論 文

Proceedings

 

  • 116: Yuki Tamanoi, Ryota Horai, Kazuhiro Yoshida, Sang In Eom, and Joon-wan Kim: A Study on an In-Pipe Mobile Micromachine Having a Fluid Inertia Micropump, Proc. of 8th Int. Conf. on Manufacturing, Machine Design and Tribology (ICMDT2019), TH-D-1-3, (April 24-27, 2019)
  • 115: Nhat Dang Khoa NGUYEN, Kazuhiro YOSHIDA and Joon-wan KIM: Controlling electrospray-deposited pattern by changing electrical field on a stencil mask, Proc. of 8th Int. Conf. on Manufacturing, Machine Design and Tribology (ICMDT2019), TH-D-1-4, (April 24-27, 2019)
  • 114: Kazuhiro Yoshida, Kenta Asai, Sang In Eom, Joon-wan Kim: A Novel AC Electroosmotic Micropump Using T-Shaped Electrode Array, Proc. of 15th Int. Conf. on Flow Dynamics (ICFD2018), pp. 546- 547 (November 7-9, 2018)[Inivited]
  • 113: Thapanun Sudhawiyangkul, Kazuhiro Yoshida, Sang In Eom and Joon-wan Kim: Development of a UV-curable PEDOT:PSS based flexible electro-rheological microvalve (FERV), 22nd Int. Conf. on Mechatronics Technology (ICMT2018) Conf. Program, Paper ID07 (2pp), (October 26-29, 2018)
  • 112: Zebing Mao, Kazuhiro Yoshida and Joon-wan Kim: Proposal on manipulating droplets by a cantilever check valve operated by an ECF micropump, 22nd Int. Conf. on Mechatronics Technology (ICMT2018) Conf. Program, Paper ID58 (2pp), (October 26-29, 2018)
  • 111: Dong HAN, Kazuhiro Yoshida, and Joon-wan Kim: Proposal on an effective removing method of micromolds in UV-LIGA by combining CO2 laser engraving with O2/CF4 plasma etching, 22nd Int. Conf. on Mechatronics Technology (ICMT2018) Conf. Program, Paper ID60 (2pp), (October 26-29, 2018)
  • 110: M. Ogawa, K. Yoshida and J.-w. Kim: Development of Au-ITO composite wiring for the back UV-LIGA, 22nd Int. Conf. on Mechatronics Technology (ICMT2018) Conf. Program, Paper ID62 (2pp), (October 26-29, 2018)
  • 109: Zebing Mao, Kazuhiro Yoshida, Joon-wan Kim: Fast bonding technology by using partially-crosslinked SU-8 for MEMS-fabricated actuators and sensors, Proc. of Int. Workshop on Piezoelectric Materials and Applications in Actuators (IWPMA2018). p. 54 (September 11-14, 2018)
  • 108: Tatsuya Matsubara, Kazuhiro Yoshida, Joon-wan Kim: Development of MEMS-fabricated Bidirectional ECF micropump, Proc. of Int. Workshop on Piezoelectric Materials and Applications in Actuators (IWPMA2018), p. 81 (September 11-14, 2018)
  • 107: Zebing Mao, Kazuhiro Yoshida, Joon-wan Kim: Research on the Protrusion Problem in the Bonding Process of Free-standing SU-8 Microstructure, Int. Symp. on Precision Engineering and Sustainable Manufacturing (PRESM2018) Program & Proceedings. p. Op010 (July 3-7, 2018)
  • 106: Huy Hoang Huynh, Kazuhiro Yoshida, Joon-wan Kim: Formation of Micropillars for Higher Performance of ECF Planar Micropumps, Int. Symp. on Precision Engineering and Sustainable Manufacturing (PRESM2018) Program & Proceedings, p. Op064 (July 3-7, 2018)
  • 105: Tomoya Miyoshi, Kazuhiro Yoshida, Joon-wan Kim and Sang In Eom: DEVELOPMENRT OF A MEMS-BASED TWO-DOF ER BENDING ACTUATOR SYSTEM USING AN ALTERNATING PRESSURE SOURCE, Proc. of 10th JFPS Int. Symp. on Fluid Power, Fukuoka 2017 (Web Proc.), 1B16 (3pp) (Oct. 24-27, 2017)
  • 104: K. Asai, K. Yoshida, S. I. Eom, J.-w. Kim: Novel AC Electroosmotic Micropump Using Slit Electrode and Multiple Electrodes, The 21st Int. Conf. on Mechatronics Technology (ICMT2017), Ho Chi Ming City, Vietnam, pp. 111-114 (Oct. 20-23, 2017)
  • 103: K. Yoshida, R. Horai, S. I. Eom, T. Nagata, K. Asai: Development of a High Power Piezoelectric Micropump Using Fluid Inertia, Proc. 7th Int. Conf. on Manufacturing, Machine Design and Tribology (ICMDT2017), Jeju, Korea, p. 16 (April 19-22, 2017)
