Publications

Book/Chapter/Article:

1. Makoto Kaneko and C. D. Tsai: Fast and Fine Manipulation of RBCs in Artificial Capillary and Their Mysterious Behaviors, Asfour, T., Yoshida, E., Park, J., Christensen, H., Khatib, O. (eds) Robotics Research. ISRR 2019. Springer Proceedings in Advanced Robotics (SPAR) Book Series, vol 20. Springer, Cham.  link
2. 洪藝凌、蔡佳宏: 【機器人專欄】瞭若指掌：利用機器學習即時辨識抓握物件, 機械新刊 Insight Machinery Magazine, 53期, 文21-文27頁, 2021-04 (ISSN 2519-6081)  link
3. 蔡佳宏: 晶片上微流體與電漿輔助微流道製程, 熱流航太學門通訊月刊, 39期, 3-9頁, 2021-03  link
4. C. D. Tsai: Single Cell Manipulation Using Macro-scale Actuator, Springer, Singapore, Santra T.S., Tseng FG. (eds) Handbook of Single Cell Technologies, pp1-19, 2020-11 (ISBN 978-981-10-4857-9)  link
5. 蔡佳宏: 微流體晶片的應用 – 細胞機械特性的量測, 科技部科學發展月刊, 566期, 59-67頁, 2020-02. link
6. C. D. Tsai, M. Kaneko: 浮遊細胞の力学的指標の高速計測 (High-Speed Evaluation of Cell Mechanics), Corona Publishing Co., LTD, 細胞の特性計測・操作と応用 (Evaluation, Manipulation and Applications of Cells), Chap.1.2, pp16-30, 2016 (ISBN：978-4-339-07261-7) (in Japanese, 日本語) link
7. C. D. Tsai, S. Sakuma, F. Arai and M. Kaneko: Dimensionless Evaluation of Cell Deformability with High Resolution Positioning in a Microchannel, Springer, Hyper Bio Assembler for 3D Cellular Systems, Chap.2, pp23-42, 2015 (ISBN 978-4-431-55297-0)  link

Patent:

1. 蔡佳宏、鄒宥呈: 利用非線性模型預測電路板變形誤差之偏移位置補償系統及其補償方法, 中華民國發明專利I773431. 公告日2022/08/01.

Journal Publications:    *corresponding author

1. Cheng-Yun Peng and C. D. Tsai*: Universal plasma jet for droplet manipulation on a PDMS surface towards wall-less scaffolds, Polymers, 13(8), 1321, 2021-04. (SCI, Rank: 16/89=17.98%, Polymer Science. IF: 3.426) link
2. C. D. Tsai* and Chia-Hao Yeh: Neural Network for Enhancing Microscopic Resolution based on Images from Scanning Electron Microscope, Sensors, 21(6), 2139, 2021-03, (SCI, Rank: 15/64=23.4%, Instruments & Instrumentation. IF: 3.275) link
3. Shun-Hsin Yu, Jen-Shuo Chang and C. D. Tsai*: Grasp to See: Object Classification using Flexion Glove with Support Vector Machine, Sensors, 21(4), 1461, 2021-02, (SCI, Rank: 15/64=23.4%, Instruments & Instrumentation. IF: 3.275) link
4. T Takayama*, M. Kaneko and C. D. Tsai : On-chip micro mixer driven by elastic wall with virtual actuator, Micromachines, 12(2), 217, 2021-02. (SCI, Rank: 24/64=37.5%, Instruments & Instrumentation. IF: 2.524) link
5. T Takayama*, N. Hosokawa, C. D. Tsai and M. Kaneko:  Push/Pull Inequality Based High-Speed On-Chip Mixer Enhanced by Wettability, Micromachines, 11(10), 950, 2020-10. (SCI, Rank: 24/64=37.5%, Instruments & Instrumentation. IF: 2.524) link
6. C. Y. Peng, J. S. Wu and C. D. Tsai*: Wettability Distribution on the Surface Treated by Atmospheric-Pressure Plasma Jet at Different Gas Flow Rates for Microfluidic Applications, IEEE Transactions on Plasma Science, 49(1), 168-176, 2020-08. (SCI, Rank: 24/34=70.6%, Physics, Fluids & Plasma. IF: 1.309) link
   
7. C. D. Tsai* and X. Y. Lin: Experimental Study on Microfluidic Mixing with Different Zigzag Angles, Micromachines, 10(9), 583, 2019-08. (SCI, Rank: 24/64=37.5%, Instruments & Instrumentation. IF: 2.524) link
8. M. Horade*, C. D. Tsai and M. Kaneko: On-Chip Cell Incubator for Simultaneous Observation of Culture with and without Periodic Hydrostatic Pressure, Micromachines, 10(2), 133, 2019-02. (SCI, Rank: 24/64=37.5%, Instruments & Instrumentation. IF: 2.524) link
