing motor,” IUMRS-ICAM, 2003.
Cooperation
Ansys Inc. is thanked for providing ANSYS academic partner program.
Technology transfer
        
  1. 劉建聖, 張育豪, 蔡志豪, “激光稳源系统与激光源模块(證號),”中國大陸專利ZL202010744994.3, 2024/07/12~2040/07/28.
  2. C. S. Liu, Y. H. Lin, and C. N. Yeh, “Three-axis voice coil motor,” US Patent 11955865 B2, 2024/04/09.
  3. 劉建聖, 陳歆婷, “場域影像遠端監控系統及魚塭影像遠端監控系統,” 中華民國專利I839893, 2024/04/21.
  4. C. S. Liuand H. D. Tu, “Autofocus system and autofocus method,” US Patent 11940610 B2, 2024/03/24.
  5. 劉建聖, 施玟妤, “光学的測定システム,”日本專利, 證號特許第7384986, 2023/11/13~2042/07/27.
  6. 劉建聖, 施玟妤, “光學量測系統,” 中華民國專利I804401, 2023/06/01~2042/07/27.
  7. 劉建聖, 杜和達, “自動對焦系統及自動對焦方法,” 中華民國專利I786991, 2022/12/11.
  8. 劉建聖, 林易玄,葉秋濃, “三軸音圈馬達,” 中華民國專利 I778791 , 2022/09/21.
  9. C. S. Liuand J. Y.Zeng, “Error measurement device of linear stage and error measurement method of linear stage,” US Patent, 11335580 B2, 2022/05/17.
  10. C. S. Liu, Y. T. Chen, and Y. X. Lin, “Multi-degree-of-freedom error measurement system for rotary axes and method thereof,” US Patent, 11148245 B2, 2021/10/19.
  11. 劉建聖, 曾絜妤, “線性平台之誤差量測裝置與方法,” 中華民國專利 I739403 , 2021/09/11.
  12. 劉建聖, 張育豪,蔡志豪, “雷射穩源系統與雷射光源模組,” 中華民國專利 I732636 , 2021/07/01.
  13. 劉建聖,陳昱達, More pruthvikumar subhashrao, “應用於多軸工具機的幾何誤差量測方法,” 中華民國專利I694238, 2020/05/21.
  14. 劉建聖,陳昱達, 林煜翔, “旋轉軸多自由度誤差量測系統及其方法,” 中華民國專利I677671, 2019/11/21.
  15. C. S. Liu, Y. T. Chen, Y. T. Luo, and Y. F. Pu, “Method and apparatus for measuring errors of movable platform in multiple degrees of freedom,” US Patent, 10502559 B2, 2019/12/10.
  16. 江佩如, 黃柏豪, 劉建聖, “結合格雷編碼之彩色結構光三維量測方法及其系統,” 中華民國專利I659392, 2019/05/11.
  17. 劉建聖, 謝長霖, 張育豪,王曉瑜,“相機模塊,”中國大陸專利ZL201510575769.0, 2019/03/19.
  18. 劉建聖, 張育豪, 彭文陽, 林正軒, “音圈馬達,” 中國大陸專利CN106899192B, 2018/12/18.
  19. W. Y. Peng, and C. H. Lin, C. S. Liu, Y. H. Chang, “Voice coil motor,”US Patent, 9939608 B2, 2018/04/10.
  20. 劉建聖, 陳昱達,蒲昱帆,羅詠泰,“量測移動平台之多自由度誤差之方法及裝置,”中華民國專利 I614513, 2018/02/11.
  21. 劉建聖, 謝長霖, 張育豪,王曉瑜,“相機模組,”中華民國專利I600939, 2017/10/01.
  22. 劉建聖, 王曉瑜, 張育豪, 謝長霖, “致動器及相機模組,” 中華民國專利I581050, 2017/05/01.
  23. 劉建聖,黃彥勝,陳昱達, “傾斜角度與距離量測方法,” 中華民國專利I580930, 2017/05/01.
  24. 劉建聖, “自動對焦系統及其對焦方法,” 中華民國專利I574072,2017/03/11.
  25. C. S. Liu, “Springless voice coil actuator and pre-compression magnetic force calibration method thereof,”US Patent, US9581785 B2, 2017/02/28.
  26. 劉建聖,蔡宗立,胡博期,詹家銘, “可根據光束靈敏度聚焦的自動聚焦系統與方法,” 中華民國專利I571341, 2017/02/21.
  27. 劉建聖, 張育豪, 彭文陽, 林正軒, “音圈馬達,” 中華民國專利I559654, 2016/11/21.