  • 102: S. I. Eom, K. Miyata, K. Asai, J.-w. Kim, K. Yoshida: Proposal of a peristaltic micropump using dielectric elastmer actuators fabricated by MEMS technology, Electroactive Polymer Actuators and Devices (EAPAD) 2017, Proc. of SPIE, Vol. 10163, Portland, USA, pp. 101631L-1-6 (March 25-29, 2017)
  • 101: Jung-Ho Park, Young-Bog Ham, So-Nam Yun, Kazuhiro Yoshida, and Shinichi Yokota: Thumbnail-sized Powerful Piezoelectric Micropumps as a Fluid Power Source, Conf. Proc. of BIT's 3rd Annual World Congress of Smart Materials (WCSM-2017), Bangkok, Thailand, p. 160 (Mar. 16-18, 2017)
  • 100: M. Shimizu. K. Nishioka, A. Matsutani, K. Yoshida, J. W. Kim: Study on Fabrication of High Aspect Ratio TPSE by using DRIE, Proc. of 20th Int. Conf. on Mechatronics Technology. Dalian, China, pp. 32-33 (Oct. 28-31, 2016)
  • 99: K. Yoshida, R. Horai, S. I. Eom, T. Nagata, K. Asai: A Study on a High Pressure Piezoelectric Micropump Using Fluid Inertia for Fluid Power Sources, Proc. of 20th Int. Conf. on Mechatronics Technology. Dalian, China, pp. 82-83 (Oct. 28-31, 2016)
  • 98: T. Miyoshi, K. Yoshida, J.-w. Kim and S. I. Eom: A MEMS-based two-DOF PDMS bending actuator for mupltiple ER microactuator systems, Proc. of 20th Int. Conf. on Mechatronics Technology. Dalian, China, pp. 86-87 (Oct. 28-31, 2016)
  • 97: S. I. Eom, K. Asai, K. Yoshida: A Study on a Micropump Using Stacked Diaphragm-Type Dieelctric Elastomer Actuators - Development of Novel Fabrication Method, Proc. of 20th Int. Conf. on Mechatronics Technology. Dalian, China, pp. 118-119 (Oct. 28-31, 2016)
  • 96: Shuhei Miyashita, Steven Guitron, Kazuhiro Yoshida, Shuguang Li, Dana D. Damian, and Daniela Rus: Ingestible, Controllable, and Degradable Origami Robot for Patching Stomach Wounds, Proc. 2016 IEEE Int. Conf. on Robotics and Automation (ICRA), Stockholm, Sweden, pp. 909-916, (May 16-21, 2016)
  • 95: K. Yoshida, M. Watanabe, J.-W. Kim, S. I. Eom and S. Yokota: Characterization of an AC Electroosmotic Micropump Using Plate-Cylinder Electrode Array, Proc. of the 19th Int. Conf. on Mechatronics Technology (ICMT2015)(USB), Tokyo, Japan, C10, (November 27-30, 2015)
  • 94: S. I. Eom, R. Hourai, K. Yoshida and S. Yokota: A Study on a Micropump Using Stacked Diaphragm -Type Dielectric Elastomer Actuators - Concept and Basic Investigations -, Proc. of the 19th Int. Conf. on Mechatronics Technology (ICMT2015)(USB), Tokyo, Japan, C13, (November 27-30, 2015)
  • 93: T. Miyoshi, K. Yoshida, J.-W. Kim, S. I. Eom and S. Yokota: DEVELOPMENT OF A MEMS-BASED ELECTRO-RHEOLOGICAL MICROFINGER SYSTEM WITH AN ALTERNATING PRESSURE SOURCE, Proc. of the 18th Int. Conf. on Solid-State Sensors, Actuators and Microsystems (Transducers 2015)(USB), Anchourage, Alaska, USA, pp. 823-826 (Jun. 21-25, 2015)
  • 92: K. Yoshida, S. Hara, S. I. Eom and S. Yokota: Development of a Soft Microgripper Using Divided-Electrode Type Flexible ER Valves, Proc. of 6th Int. Conf. on Manufacturing, Machine Design and Tribology (ICMDT2015)(USB), pp. 464-465 (Apr. 22-25, 2015)
  • 91: T. Miyoshi, K. Yoshida, J.-W. Kim, S. I. Eom and S. Yokota: Fabrication of a MEMS-Based Electro-Rheological Microfinger System with an Alternating Pressure Source, Proc. of 6th Int. Conf. on Manufacturing, Machine Design and Tribology (ICMDT2015)(USB), Okinawa, Japan, pp. 476-477 (Apr. 22-25, 2015)
  • 90: K. Yoshida, N. Tsukamoto, J.-W. Kim, S. I. Eom and S. Yokota: Characteristics of MEMS-Based Divided Electrode Type Flexible Electro-Rheological Valve, Proc. of 9th JFPS Int. Symp. on Fluid Power, Matsue 2014 (USB), Matsue, Japan, pp. 435-437 (Oct. 28-31, 2014) [Keynote speech]