9. T. Takayama*, H. Miyashiro, C. D. Tsai, H. Ito, and M. Kaneko: On-Chip Density Mixer Enhanced by Air Chamber, Biomicrofluidics, 12, 044108, 2018-07 (SCI, Rank: 11/34=32.4%, Physics, Fluids & Plasmas. IF: 2.504) link
10. C. D. Tsai*, T. Takayama, Y. Shimozyo, T. Akai, and M. Kaneko: Virtual Vortex Gear: Unique Flow Patterns Driven by Microfluidic Inertia Leading to Pinpoint Injection, Biomicrofluidics, 12, 0314114, 2018-06 (SCI, Rank: 11/34=32.4%, Physics, Fluids & Plasmas. IF: 2.504) link
11. J. Lim, A. Choi, H. W. Kim , H. Yoon, S. M. Park, C. D. Tsai, M. Kaneko, and D. S. Kim*: Constrained Adherable Area of Nanotopographic Surfaces Promotes Cell Migration through the Regulation of Focal Adhesion via Focal Adhesion Kinase/Rac1 Activation, ACS Applied Materials & Interfaces, 10, 14331-14341, 201804. (SCI, Rank: 22/275=8.0%, Materials Science, Multidisciplinary. IF: 7.504) link
12. N. Higashino, T. Takayama*, H. Ito, M. Horade, Y. Yamaguchi, C. D. Tsai and M. Kaneko: LED-CT Scan for pH Distribution on a Cross-Section of Cell Culture Medium, Sensors, 18, 191, 2018-01. (SCI, Rank: 15/64=23.4%, Instruments & Instrumentation. IF: 3.275) link
13. M. Horade, C. D. Tsai*, H. Ito and M. Kaneko: Red Blood Cell Responses during a Long-Standing Load in a Microfluidic Constriction, Micromachines, 8, 100, 2017-03. (SCI, Rank: 24/64=37.5%, Instruments & Instrumentation. IF: 2.524) link
14. K. Mizoue, K. Teramura, C. D. Tsai*, and M. Kaneko: Transfer Function of Macro-Micro Manipulation on a PDMS Microfluidic Chip, Micromachines, 8, 80, 2017-03. (SCI, Rank: 24/64=37.5%, Instruments & Instrumentation. IF: 2.524) link
15. H. Ito, R. Murakami, S. Sakuma, C. D. Tsai, T. Gutsmann, K. Brandenburg, J. Poschl, F. Arai, M. Kaneko*, and M Tanaka*: Mechanical diagnosis of human erythrocytes by ultra-high speed manipulation unraveled critical time window for global cytoskeletal remodeling, Scientific Reports, 7, 43134, 2017-02. (SCI, Rank: 10/64=15.6%, Multidisciplinary Sciences. IF: 4.259) link, 日本経済新聞
16. C. D. Tsai*, J. Tanaka, M. Kaneko, M. Horade, H. Ito, T. Taniguchi, T. Ohtani and Y. Sakata: An On-Chip RBC Deformability Checker Significantly Improves Velocity-Deformation Correlation, Micromachines, 7, 176, 2016-10. (SCI, Rank: 24/64=37.5%, Instruments & Instrumentation. IF: 2.524) link, 読売新聞, 時事通信,
17. K. Mizoue, M. H. Phan, C. D. Tsai*, M. Kaneko, J. Kang and W. K. Chung: Gravity-Based Precise Cell Manipulation System Enhanced by In-Phase Mechanism, Micromachines, 7, 116, 2016-07 (SCI, Rank: 24/64=37.5%, Instruments & Instrumentation. IF: 2.524) link
18. C. D. Tsai* and M. Kaneko: On-chip pressure sensor using single-layer concentric chambers, Biomicrofluidics, 10, 024116, 2016 (SCI, Rank: 11/34=32.4%, Physics, Fluids & Plasmas. IF: 2.504)  Highlighted on Biomicrofluidics Facebook link
19. R. Murakami, C. D. Tsai*, M. Kaneko, S. Sakuma and F. Arai: Cell Pinball: Phenomenon and Mechanism of Inertia-Like Cell Motion in a Microfluidic Channel, Lab on a Chip, 15, pp3307-3313, 2015 (SCI, Rank: 6/77=7.8%, Biochemical Research Methods. IF: 6.045)  Highlighted on Lab on a Chip blog video link
20. T. Monzawa, M. Kaneko, C. D. Tsai*, S. Sakuma and F. Arai: On-Chip Actuation Transmitter for Enhancing the Dynamic Response of Cell Manipulation using a Macro-scale Pump, Biomicrofluidics, 9, no.1, 014114, 2015 (SCI, Rank: 11/34=32.4%, Physics, Fluids & Plasmas. IF: 2.504)  link