  28. 劉建聖,姚宏宗, 郭全禎, 楊駿億, 黃駿成, 林彥昆, “三維影像掃描裝置及其掃描方法,” 中華民國專利I550253, 2016/09/21.
  29. 劉建聖, 王曉瑜, 張育豪, 謝長霖, “致動器及相機模塊,” 中國大陸專利ZL 201521018106.0, 2016/07/27.
  30. 劉建聖, 王曉瑜, 張育豪, 謝長霖, “致動器及相機模組,” 中華民國專利M517951, 2016/02/21.
  31. 劉建聖, 謝長霖, 張育豪,王曉瑜,“相機模組,”中華民國專利M515654, 2016/01/11.
  32. 劉建聖, 謝長霖, 張育豪,王曉瑜,“相機模塊,”中國大陸專利ZL201520701484.2, 2015/12/23.
  33. 劉建聖, “無彈片音圈馬達致動器及其磁預壓力的校正方法,”中華民國專利I493839, 2015/07/21.
  34. C. S. Liuand P. H. Hu, “Automatic focusing apparatus and method,” US Patent US8970826 (B2), 2015/03/03.
  35. 王雍行, 劉建聖, 黃光瑤, 林央正, “離焦判定裝置及其判定方法,” 中華民國專利I451152, 2014/09/01.
  36. 劉建聖, 林柏衡, 柯順升, “音圈馬達,”中華民國專利I437795, 2014/05/11.
  37. 劉建聖, 胡平浩, “自動聚焦裝置及方法,” 中國大陸專利CN102478700B, 2014/07/16.
  38. 劉建聖, 林央正, “自動聚焦模組與其方法,” 中華民國專利I428654, 2014.
  39. 劉建聖, 林央正, “自動聚焦裝置與其方法,” 中國大陸專利ZL201010609036.1, 2013.
  40. 劉建聖, 胡平浩, “自動聚焦裝置及方法,” 中華民國專利I406025, 2013.
  41. 林柏衡, 劉建聖, 陳佳旭, 江易軒, “照明系統,” 中華民國專利I404894, 2013.
  42. P. H. Lin, C. S. Liu, C. H. Chen, and Y. H. Chiang, “Illumination system,” US Patent US20110149574A1, 2011.
  43. 劉建聖, 林柏衡, 柯順升, 張裕修, 洪基彬, “音圈馬達,” 中華民國專利I343164, 2011.
  44. 劉建聖, 林柏衡, 柯順升, 張裕修, 洪基彬, “音圈馬達,” 中國大陸專利ZL200810001699.8, 2011.
  45. 劉建聖, 林柏衡, 卓英吉, 張裕修, “雙氣隙電磁結構,” 中國大陸專利ZL200610156118.9, 2011.
  46. 劉建聖, 林柏衡, 王雍行, 柯順升, 蔡孟哲, 張裕修, “音圈馬達及預壓力產生裝置,” 中華民國專利I347062, 2011.
  47. 劉建聖, 蔡孟哲, 張裕修, 洪基彬, “多階動壓溝槽及動壓軸承組件,” 中國大陸專利ZL200810094704.4, 2011.
  48. 劉建聖, 林柏衡, 王雍行, 柯順升, 蔡孟哲, 張裕修, “音圈馬達及預壓力產生裝置,” 中國大陸專利ZL200710127072.2, 2010.
  49. 王雍行, 李金育, 蔡孟哲, 劉建聖, 柯順升, 卓英吉, “光學裝置, ”日本專利4594352, 2010.
  50. 劉建聖, 蔡孟哲, 張裕修, 洪基彬, “多階動壓溝槽及具有該多階動壓溝槽之動壓軸承,” 中華民國專利I329713, 2010.
  51. C. S. Liu, P. H. Lin, S. S. Ke, Y. H. Chang, and J. B. Horng, “Voice coil motors,” US Patent 7633190, 2010.
  52. C. S. Liu, P. H. Lin, Y. H. Wang, S. S. Ke, Y. H. Chang, and M. C. Tsai, “Voice coil motors and pre-compression generation devices thereof,” US Patent 7679225, 2010.
  53. 劉建聖, 林柏衡, 卓英吉, 張裕修, “雙氣隙電磁結構,” 中華民國專利I325212, 2010.
  54. Y. H. Wang, J. Y. Lee,M. C. Tsai, C. S. Liu, S. S. Ke, and Y. C. Chuo, “Optical devices,” US Patent 7652835, 2010.
  55. C. S. Liu, J. Y. Lee, Y. H. Wang, M. C. Tsai, and Y. C. Chuo, “Actuator,” US Patent 7638906, 2009.
  56. 劉建聖, 李金育, 王雍行, 蔡孟哲, 卓英吉, “致動器,” 中華民國專利I317202, 2009.