  • 89: T. Miyoshi, K. Yoshida, J.-W. Kim, S. I. Eom and S. Yokota: Fabrication of a MEMS-Based ER Microgripper with Alternating-Pressure Source, Proc. of 9th JFPS Int. Symp. on Fluid Power, Matsue 2014 (USB), Matsue, Japan, pp. 438-441 (Oct. 28-31, 2014)
  • 88: K. Yoshida, M. Watanabe, J.-W. Kim, S. I. Eom and S. Yokota: Development of a Novel AC Electroosmosis Micropump Using Plate-Cylinder Electrode Pair, Proc. of 18th Int. Conf. on Mechatronics Technology (ICMT2014)(USB), Taipei, Taiwan, Paper ID: 45 (October 21-24, 2014)
  • 87: K. Yoshida, S. Yamamoto, S. I. Eom and S. Yokota: Proposal of a Multiple Microactuators System Using High Frequency Alternating-Pressure Source, Proc. of 18th Int. Conf. on Mechatronics Technology (ICMT2014)(USB), Taipei, Taiwan, Paper ID: 69 (October 21-24, 2014)
  • 86: T. Miyoshi, K. Yoshida, J.-W. Kim, S. I. Eom and S. Yokota: Development of a MEMS-Based ER Microgripper Using Alternating-Pressure Source, Conf. Proc. of 14th Int. Conf. on New Actuators & 8th Int. Exhibition on Smart Actuators and Drive Systems (ACTUATOR14)(CD-ROM), Bremen, Germany, pp. 394-397 (June 23-25, 2014)
  • 85: K. Yoshida, N. Tsukamoto, J. W. Kim and S. Yokota: A Divided Electrode Type Flexible Electro-Rheological Valve Fabricated by MEMS Technologies, Proc. of 12th Int. Conf. on Fluid Control, Measurements, and Visualization (FLUCOME2013)(USB), Nara, Japan, OS5-01-1(6pp) (November 18-23, 2013)
  • 84: K. Yoshida, N. Tsukamoto, J. W. Kim and S. Yokota: A Microgripper Using MEMS-Based Divided Electrode Type Flexible Electro-Rheological Valves, Proc. of 17th Int. Conf. on Mechatronics Technology (ICMT2013), Jeju, Korea, pp. 107-109 (October 15-18, 2013)
  • 83: K. Yoshida, T. Sato, S. I. Eom, J. W. Kim and S. Yokota: Development of an AC Electroosmotic Micropump Using Square Pole - Slit Electrodes, Proc. of 17th Int. Conf. on Mechatronics Technology (ICMT2013), Jeju, Korea, pp. 146-148 (October 15-18, 2013)
  • 82: S. I. Eom, S. Yokota, J. W. Kim, K. Yoshida and K. Edamura: A silicone rubber bimorph actuator driven by bidirectional ECF jet generator, Proc. of 17th Int. Conf. on Mechatronics Technology (ICMT2013), Jeju, Korea, pp. 149-151 (October 15-18, 2013)
  • 81: K. Yoshida, T. Miyoshi, S. I. Eom and S. Yokota: Development of a multi-DOF ER microactuator system with alternating-pressure source, Proc. of 5th Int. Conf. on Manufacturing, Machine Design and Tribology (ICMDT2013), Busan, Korea, p. 78 (May 22-25, 2013)
  • 80: K. Yoshida, S. Hakoda, S. I. Eom and S. Yokota: Development of Multi-DOF Electro-Rheological Actuator with Shape Adaptation Capability - Fundamental Experiments of Basic Unit Large Model -, Proc. of 5th Int. Conf. on Manufacturing, Machine Design and Tribology (ICMDT2013), Busan, Korea, p. 85 (May 22-25, 2013)
  • 79: K. Yoshida, T. Sato, S. I. Eom, J. W. Kim and S. Yokota: An AC Electroosmotic Micropump Using Square Pole-Slit Electrodes, Proc. of 5th Int. Conf. on Manufacturing, Machine Design and Tribology (ICMDT2013), Busan, Korea, p. 141 (May 22-25, 2013)
  • 78: K. Yoshida, S. Hakoda, S. I. Eom and S. Yokota: A Study on Multi-DOF Electro-Rheological Actuator with Shape Adaptation Capability, Proc. of 8th Int. Conf. on Fluid Power Transmission and Control (ICFP2013), Hangzhou, China, pp. 542-545 (CD-ROM) (Apr. 9-11, 2013)
  • 77: K. Yoshida, T. Miyoshi, S. I. Eom and S. Yokota: A Multi-DOF ER Microactuator System Using Alternating-Pressure Source, Proc. of 16th Int. Conf. on Mechatronics Technology (ICMT2012), Tianjin, China, pp. 1-5 (CD-ROM) (Oct. 16-19, 2012)