21. C. D. Tsai*, S. Sakuma, F. Arai, T. Taniguchi, T. Ohtani, Y. Sakata and M. Kaneko: Geometrical Alignment for Improving Cell Evaluation in a Microchannel with Application on Multiple Myeloma Red Blood Cells, RSC Advances, 4, no.85, pp45050-45058, 2014 (SCI, Rank: 59/166=35.5%, Chemistry, Multidisciplinary. IF: 3.108)  link
22. C. D. Tsai*, S. Sakuma, F. Arai and M. Kaneko: A New Dimensionless Index for Evaluating Cell Stiffness-based Deformability in Microchannel, IEEE Transactions on Biomedical Engineering, 61, no.4, pp1187-1195, 2014 (SCI, Rank: 11/77=14.3%, Engineering, Biomedical. IF: 3.577)  link
23. S. Sakuma*, K. Kuroda, C. D. Tsai, W. Fukui, F. Arai and M. Kaneko: Red Blood Cell Fatigue Evaluation based on the Close-encountering Point between Extensibility and Recoverability, Lab on a Chip, 14, no.6, pp1135-1141, 2014 (SCI, Rank: 6/77=7.8%, Biochemical Research Methods. IF: 6.045)  link
24. C. D. Tsai, I. Kao*, M. Higashimori, and M. Kaneko: Modeling, Sensing, and Interpretation of Viscoelastic Contact Interface, Advanced Robotics, 26, no. 11-12, pp1393-1418, 2012. (SCI, Rank: 20/26=76.9%, Robotics. IF: 0.920)  link
25. I. G. Ramirez-Alpizar, M. Higashimori*, M. Kaneko, C. D. Tsai, and I. Kao: Dynamic Nonprehensile Manipulation for Rotating a Thin Deformable Object: an Analogy to Bipedal Gaits, IEEE Transactions on Robotics, 28, no.3, pp607-618, 2012 . (SCI, Rank: 4/26=15.4%, Robotics. IF: 4.036)  link
26. I. Kao*, X. Li and C. D. Tsai: Model-Based and Wavelet-Based Fault Detection and Diagnosis for Biomedical and Manufacturing Applications: Leading Towards Better Quality of Life, Smart Structures and Systems, 5, no. 2, pp153-171, 2009. (SCI, Rank: 67/125=53.6%, Engineering, Mechanical. IF: 1.382)  link

Proceedings of International Conferences:    *corresponding author

1. Z. K. Yu, J. J. Hu and C. D. Tsai*: Formation of Crosslinked Microparticles from Coaxial Capillary with Different Gas Flowrates, International Conference on Flow Dynamics (ICFD2023), (Sendai, Japan, 2023.11.06-08). conf.
2. C. C. Ni and C. D. Tsai*: High-Permittivity Substrates for Enhancing APPJ-Assisted Bonding on Microfluidic Chip, International Conference on Flow Dynamics (ICFD2023), (Sendai, Japan, 2023.11.06-08). conf.
3. P. N. Chen, J. J. Hu and C. D. Tsai*: Voiceprint for Identifying Dripping-Jetting Transition in a Coaxial Microfluidic Device, The 27th International Conference on Miniaturized Systems for Chemistry and Life Sciences (MicroTAS23), (Katowice, Poland, 2023.10.15-19), oral presentation (<13%).  conf.
4. C. D. Tsai*, M. Hu and S. Cheng: Enhancing the Recognition of Speakers in Different Distances using Voice Features, the 52nd International Congress and Exposition on Noise Control Engineering held in Chiba, Greater Tokyo, Japan, on 20–23 August 2023 (Inter-Noise 2023), (Chiba, Japan, 2023.08.20-23). conf.
5. P. N. Chen, J. J. Hu and C. D. Tsai*: Dripping Out Loud: Sound Analysis for Estimating Droplet Rate on a Coaxial Microfluidic Device, International Conference on Smart Sensors (ICSS2023), (Tainan, Taiwan, 2023.06.19-20). conf.
6. Y. H. Yen, C. W. Hsu, J. S. Wu and C. D. Tsai*: Investigation of underwater plasma jet on its electrical properties and microbubble interaction, The 7th International Symposium on Plasma & Fine Bubbles to Agriculture and Aquaculture (ISPFB2023), (Morioka, Japan, 2023.5.17-19). conf.