  57. 王雍行, 李金育, 蔡孟哲, 劉建聖, 柯順升, 卓英吉, “光學裝置,” 中國大陸專利ZL200610105627.9, 2009.
  58. 王雍行, 李金育, 蔡孟哲, 劉建聖, 柯順升, 卓英吉, “光學裝置,” 中華民國專利I307781, 2009.
  59. 李金育, 王雍行, 劉建聖, 蔡孟哲, 林昆蔚, 卓英吉, “光學裝置, ”日本專利4236674, 2009.
  60. 李金育, 王雍行, 劉建聖, 蔡孟哲, 林昆蔚, 卓英吉, “光學裝置, ”中國大陸專利ZL200510115368.3, 2009.
  61. J. Y. Lee, Y. H. Wang, C. S. Liu, M. C. Tsai, K. W. Lin, and Y. C. Chuo, “Optical devices, ”US Patent 7365922, 2008.
  62. 李金育, 王雍行, 劉建聖, 蔡孟哲, 林昆蔚, 卓英吉, “光學裝置, ”中華民國專利I295385, 2008.
  63. 劉建聖, 卓英吉, 張裕修, 洪基彬, “動壓軸承及具有該動壓軸承之主軸馬達,” 中華民國專利I288997, 2007.
  64. 劉建聖, 卓英吉, 李金育, 鄭龍宇, 林昆蔚, 張裕修, 洪基彬, “光編碼裝置,” 中華民國專利I278848, 2007.
  65. 劉建聖, 卓英吉, 陳威成, 鄭龍宇, 林昆蔚, 李金育, 洪基彬, “馬達防拔裝置,” 中華民國專利I290412, 2007.
  66. C. C. Wang, P. C. Tung, R. B. Xiao, W. C. Chen, C. S. Liu, Y. H. Chang, and D. R. Huang, “Magnetic suspension bearing with damping system,” US Patent 7038341, 2006.
  67. 陳威成, 林昆蔚, 李金育, 卓英吉, 劉建聖, 鄭龍宇, 洪基彬, “薄型絕對位置磁性編碼器,” 中華民國專利I241063, 2005.
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  17. 指導學生江坤城(題目: 具四自由度之FSM 主動式雷射光源補償系統) 參選「2022年第十四屆國研盃i-ONE 儀器科技創新獎」,榮獲專上組三獎(111.10.01)。
  18. 國立成功大學機械工程學系110學年度研究優良教師(111.10.04)。
  19. 指導學生蔡志豪(論文: 具四自由度之FSM主動式雷射光源補償系統的光學鏡組設計與功能驗證) 參選「110年度中國機械工程學會碩士論文獎」,榮獲佳作獎(110.12.03)。
  20. 指導學生李定禹(論文: 車銑複合機之C軸組裝誤差與運動誤差同步量測與驗證) 參選「110年度中華民國機構與機器原理學會優秀碩士論文獎」,榮獲優等碩士論文獎(110.10.29)。
  21. 指導學生黃駿成(論文: 具變焦單元之三維掃描系統的設計及校正) 參選「110年度中華民國機構與機器原理學會優秀博士論文獎」,榮獲優等博士論文獎(110.10.29)。
  22. 指導學生杜和達與施玟妤(論文: 提升微型光學式自動對焦系統之對焦精度及速度的新創影像處理演算法) 參選「萬潤2021創新創意競賽(碩博士論文組)」,榮獲佳作獎(110.10.07)。
  23. 指導學生戴暐哲與羅濟宸(論文: 突破幾何光學限制之線性軸長行程六自由度誤差量測系統) 參選「萬潤2021創新創意競賽(碩博士論文組)」,榮獲佳作獎(110.10.07)。
  24. 國立成功大學機械工程學系109學年度研究優良教師(110.09.28)。
  25. 指導學生劉唐兆(論文: 大型臥式搪銑床之面盤幾何誤差量測與驗證)參選「第17屆上銀機械碩士論文獎」,榮獲銀質獎(110.01.11)。
  26. 國立成功大學機械工程學系108學年度研究優良教師(110.01.05)。
  27. 指導學生謝長霖(論文: 應用於手機相機模組之音圈馬達五軸光學防手震與光學變焦致動器設計) 參選「109年度中國機械工程學會博士論文獎」,榮獲第二名(109.11.20)。
  28. 指導學生謝長霖(論文: 應用於手機相機模組之音圈馬達五軸光學防手震與光學變焦致動器設計) 參選「109年度中華民國機構與機器原理學會優秀博士論文獎」,榮獲優等博士論文獎(109.11.13)。
  29. 國立成功大學機械工程學系107學年度研究優良教師(109.01.07)。