  • 76: K. Yoshida, S. Hara, S. I. Eom and S. Yokota: A Novel Microgripper Using Flexible Electro-Rheological Valves, Proc. of 13th Mechatronics Forum Int. Conf. (Mechatronics 2012), Linz, Austria, Vol. 3, pp. 834-839, (Sep. 17-10, 2012)
  • 75: K. Yoshida, S. Hakoda, S. I. Eom and S. Yokota: An ER Microvalve Having Two-DOF Flexibility, Proc. of 15th Int. Conf. on Mechatronics Technology (ICMT 2011), Melbourne, Australia, pp. 46-49 (CD-ROM) (Nov. 30-Dec. 2, 2011)
  • 74: S. I. Eom, H. Masuda, S. Yokota, K. Yoshida and K. Edamura: Study about Micro Cylinder for Bidirectional Rolling Diaphragm Actuator Using ECF Jet, Proc. of 15th Int. Conf. on Mechatronics Technology (ICMT 2011), Melbourne, Australia, pp. 461-464 (CD-ROM) (Nov. 30-Dec. 2, 2011)
  • 73: K. Yoshida, T. Anzai, J. W. Kim and S. Yokota: A Micro Mobile Hydraulic System Using Electro-Rheological Fluid, Proc. of 8th JFPS Int. Symp. on Fluid Power, Okinawa 2011, Okinawa, Japan, pp. 471-476 (Oct. 25-28, 2011)
  • 72: K. Yoshida, K. Muramatsu, J. W. Kim, S. I. Eom and S. Yokota: A Study on Micro Flow Generator Using AC Electroosmosis, Proc. of 4th Int. Conf. on Manufacturing, Machine Design and Tribology (ICMDT 2011), Gamagori, Japan, pp. 67-68 (Apr. 24-27, 2011)
  • 71: K. Yoshida, T. Anzai, J. W. Kim and S. Yokota: A Micro Rolling Diaphragm Actuator Equipped with an ER Valve, Proc. of 14th International Conference on Mechatronics Technology (ICMT 2010), Osaka, Japan, pp. 147-151 (CD-ROM) (Nov. 24-26, 2010)
  • 70: J.-H. Park, Y.-B. Ham, S.-N. Yun, M.-Y. Seo, K. Yoshida and S. Yokota: High-Power Piezoelectric Micropumps Using Resonance Drive and/or Fluid Inertia Effect, Proc. 7th Int. Workshop on Microfactories, Daejeon, Korea, pp. 464-469 (Oct. 24-27, 2010)
  • 69: K. Yoshida, T. Ide, J. W. Kim and S. Yokota: A Microgripper Using Flexible Electro-Rheological Valves, WAC2010 CD-ROM Proc., Kobe, Japan, (CD-ROM) (Sep. 19-23, 2010)
  • 68: K. Yoshida, T. Muto, J. W. Kim and S. Yokota: An ER Microactuator with Built-in Pump and Valve, Interactive Conf. Proc. of Int. Conf. and Exhibition on New Actuators and Drive Systems (ACTUATOR10), Bremen, Germany, pp. 556-559 (Jun. 14-16, 2010)
  • 67: S. Yokota, K. Yoshida, K. Takemura and J. W. Kim: New Microactuators using Functional Fluids, Next-Generation Actuators Leading Breakthrough (T. Higuchi, K. Suzumori and S. Tadokoro Ed.)(Proc. 3rd Int. Symp. on Next-Generation Actuators Leading Breakthroughs), Tokyo, Japan, pp. 91-103 (Jan. 25-26, 2010)
  • 66: K. Yoshida, T. Ide, J. W. Kim and S. Yokota: A Microgripper Using Electro-Rheological Fluid, Final Program and papers of ICROS-SICE Int. Joint Conf. 2009 (ICCAS-SICE 2009), Fukuoka, Japan, pp. 2987-2990 (Aug. 18-21, 2009)
  • 65: J. W. Kim, Y. Ogawa, S. Yokota, K. Yoshida and K. Edamura: ECF Microactuator with Needle-Ring Electrodes by MEMS Technology, Proc. of 12th International Conference on Mechatronics Technology (ICMT 2008), (CD-ROM)(Oct. 14-17, 2008)
  • 64: K. Yoshida, K. Kamiyama, J. W. Kim and S. Yokota: Proposition of an ER Microactuator with Inherent Position Feedback Mechanism, Proc. of the 7th Int. Symp. on Fluid Power, Toyama 2008, Toyama, Japan, pp. 551-554 (Sep. 15-18, 2008)
  • 63: S. Yokota, K. Yoshida, W.-S. Seo, K. Koizumu, J. W. Kim and K. Edamura: Forced Liquid Cooling System Using Thin Planar ECF Pump for High Power Electronic Chips, Proc. 11th Int. Conf. on New Actuators (ACTUATOR 2008), Bremen, Germany, pp. 226-229 (Jun. 9-11, 2008)
  • 62: S. Yokota, K. Yoshida, K. Takemura and J. W. Kim: New Microactuators Using Functional Fluids, Proc. 2nd Int. Symp. on Next-Generation Actuators Leading Breakthroughs, pp. 3-6 (Apr. 17, 2008)
  • 61: K. Yoshida, Y. Osanai and S. Yokota: Proposition of a 3-DOF ER Microactuator with Built-in Pump and Valve, Proc. of 2nd Int. Forum on Systems and Mechatronics (IFSM 2007), pp. 21-27 (Dec. 3-6, 2007)