7. C. D. Tsai*, H. Z. Lu and J. J. Hu: Microparticle Formation with Different Impact Speeds, International Conference on Flow Dynamics (ICFD2022), (Sendai, Japan, 2022.11.09-11). conf.
8. Y. H. Liu and C. D. Tsai*: Experimental Study on the Strength and Reversibility of Plasma Bonding with a Micronozzle, International Conference on Flow Dynamics (ICFD2022), (Sendai, Japan, 2022.11.09-11). conf.
9. Y. L. Chen, T. L. Chen and C. D. Tsai*: Detecting Embedded Lumps using Robotic Palpation with a 3D Printed Soft Finger and Flex Sensor, International Conference on Smart Sensors (ICSS2022), (Taichung, Taiwan, 2022.10.22-23). conf.
10. Y. H. Liu and C. D. Tsai*: Microforging for Improving the Emitting Direction of a Plasma Jet, The 12th Asia-Pacific International Symposium on the Basics and Applications of Plasma Science and Technology (APSPT-12), (Taipei, Taiwan, 2021.12.9-11). conf.
11. C. Y. Lu and C. D. Tsai*: Feature-based stitching for image restoration of large workpieces towards assembly automation, The 18th International Conference on Automation Technology (Automation 2021), (Kimmen, Taiwan, 2021.11.12-14).  conf.
12. H. Z. Lu, J. J. Hu and C. D. Tsai*: Experimental study on microcapsule conformation with different concentrations of sodium alginate, The 18th International Conference on Automation Technology (Automation 2021), (Kimmen, Taiwan, 2021.11.12-14).  conf.
13. C. X. Wu and C. D. Tsai*: Robotic Grasping for Determining the Orientation of Cherry Tomato towards Smart Agriculture, The 17th International Conference on Automation Technology (Automation 2020), (Hualien, Taiwan, 2020.11.12-14).  conf.
14. C. Y. Peng and C. D. Tsai*: Droplet Manipulation using Plasma Treatment and Airflow, International Conference on Flow Dynamics (ICFD2020), (Sendai, Japan, 2020.10.28-30).  conf.
15. C. D. Tsai* and C. Y. Peng: Atmospheric-Pressure Plasma Jet Applied to Draw Versatile Microfluidic Channels for Biomedical Applications, International Conference on Flow Dynamics (ICFD2020), (Sendai, Japan, 2020.10.28-30).  conf.
16. Y. L. Hung and C. D. Tsai*: Strategy of C. elegans movement in microchannels with different shapes, The 42nd Symposium on Chemistry and Micro/Nanosystems (Cheminas42), (Fukuoka, Japan, 2020.10.26-28).  conf.
17. C. D. Tsai* and W. T. Lai: RBC-Deformability Sensing using Deterministic Lateral Displacement and Pressure Control in a Microfluidic Channel, International Conference on Smart Sensors (ICSS), (Kaohsiung, Taiwan, 2020.10.19-20).  conf.
18. Y. L. Hung and C. D. Tsai*: C. elegans Motion in Microfluidic Channel for Bio-inspired Endoscopic Insertion, International Conference on Smart Sensors (ICSS), (Kaohsiung, Taiwan, 2020.10.19-20).  conf.
19. C. Y. Peng, S. C. Chuang, C. D. Tsai*: Wettability Distribution on the Surface Treated by Atmospheric-Pressure Plasma Jet at Different Gas Flow Rates, The 11th Asia-Pacific International Symposium on the Basics and Applications of Plasma Science and Technology (APSPT-11), (Kanazawa, Japan, 2019.12.11-14), Oral Presentation. The full version is published in IEEE Tran. on Plasma Science
20. X. Y. Lin, H. Ito, M. Kaneko and C. D. Tsai*: Experimental Study on Microfluidic Mixing with Trapezoidal Obstacles in a 1000-Fold Span of Reynolds Number, IEEE/RSJ International Conference on Intelligent Robots and Systems (IROS2019), (Macau, China, 2019.11), pp2441-2446.  conf.
21. S. C. Chuang and C. D. Tsai*: Rapid PDMS-Glass Bonding using Argon Plasma Jet towards Automatic Chip Fabrication, The 23rd International Conference on Miniaturized Systems for Chemistry and Life Sciences (MicroTAS19), (Basel, Switzerland, 2019.10), pp1080-1081.  conf.
22. C. D. Tsai*: Atmospheric Pressure Plasma Jet for Wall-less Microfluidic Channel, The 6th Japan-Taiwan Workshop on Plasma Life Science and Technology (JTPL2019), (Tsuruoka, Japan, 2019.7.11-13), Invited Talk.