  30. 指導學生陳昱達、劉唐兆、曾絜妤、朱柏蔚、李伯皇參選2019第八屆中興大學『精密工具機與智慧化技術』專題實作競賽暨程泰集團「精密工具機與智慧化技術」專題實作獎,榮獲研究生組第三名(108.10.05)。
  31. 指導學生陳昱達參選「鴻海科技獎」,榮獲「特色研究獎」(108.01.08)。
  32. 指導學生陳奕維(論文: 具磁預壓力音圏馬達之開迴路高頻滯滑運動控制) 參選「107年度中國機械工程學會碩士論文獎」,榮獲佳作獎(107.11.30)。
  33. 發表於2018 IEEE International Conference on Advanced Manufacturing (IEEE ICAM 2018)之「Measurement of Six-Degree-of-Freedom Geometric Error for a Machine Tool」一文,榮獲Best Conference Paper Award (107.11.18)。
  34. 指導學生陳昱達、More Pruthvikumar S.、張育豪、謝長霖參選2018第七屆中興大學『精密工具機與智慧化技術』專題實作競賽暨程泰集團「精密工具機與智慧化技術」專題實作獎,榮獲研究生組第二名(107.10.20)。
  35. 指導學生王澤彥(論文: 量測透明基板厚度及折射率的光學系統之設計) 參選「106年度中國機械工程學會碩士論文獎」,榮獲第三名(106.12.01)。
  36. 發表於中華民國力學期刊之「New Electromagnetic Design of Miniature AF VCM Actuator with Low Cost(Vol. 32, No. 4, pp. 421 - 426)」一文,榮獲中華民國力學學會一○六年度力學期刊論文獎第二名(106.11.24)。
  37. 指導學生蒲昱帆、陳昱達、羅詠泰(論文: 可同時量測六自由度幾何誤差的長行程線軌量測系統) 參選「2017全國製造工程研討會論文獎」,榮獲優等獎(106.11.18)。
  38. 指導學生李鴻明、何致慨、吳玉嬋、劉崇慶、林俊佑、吳中銓、呂冠儒參選第10屆『上銀智慧機器手實作競賽』,榮獲「應用組」季軍獎(106.09.08)。
  39. 科技部優秀年經學者研究計畫獎(106/08/01 ~109/07/31)。
  40. 指導學生王曉瑜(論文: 具削邊磁鐵特徵之音圏馬達手機相機模組設計) 參選「105年度中國機械工程學會碩士論文獎」,榮獲佳作獎(105.12.03)。
  41. 科技部吳大猷先生紀念獎研究計畫補助(105/08/01 ~110/07/31)。
  42. 指導學生黃彥勝(論文:平坦表面傾斜角度與位置量測系統之設計)參選「第12屆上銀機械碩士論文獎」,榮獲佳作獎(104.12.28)。
  43. 科技部104年「吳大猷先生紀念獎」(104.10.07)。
  44. 國立中正大學103學年度第1學期教學感謝狀(104.06.10)。
  45. 指導學生參選「第2屆上銀傑出創作獎」,進入決審(104.1.10)。
  46. 指導學生參選「第11屆上銀機械碩士論文獎」,進入決審(103.12.27)。
  47. 國立中正大學102學年度第2學期教學感謝狀(103.12.11)。
  48. 「光機電產業設備系統設計」教科書榮獲教育部產業先進設備人才培育計畫103年度半導體及光電優良教科書評選佳作(103.11.28)。
  49. 103年臺灣綜合大學系統「年輕學者創新研究選拔」優等獎(103.11.24)。
  50. 恩得利工業股份有限公司,技術顧問(103.09~104.02)。
  51. 國立中正大學102學年度青年學者獎(103.04.08)。
  52. 國立中正大學工學院102學年度青年學者獎(103.01.21)。
  53. 指導學生參選「第10屆上銀機械碩士論文獎」,進入決審(102.12.27)。
  54. 國立中央大學100學年度優良服務學習導師(101.09.28)。
  55. Certified SolidWorks Associate, Dassault Systèmes SolidWorks Corporation: Certificate ID:C-JZM4ZMUGVV (100.08)
  56. 工研院南分院99年度發明獎(100.01.27)。
  57. 發明專利『光學裝置』榮獲98年國家發明獎銀牌(98.11.03)。
  58. APDSC’04 Outstanding Poster Award (93.09.29)。
  59. 指導學生參加42屆高中分區科學展覽,作品『車床多功能手工具設計』,榮獲機械科優等(91.05.01)。