  • 60: J. W. Kim, Y. Nishida, S. Yokota, K. Yoshida and K. Edamura: ECF Micromotor Using MEMS Technology, Proc. 11th Int. Conf. on Mechatronoics Technology (ICMT2007), Ulsan, Korea, pp. 207-210 (CD-ROM) (Nov. 5-9, 2007)
  • 59: W.-S. Seo, K. Yoshida, S. Yokota, K. Edamura and Y.-B. Ham: Forced Liquid Cooling System Using Planar ECF Pump for VLSI Chips, Proc. 11th Int. Conf. on Mechatronoics Technology (ICMT2007), Ulsan, Korea, pp. 351-356 (CD-ROM) (Nov. 5-9, 2007)
  • 58: K. Yoshida , Y. Osanai and S. Yokota: An ER Microactuator with Built-in Pump and Valve, Proc. 11th Int. Conf. on Mechatronoics Technology (ICMT2007), Ulsan, Korea, pp. 450-455 (CD-ROM) (Nov. 5-9, 2007)
  • 57: J. W. Kim, K. Yoshida, K. Kouda and S. Yokota: Flexible Electro-rheological Microvalve (FERV) Based on SU-8 Cantilever Structures and Its Application to Microactuators, Proc. 6th Int. Symp. on Linear Drives for Industrial Applications (LDIA 2007), Lille, France, (CD-ROM) (Sep. 16-19, 2007)
  • 56: K. Yoshida, Y. Osanai, T. Seto, K. Takagi and S. Yokota: A Micro Fluid Power Source Using Fluid Inertia Effect in a Pipe for High Viscosity Fluids, Proc. 2nd JSME-KSME Joint International Conference on Manufacturing, Machine Design and Tribology (ICMDT 2007), B17 (CD-ROM) (July 1-3, 2007)
  • 55: K. Yoshida, K. Sugiura and S. Yokota: A Full-Wave Rectifying Piezoelectric Micro Fluid Power Source Using Fluid Inertia Effect In Pipes, Proc. 10th Int. Conf. in Mechatronics Technology (ICMT2006), Mexico City, Mexico, MN04 (CD-ROM) (Nov. 20-24, 2006)
  • 54: J. W. Kim, K. Yoshida, K. Kohda and S. Yokota: Flexible Electro-Rheological (ER) Microvalve Based on Flexible SU-8 Cantilever Structures, Proc. 10th Int. Conf. in Mechatronics Technology (ICMT2006), Mexico City, Mexico, MN05 (CD-ROM) (Nov. 20-24, 2006)
  • 53: M. De Volder, K. Yoshida, S. Yokota and D. Reynaerts: Electrorheological Liquid Crystals: A New Rheologic Fluid for Microsystmes, Proc. 10th Int. Conf. on New Actuators (ACTUATOR 2006), Bremen, Germany, pp. 840-843 (Jun. 14-16, 2006)
  • 52: K. Yoshida, J. W. Kim, K. Kohda and S. Yokota: Fabrication of Flexible Electro-Rheological (ER) Microvalve Based on Flexible SU-8 Cantilever Structures, Proc. 10th Int. Conf. on New Actuators (ACTUATOR 2006), Bremen, Germany, pp. 852-855 (Jun. 14-16, 2006)
  • 51: S. Yokota, K. Yoshida, K. Takemura and J. W. Kim: New Microactuators Using Functonal Fluids, Proc. 1st Int. Symp. on Next-Generation Actuators Leading Breakthroughs, Chiba, Japan, pp. 35-38 (Apr. 20-21, 2006)
  • 50: M. De Volder, K. Yoshida, S. Yokota, D. Reynaerts: Electrorheologic Liquid Crystals in Microsystems: Model and Measurements, 1st IEEE Int. Conf. on Nano/Micro Engineered and Molecular Systems (IEEE-NEMS2006), Zhuhai, P. R. China, (Jan. 18-21, 2006)
  • 49: K. Yoshida, T. Ogiso and S. Yokota: Flexible ER Microactuator Using Homogeneous Electro-Rheological Fluid, Proc. 9th Int. Conf. on Mechatronics Technology (ICMT 2005), Kuala Lumpur, Malaysia, ICMT-89 (CD-ROM) (Dec. 5-8, 2005)
  • 48: K. Yoshida, Y.-O. Jung, T. Seto, K. Takagi, J.-H. Park and S. Yokota: A Piezoelectric Micropump Using Fluid Inertia in Pipe and Its Application, Proc. 6th JFPS Int. Symp. on Fluid Power, Tsukuba 2005, Tsukuba, Japan, pp. 688-693 (Nov. 7-10, 2005)
  • 47: K. Yoshida, T. Soga, S. Yokota, M. Kawachi and K. Edamura: A Magneto-Rheological Valve-Integrated Cylinder and Its Application, Proc. Power Transmission and Motion Control (PTMC2005), Bath, UK, pp. 277-289 (Sep. 7-9, 2005)