23. S. C. Chuang, C. D. Tsai*: Evaluation of Plasma-Jet-Aid Bonding for PDMS-Glass Interfaces, The 6th Japan-Taiwan Workshop on Plasma Life Science and Technology (JTPL2019), (Tsuruoka, Japan, 2019.7.11-13), Poster Presentation.
24. Y. S. Yu, M. C. Wu, J. S. Wu and C. D. Tsai*: Rapid Prototyping of Microfluidic Channel using Atmospheric Pressure Plasma Jet, The 22nd International Conference on Miniaturized Systems for Chemistry and Life Sciences (MicroTAS18), (Kaohsiung, Taiwan, 2018.11), pp551-554.  conf.
25. T. Takayama*, M. Horade, C. D. Tsai and M. Kaneko: Push/Pull Inequality Based On-Chip Density Mixer with Active Enhancer, The 22nd International Conference on Miniaturized Systems for Chemistry and Life Sciences (MicroTAS18), (Kaohsiung, Taiwan, 2018.11), pp484-486.  conf.
26. T. Takayama*, N. Hosokawa, C. D. Tsai and M. Kaneko: On-Chip Super High Speed Mixer, The 22nd International Conference on Miniaturized Systems for Chemistry and Life Sciences (MicroTAS18), (Kaohsiung, Taiwan, 2018.11), pp487-490.  conf.
27. M. Horade*, O. Tabata, H. Ito, T. Takayama, C. D. Tsai and M. Kaneko: Micromanipulator with sensitive strain gauge on tip for cell characteristics measurement, The 22nd International Conference on Miniaturized Systems for Chemistry and Life Sciences (MicroTAS18), (Kaohsiung, Taiwan, 2018.11), pp1007-1008.  conf.
28. T. Takayama*, T. Akai, C. D. Tsai and M. Kaneko: Inverse Streamline Mapping for Finding an Optimum Medicine Injection Point in Micro Chamber, IEEE International Conference on Cyborg and Bionic Systems (CBS2018), (Shenzhen, China, 2018.10.25-27), pp84-87. link 
29. Y. S. Yu, L. H. Kuo, M. C. Wu, J. S. Wu and C. D. Tsai*: A Novel Fabrication of PDMS Chip using Atmospheric Pressure Plasma Jet: Hydrophobicity Modification and Feasibility Test, IEEE/RSJ International Conference on Intelligent Robots and Systems (IROS2018), (Madrid, Spain, 2018.10.1-5), pp.278-283.  conf. DOI: 10.1109/IROS.2018.8594446
30. T. Takayama*, C. D. Tsai and M. Kaneko: On-Chip Virtual Vortex Gear and Its Application, IEEE/RSJ International Conference on Intelligent Robots and Systems (IROS2018), (Madrid, Spain, 2018.10.1-5), pp5544. DOI: 10.1109/IROS.2018.8593418
31. H. Ito*, C. D. Tsai and M. Kaneko: Integration of Fluctuation Spectroscopy into a Microfluidic Platform for Novel Cellular Viscoelastic Measurement, The 31th IEEE Conference on Micro Electro Mechanical Systems (MEMS2018), (Belfast, UK, 2018.01), oral presentation (10%), pp137-140. DOI: 10.1109/MEMSYS.2018.8346502 conf. 
32. H. Miyashiro*, T. Takayama, C. D. Tsai and M. Kaneko: Vibration Based Virtual Vortex Gear, The 31th IEEE Conference on Micro Electro Mechanical Systems (MEMS2018), (Belfast, UK, 2018.01), pp1128-1129. DOI: 10.1109/MEMSYS.2018.8346759 conf.  
33. A. Kirimoto, H. Ito*, C. D. Tsai and M. Kaneko: Measurement of Both Viscous and Elastic Constants of a Red Blood Cell in a Microchannel, The 31th IEEE Conference on Micro Electro Mechanical Systems (MEMS2018), (Belfast, UK, 2018.01), pp388-391. DOI: 10.1109/MEMSYS.2018.8346569 conf. 
34. N. Higashino, T. Takayama*, H. Ito, M. Horade, C. D. Tsai and M. Kaneko: 3D pH Measurement For Cell Culture using CT Scan, The 28th International Symposium on Micro-Nano Mechatronics and Human Science (MHS2017), (Nagoya, Japan, 2017.12),  DOI: 10.1109/MHS.2017.8305213. conf.
35. T. Taniguchi, M. Horade*, H. Ito, T. Takayama, C. D. Tsai and M. Kaneko: Simultaneous Observation of Cell Behavior on Substrates with Different Heights, The 28th International Symposium on Micro-Nano Mechatronics and Human Science (MHS2017), (Nagoya, Japan, 2017.12), DOI: 10.1109/MHS.2017.8305227. conf.
36. T. Takayama*, C. D. Tsai, H. Ito and M. Kaneko: Pressure Dependency of Virtual Vortex Gear, The 21st International Conference on Miniaturized Systems for Chemistry and Life Sciences (MicroTAS17), (Savannah,USA, 2017.10), pp293-294.  conf.  
37. T. Takayama*, T. Akai, Y. Simozyo, C. D. Tsai and M. Kaneko: Virtual Vortex Gear: Experimental Study of 3D Flow Patterns, IEEE International Conference on Cyborg and Bionic Systems (ICBS2017), (Beijing, China, 2017.10), pp56-59. Best Conference Paper Award conf. 
38. C. D. Tsai*, K. Teramura, K. Mizoue and M. Kaneko: 3000 Hz Cell Manipulation in a Microfluidic Channel, IEEE/RSJ International Conference on Intelligent Robots and Systems (IROS2017), (Vancouver, Canada, 2017.10), pp2968-2973.  conf. 
39. M. Kaneko, T. Ishida, C. D. Tsai*, H. Ito, M. Chimura, T. Taniguchi, T. Ohtani and Y. Sakata: On-Chip RBC Deformability Checker Embedded with Vision Analyzer, IEEE International Conference on Mechatronics and Automation (ICMA2017), (Takamatsu, Japan, 2017.8), pp2005-2010. conf.  link
40. K. Mizoue, N. Yagyu, C. D. Tsai* and M. Kaneko: Hybrid Actuation for Long-Term Cell Manipulation in a Microfluidic Channel, IEEE International Conference on Advanced Intelligent Mechatronics (AIM2017), (Munich, Germany, 2017.07), pp1089-1094.  conf. link
41. C. D. Tsai*, T. Akai, M. Horade, H. Ito and M. Kaneko: Virtual Vortex Gear, The 19th International Conference on Solid-State Sensors, Actuators and Microsystems (Transducers2017), (Kaohsiung, Taiwan, 2017.06), pp583-586 oral presentation (21.7%).  conf.
42. C. D. Tsai* and M. Kaneko: Adjustable Gain for Steering Between High-Speed and High-Resolution Cell Manipulation, The 19th International Conference on Solid-State Sensors, Actuators and Microsystems (Transducers2017), (Kaohsiung, Taiwan, 2017.06), pp1762-1765.  conf.
43. H. Ito*, R. Murakami, C. D. Tsai, M. Horade, M. Tanaka and M. Kaneko: Red Blood Cell Deformability upon Continuous or Repetitive Loadings, The 30th IEEE Conference on Micro Electro Mechanical Systems (MEMS2017), (Las Vegas, USA, 2017.01), pp141-144. oral presentation (9.8%).  conf.
44. R. Murakami, A. Yamamoto, H. Ito, C. D. Tsai, M. Horade, M. Tanaka and M. Kaneko*: Observation of Cell Pinball Through High Speed Switching Between Reflection Interference and Phase Contrast, The 30th IEEE Conference on Micro Electro Mechanical Systems (MEMS2017), (Las Vegas, USA, 2017.01), pp1337-1338.  conf.
45. M. Horade*, M. Kaneko, C. D. Tsai, H. Ito, N. Higashino, T. Akai, U. Yokoyma, Y. Ishikawa, S. Sakuma and F. Arai: On-Chip Cell Gym, The 30th IEEE Conference on Micro Electro Mechanical Systems (MEMS2017), (Las Vegas, USA, 2017.01), pp603-604.  conf.
46. C. D. Tsai*, M.H. Phan and M. Kaneko: Buckling of RBC under Positive and Negative Driving Pressure in a Microchannel, The 27th International Symposium on Micro-Nano Mechatronics and Human Science (MHS2016), (Nagoya, Japan, 2016.11), pp122-122.  conf. link
47. C. D. Tsai*, M.H. Phan, K. Mizoue and M. Kaneko: Unexpected Beads Alignment in a Microfluidic Channel, IEEE/RSJ International Conference on Intelligent Robots and Systems (IROS2016), (Daejeon, Korea, 2016.10), pp5143-5148.  conf.  link
48. C. D. Tsai* and M. Kaneko: Cell Sweeper for Microfluidic Cavity, The 20th International Conference on Miniaturized Systems for Chemistry and Life Sciences (MicroTAS16), (Dublin, Ireland, 2016.10), pp1537-1538.  conf.