  • 46: K. Yoshida, Y.-O. Jung and S. Yokota: A Micro Fluid Power System Using Magneto-Rheological Fluid Valve-Body, Proc. 1st Int. Conf. on Manufacturing, Machine Design and Tribology (ICMDT2005), Seoul, Korea, MAA-101 (CD-ROM), (Jun. 23-24, 2005)
  • 45: W.-S. Seo, S. Yokota, K. Yoshida and K. Edamura: A Thin-Planar Pump for Liquid Cooling System Using ECF-Jet, Proc. 1st Int. Conf. on Manufacturing, Machine Design and Tribology (ICMDT2005), Seoul, Korea, MAA-204 (CD-ROM), (Jun. 23-24, 2005)
  • 44: S. Yokota, K. Yoshida and K. Edamura: Micro Actuators Using Functional Fluids and the Systems, Proc. 6th Int. Conf. on Fluid Power Transmission and Control (ICFP’2005), Hangzhou, P. R. China, pp. 71-76, (Apr. 5-8, 2005)
  • 43: S. Yokota, W.-S. Seo, K. Yoshida and K. Edamura: A High Performance Planar ECF Pump for Liquid Cooling of High Power Electronic Chips, Proc. 6th Int. Conf. on Fluid Power Transmission and Control (ICFP’2005), Hangzhou, P. R. China, pp. 234-237, (Apr. 5-8, 2005)
  • 42: K. Yoshida, Y.-O. Jung, T. Seto, K. Takagi, J.-H. Park and S. Yokota: A High Output-Power Piezoelectric Micropump Using Inertia of Pipe, Proc. 6th Int. Conf. on Fluid Power Transmission and Control (ICFP’2005), Hangzhou, P. R. China, pp. 394-397, (Apr. 5-8, 2005)
  • 41: S. Yokota, W.-S. Seo, K. Yoshida and K. Edamura: A Planar Pump Using Electro-Conjugate Fluid (ECF) for Liquid Cooling of Electronic Chips, Proc. 8th Int. Conf. on Mechatronics Technology (ICMT 2004), Hanoi, Vietnam, pp. 127-131 (Nov. 8-12, 2004)
  • 40: K. Yoshida, T. Soga, S. Yokota, M. Kawachi and K. Edamura: An MR Cylinder-Driven Manipulator Using Magneto-Rheological Fluid, Proc. 8th Int. Conf. on Mechatronics Technology (ICMT 2004), Hanoi, Vietnam, pp. 189-194 (Nov. 8-12, 2004)
  • 39: J.-H. Park, K. Yoshida, S. Yokota, T. Seto, K. Takagi, Y.-B. Ham and S. N. Yun: Resonantly-Driven Piezoelectric Micropumps Using Active Check Valves, Proc. 9th Int. Conf. on New Actuators (ACTUATOR 2004), Bremen, Germany, pp. 557-560 (Jun. 14-16, 2004)
  • 38: K. Yoshida, T. Soga, S. Yokota, M. Kawachi and K. Edamura: A Valve-Integrated MR Cylinder Using Magneto-Rheological Fluid, Proc. 9th Int. Co nf. on New Actuators (ACTUATOR 2004), Bremen, Germany, pp. 609-612 (Jun. 14-16, 2004)
  • 37: J.-H. Park, K. Yoshida, S. Yokota, T. Seto and K. Takagi: Development of Micromachines Using Improved Resonantly-Driven Piezoelectric Micropumps, Proc. 4th Int. Symp. on Fluid Power Transmission and Control (ISFP2003), Wuhan, P. R. China, pp. 536-541 (Apr. 8-10, 2003)
  • 36: K. Yoshida, J.-H. Park, S. Yokota, M. Kawachi and K. Edamura: A Bellows-Driven Manipulator Using a New Magneto-Rheological Fluid, Proc. 4th Int. Symp. on Fluid Power Transmission and Control (ISFP2003), Wuhan, P. R. China, pp. 542-547 (Apr. 8-10, 2003)
  • 35: K. Yoshida, H. Takahashi, S. Yokota, M. Kawachi and K. Edamura: A Bellows-Driven Motion Control System Using a Magneto-Rheological Fluid, Proc. 5th JFPS Int. Symp. on Fluid Power, Nara 2002, Nara, Japan, pp. 403-408 (Nov.12-15, 2002)
  • 34: J.-H. Park, K. Yoshida, Y. Nakasu, S. Yokota, T. Seto and K. Takagi: A Resonantly-Driven Piezoelectric Micropump for Microfactory, Proc. 6th Int. Conf. Mechatronics Technology (ICMT 2002), Kitakyushu, Japan, pp. 417-422 (Sep. 29-Oct. 3, 2002)
  • 33: K. Yoshida, Y.-O. Jung and S. Yokota: A Microvalve Using MR Fluid Valve-Body, Proc. 6th Int. Conf. Mechatronics Technology (ICMT 2002), Kitakyushu, Japan, pp. 423-428 (Sep. 29-Oct. 3, 2002)
  • 32: K. Yoshida, H. Yano, J.-H. Park and S. Yokota: A Valve-Integrated Microactuator Using Homogeneous Electro-Rheological Fluid, Proc. 8th Mechatronics Forum Int. Conf. (Mechatronics 2002), Enschede, Netherlands, pp. 725-734 (Jun. 24-26, 2002)