49. M. Horade*, C. D. Tsai, H. Ito, M. Tanaka and M. Kaneko: “Chameleon Effect” of RBC Under Loading in Microfluidic Channel, The 19th International Conference on Miniaturized Systems for Chemistry and Life Sciences (MicroTAS16), (Dublin, Ireland, 2016.10), pp311-312.  conf.
50. C. D. Tsai*, M. Horade, H. Ito, M. Tanaka and M. Kaneko: High-Resolution Cell Manipulation for Longstanding Load on Red Blood Cells, IEEE International Conference on Mechatronics and Automation (ICMA2016), (Harbin, China, 2016.8), pp914-919.  conf.  link
51. R. Murakami, C. D. Tsai*, H. Ito, M. Tanaka, S. Sakuma, F. Arai and M. Kaneko: Catch, Load and Launch toward On-Chip Active Cell Evaluation, IEEE International Conference on Robotics and Automation (ICRA2016), (Stockholm, Sweden, 2016.5), pp1713-1718. link
52. C. D. Tsai* and M. Kaneko: Frequency Responses of On-Chip Pressure Sensor with Different Deformation Chambers, The 26th International Symposium on Micro-Nano Mechatronics and Human Science (MHS2015), (Nagoya, Japan, 2015.11), pp292-293.  conf. link
53. C. D. Tsai* and M. Kaneko: Pressure Transmitter for Local Pressure Sensing in a Microchannel, The 9th IEEE International Conference on Nano/Molecular Medicine and Engineering (NANOMED2015), (Waikiki, Hawaii, USA, 2015.11), pp19-22.  conf.  link
54. C. D. Tsai* and M. Kaneko: On-Chip Micro Manometer, The 19th International Conference on Miniaturized Systems for Chemistry and Life Sciences (MicroTAS15), (Gyeongju, Korea, 2015.10), pp1879-1881.  conf.
55. C. D. Tsai*, T. Nakamura and M. Kaneko: An On-Chip, Electricity-Free and Single-Layer Pressure Sensor for Microfluidic Applications, IEEE/RSJ International Conference on Intelligent Robots and Systems (IROS2015), (Hamburg, Germany, 2015.9-10), pp165-170.  conf.  link
56. C. D. Tsai*, K. Mizoue, M. Kaneko, S. Sakuma and F. Arai: Novel Microfluidic Chip for Extracting Cell Deformability, IEEE International Conference on Mechatronics and Automation (ICMA2015), (Beijing, China, 2015.8), pp2139-2144.  conf. link
57. Frederike Hesse, C. D. Tsai* and M. Kaneko: Characteristics of Vision-Based On-Chip Pressure Sensor with Different Concentrations of Sensing Fluid, IEEE International Conference on Mechatronics and Automation (ICMA2015), (Beijing, China, 2015.8), pp517-522.Toshio Fukuda Best Award in Mechatronics  conf. link
58. C. D. Tsai* and M. Kaneko: On-Chip Pressure Sensing by Visualizing PDMS Deformation using Microbeads, The 28th IEEE Conference on Micro Electro Mechanical Systems (MEMS2015), (Estoril, Portugal, 2015.01), pp722-725.  conf. link
59. C. D. Tsai*, M. Kaneko and F. Arai: Improving the Evaluation of Cell Deformability by Different Channel Width in a Microfluidic Device, The 11th International Conference on Ubiquitous Robots and Ambient Intelligence (URAI2014), (Kuala Lumpur, Malaysia, 2014.11), pp522-524.  conf. link
60. C. D. Tsai*, S. Sakuma, F. Arai and M. Kaneko: What is the Difference of Cell Deformation between PUSH and PULL?, The 18th International Conference on Miniaturized Systems for Chemistry and Life Sciences (MicroTAS2014), (San Antonio, USA, 2014.10), pp793-795.  conf.
61. C. D. Tsai* and M. Kaneko: Evaluating RBC Deformability in a Microchannel under Mannitol Adenine Phosphate, SICE Annual Conference (SICE2014), (Sapporo, Japan, 2014.9), pp1474-1477.  conf.
62. C. D. Tsai*, S. Yoshikawa, S. Sakuma, F. Arai and M. Kaneko: Image-Based Screening for Erythrocyte Characteristics of Patients Receiving Dialysis Service, ASN Kidney Week 2013 Annual Meeting, (Atlanta, USA, 2013.11), pp128A.  conf.
63. S. Yoshikawa, C. D. Tsai, S. Sakuma, F. Arai and M. Kaneko*: Realtime Cell Tracking in a Microchannel, The 10th International Conference on Ubiquitous Robots and Ambient Intelligence (URAI2013), (Jeju, Korea, 2013.11), pp144-147.  link
64. C. D. Tsai*, S. Sakuma, M. Kaneko and F. Arai: Normalization of Flow-in Velocity for Improving the Evaluation on Cell Deformability, IEEE International Conference on Mechatronics and Automation (ICMA2013), (Takamatsu, Japan, 2013.8), pp261-266.  link
65. C. D. Tsai*, M. Kaneko, S. Sakuma and F. Arai: Distinct Patterns of Cell Motion inside a Micro-Channel under Different Osmotic Conditions, The 35th Annual International Conference of the IEEE Engineering in Medicine & Biology Society (EMBC2013), (Osaka, Japan, 2013.7), pp5525-5528.  link
66. C. D. Tsai*, M. Kaneko, S. Sakuma and F. Arai: Observability of Cell Stiffness in Micro-Channel Method, IEEE International Conference on Robotics and Automation (ICRA2013), (Karlsruhe, Germany, 2013.5), pp2792-2798.  link
67. C. D. Tsai*, M. Kaneko, S. Sakuma and F. Arai: Biomechanical Properties of Red Blood Cell through the Motion inside a Micro-channel, The 23rd International Symposium on Micro-Nano Mechatronics and Human Science (MHS2012), (Nagoya, Japan, 2012.11), pp390-392.  link
68. C. D. Tsai*, M. Kaneko and F. Arai: Enhanced Cell Stiffness Evaluation by Two-Phase Decomposition, The 16th International Conference on Miniaturized Systems for Chemistry and Life Sciences (MicroTAS2012), (Okinawa, Japan, 2012.10), pp1009-1011.  conf.
69. C. D. Tsai*, M. Kaneko and F. Arai: Evaluation of Cell Impedance Using a μ-channel, The 34th Annual International Conference of the IEEE Engineering in Medicine & Biology Society (EMBC2012), (San Diego, USA, 2012.8), pp5518-5521.  link
70. C. D. Tsai*, M. Kaneko, S. Sakuma and F. Arai: Phase Decomposition of a Cell Passing Through a μ-channel: A Method for Improving the Evaluation of Cell Stiffness, IEEE International Conference on Mechatronics and Automation (ICMA2012), (Chengdu, China, 2012.8), pp138-143. Best Paper Award in Automation  link
71. I. G. Ramirez-Alpizar, M. Higashimori*, M. Kaneko, C. D. Tsai, and I. Kao: Nonprehensile Dynamic Manipulation of a Sheet-like Viscoelastic Object, IEEE International Conference on Robotics and Automation (ICRA2011), (Shanghai, China, 2011.5), pp5103-5108.  link
72. J. Nishiyama, C. D. Tsai, M. Quigley, I. Kao*, A. Shibata, M. Higashimori, and M. Kaneko: An Experimental Study of Biologically Inspired Artificial Skin Sensor Under Static Loading and Dynamic Stimuli, IEEE International Conference on Robotics and Automation (ICRA2011), (Shanghai, China, 2011.5), pp1778-1783.  link
73. C. D. Tsai, I. Kao*, A. Shibata, K. Yoshimoto, M. Higashimori, and M. Kaneko: Experimental Study of Creep Response of Viscoelastic Contact Interface Under Force Control, IEEE/RSJ International Conference on Intelligent Robots and Systems (IROS2010), (Taipei, Taiwan, 2010.10.20), pp4257-4280.  link
74. C. D. Tsai, J. Nishiyama, I. Kao*, M. Higashimori, and M. Kaneko: Study of the Relationship Between the Strain and Strain Rate for Viscoelastic Contact Interface in Robotic Grasping, IEEE/RSJ International Conference on Intelligent Robots and Systems (IROS2010), (Taipei, Taiwan, 2010.10.19), pp592-597.  link
75. C. D. Tsai, I. Kao*, K. Yoshimoto, M. Higashimori, and M. Kaneko: An Experimental Study and Modeling of Loading and Unloading of Nonlinear Viscoelastic Contacts, IEEE/RSJ International Conference on Intelligent Robots and Systems (IROS2009), (St. Louis, MO, USA, 2009.10.13), pp3404-3409.  link
76. C. D. Tsai, and I. Kao*: The Latency Model for Viscoelastic Contact Interface in Robotics: Theory and Experiments, IEEE International Conference on Robotics and Automation (ICRA2009), (Kobe, Japan, 2009.5.15), pp1291-1296.  link
77. C. D. Tsai, I. Kao*, N. Sakamoto, M. Higashimori, and M. Kaneko: Applying Viscoelastic Contact Modeling to Grasping Task: an experimental case study, IEEE/RSJ International Conference on Intelligent Robots and Systems (IROS2008), (Nice, France, 2008.9.24), pp1790-1795.  link