  • 31: J.-H. Park, K. Yoshida, Y. Nakasu, S. Yokota, T. Seto and K. Takagi: Development of Resonantly-Driven Piezoelectric Micropump and Its Application to Micro Press, Proc. 8th Int. Conf. New Actuators (ACTUATOR 2002), Bremen, Germany, pp. 240-243 (Jun. 10-12, 2002)
  • 30: K. Yoshida, J.-H. Park, T. Shimizu and S. Yokota: Development of an In-Pipe Mobile Micromachine Using Homogeneous ER Fluid, Proc. The First Taiwan-Japan Workshop on Mechanical and Aerospace Engineering, Vol. 3, Tainan, Taiwan, pp. 871-882 (Dec. 19, 2001)
  • 29: K. Yoshida, J.-H. Park, T. Shimizu and S. Yokota: A Micropump-Mounted In-Pipe Mobile Micromachine Using Homogeneous Electro-Rheological Fluid, Proc. 3rd IFToMM Int. Micromechanism Symposium, Tokyo,Japan,pp. 2-7 (Sep. 10-11, 2001)
  • 28: K. Yoshida, M. Kikuchi, J.-H. Park and S. Yokota: A Micro ER Valve Fabricated by Micromachining, Technical Digest 14th IEEE Int. Conf. Micro Elecro Mechanical Systems (MEMS 2001), Interlaken, Switzerland, pp. 467-470 (Jan. 21-25, 2001)
  • 27: J.-H. Park, K. Yoshida and S. Yokota: Micro ER Valve Using Homogeneous ER Fluids and Its Application to Micro Fluid Control System, Proc. 2000 IEEE Int. Conf. Industrial Electronics, Control and Instrumentation (IECON-2000), Nagoya, Japan, pp. 1809-1814 (Oct. 22-28, 2000)
  • 26: J.-H. Park, K. Yoshida and S. Yokota: Micro Fluid Control System for Micromachines, Proc. 6th Triennial Int. Symp. on Fluid Control, Measurement and Visualization (FLUCOME 2000), Sherbrooke, Canada, (Aug. 13-17, 2000)
  • 25: S. Yokota, K. Yoshida and Y. Kondoh: A Pressure Control Valve Using MR Fluid, Proc. 4th JHPS Int. Symp. Fluid Power, Tokyo, Japan, pp. 377-380 (Nov. 15-17, 1999)
  • 24: K. Yoshida, S. Yokota and I. Watabe: A Real-Time Motion Stereo Vision Based on Brightness Difference, Proc. IEEE/RSJ Int. Conf. on Intelligent Robots and Systems (IROS’99), Kyongju, Korea, Vol. 1, pp. 77-82 (Oct. 17-21, 1999)
  • 23: J.-H. Park, K. Yoshida and S. Yokota: Micro Fluid Control System Using Homogeneous ER Fluids (Proposition of Micro ER Valve and Basic Experiments), Proc. IEEE/RSJ Int. Conf. on Intelligent Robots and Systems (IROS’99), Kyongju, Korea, Vol. 2, pp. 1063-1068 (Oct. 17-21, 1999)
  • 22: K. Yoshida, S. Yokota, T. Okayasu, Y. Otsubo and K. Edamura: A 1cm-Cubic-Size SMA-Driven Micropump Using ECF Jet Cooling, Proc. 3rd Int. Symp. on Fluid Power Transmission and Control (ISFP’99), Harbin, P. R. China, pp. 154-159 (Sep. 7-9, 1999)
  • 21: J.-H. Park, K. Yoshida and S. Yokota: Resonantly Driven Piezoelectric Micropump, Proc. 6th UK Mechatronics Forum Int. Conf. (Mechatronics ’98), Skovde, Sweden, pp. 441-446 (Sep. 9-11, 1998)
  • 20: S. Yokota, K. Yoshida, T. Kawaue, Y. Otsubo and K. Edamura: An SMA-Driven Micropump Using Electro-Conjugate Fluid Jet Cooling, Proc. 6th UK Mechatronics Forum Int. Conf. (Mechatronics ’98), Skovde, Sweden, pp. 453-458 (Sep. 9-11, 1998)
  • 19: K. Yoshida, K. Takahashi and S. Yokota: An In-Pipe Mobile Micromachine Using Fluid Power Adaptable to Pipe Diameters, Proc. 3rd Int. Conf. Advanced Mechatronics (ICAM’98), Vol. 1, Okayama, Japan, pp. 306-311 (Aug. 3-6, 1998)
  • 18: J.-H. Park, K. Yoshida and S. Yokota: A Piezoelectric Micropump Using Resonance Drive: Proposal of Resonance Drive and Basic Experiments on Pump Characteristics, Fluid Power Systems and Technology: Corrected Paper ASME 1997, FPST-Vol.4; DSC-Vol.63, Dallas, USA, pp. 77-82 (Nov. 16-21, 1997)
  • 17: Y. Kondoh, S. Yokota and K. Yoshida: A Control Valve by Making Use of an Electro-rheological Fluid (Fundamental Characteristics and Application to a Pressure Control Valve), Proc. 4th Int. Conf. on Fluid Power Transmission and Control (’97 ICFP), Hangzhou, P. R. China, pp. 71-76 (Sep. 9-11, 1997)
  • 16: J.-H. Park, S. Yokota and K. Yoshida: Piezoelectric Micropump Using Resonance Drive, Proc. 5th Triennial Int. Symp. on Fluid Control, Measurement and Visualization (FLUCOME'’97), Hayama, Japan, pp. 319-324 (Sep. 1-4, 1997)
  • 15: K. Yoshida, H. Mawatari and S. Yokota: An In-Pipe Mobile Micromachine Using Fluid Power Traversable Branched Pipes, Proc. the Third JHPS Int. Symp. on Fluid Power Yokohama ’96, Yokohama, Japan, pp. 229-234 (Nov. 4-6, 1996)
  • 14: S. Yokota, K. Yoshida, Y. Otsubo and K. Edamura: A Micromotor Using a Kind of Dielectric Fluids, Conference Record of the 1996 IEEE Industry Applications Society 31st IAS Annual Meeting, San Diego, USA, Vol. 3, pp. 1749-1754 (Oct. 6-10, 1996)
  • 13: S. Yokota, Y. Kondoh and K. Yoshida: A Pressure Control Valve in Application of an Electro-rheological Fluid (Application to Drive a One-link Manipulator), 9th Bath Int. Fluid Power Workshop, Bath, UK, (Sep. 9-11, 1996)
  • 12: Y. Kondoh, S. Yokota and K. Yoshida: A Mini Valve in Application of Electro-Rheological Fluids, Preprints of 13th World Congress of IFAC, San Francisco, USA, Vol. A, pp. 493-498 (Jun. 30-Jul. 5, 1996)
  • 11: S. Yokota, K. Yoshida, K. Bandoh and M. Suhara: Response of Proportional Valve Using Shape-Memory-Alloy Array Actuators, Preprints of 13th World Congress of IFAC, San Francisco, USA, Vol. A, pp. 505-510 (Jun. 30-Jul. 5, 1996)
  • 10: K. Yoshida, S. Yokota, K. Bandoh and M. Suhara: Development of a Small-Size Proportional Valve Using Shape-Memory-Alloy Array Actuators, Proc. of The 2nd Int. Symp. on Fluid Power Transmission and Control (ISFP’95), Shanghai, China, pp. 77-82 (Oct. 5-7, 1995)
  • 9: Y. Kondoh, S. Yokota, K. Yoshida and K. Edamura: A Fluid Control Valve Making Use of Electro-Rheological Fluid, Proc. The 4th Scandinavian Int. Conf. on Fluid Power, Tampere, Finland, Vol. 2, pp. 830-841 (Sep. 26-29, 1995)
  • 8: K. Yoshida, J. Shinohara and S. Yokota: A Study on a Micro-Actuator Using Fluid Power ( An Application to an In-Pipe Mobile Machine ), Proc. IFAC Int. Workshop on Trends in Hydraulic and Pneumatic Components and Systems, Chicago, USA, Vol. 2, (Nov. 8-9, 1994)
  • 7: K. Yoshida and S. Yokota: Study on High-Power Micro-Actuator Using Fluid Power, Preprints of the 6th Int. Conf. on Flow Measurement (FLOMEKO’93), Vol. 1, Seoul, Korea, pp. 122-130 (Oct. 25-29, 1993)
  • 6: T. Hayashi, K. Yoshida, Y. Terashima and Y. Ono: High-Absorptive Electrolytic Polymer-Gel Actuator, Proc. 1st IFToMM Int. Micromechansim Symp., Tokyo, Japan, pp. 70-74 (Jun. 1-3, 1993)
  • 5: K. Yoshida and S. Hirose: Real-Time Stereo Vision with Multiple Arrayed Camera, Proc. 1992 IEEE Int. Conf. Robotics and Automation, Nice, France, Vol. 2, pp. 1765-1770 (May 12-14, 1992)
  • 4: Y. Ono, T. Hayashi and K. Yoshida: The Gel-motor Using High-absorptive Electrolytic Polymer-gel, 2nd Symp. on Polymer Gels Preprints, Tsukuba, Japan, p. 125 (Dec. 10, 1991)
  • 3: Y. Terashima, T. Hayashi and K. Yoshida: Artificial Caterpillar made of High Water Absorbent Electrolytic Polymer-Gel, 2nd Symp. on Polymer Gels Preprints, Tsukuba, Japan, p. 126 (Dec. 10, 1991)
  • 2: T. Hayashi and K. Yoshida: Traveling Micromechanism, Proc. of 8th World Congress on the Theory of Machines and Mechanisms, Prague, Czechoslovakia, Vol. 6, pp. 59-62 (Aug. 26-31, 1991)
  • 1: K. Yoshida and S. Hirose: Laser Triangulation Range Finder Available under Direct Sunlight, Proc. 1988 IEEE Int. Conf. Robotics and Automation, Philadelphia, USA, Vol. 3, pp. 1702-1708 (Apr. 24-29, 1988)

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