[1] Qingjiu Huang, Hirotoshi Arihara, Hideki Kinugawa, Masaru Morikawa:
Proposal of Six-Legged Mini Shovel and Its Mechanism Design and Walking Analysis Based on Static Analysis and CAD Dynamic Model, Advanced Robotics, Vol.25, No.9-10, 2011 (Scheduled publish)[2] Yan Peng, Mei Liu, Qingjiu Huang, Shaorong Xie:
A Continuous Control for Stabilizing the Extended Nonholonomic Double Integrator, Special Issue on Functional Manufacturing Technologies and Ceeusro, Key Engineering Materials, Trans Tech Publications Ltd., Vol. 464 , pp 217-220, 2010[3] Yan Peng, Mei Liu, Qingjiu Huang, Jun Luo:
Modeling and Control of Unmanned Trimaran Vehicles, Special Issue on Advance in Mechatronics Technology, Applied Mechanics and Materials, Trans Tech Publications Ltd., Vol. 43, pp 541-545, 2010[4] Yan Peng, Qingjiu Huang, Yuqing He, Jianda Han:
Active Modeling Based Course Control of Unmanned Surface Vehicles, ICIC Express Letters, An International Journal of Research and Surveys on Innovative Computing, Information and Control, Vol.3, No.3(B), pp.579-584, 2009[5] 長谷岳誠, 黄慶九, 小野京右:
2足歩行ロボットの最適軌道計画解(第5報,足首関節トルク付与による歩行性能の向上), 日本機械学会論文集,C編,Vol.75,No.758,pp.2719-2728, 2009[6] 長谷岳誠, 黄慶九, 小野京右:
2足歩行ロボットの最適軌道計画解(第4報,円弧足付きモデルの歩行性能解析), 日本機械学会論文集,C編,Vol.75,No.758,pp.2709-2718, 2009[7] Yan Peng, Jianda Han, Qingjiu Huang: (Recommended by IJICIC)
Adaptive UKF Based Tracking Control for Unmanned Trimaran, International Journal of Innovative Computing, Information and Control, Vol.5, No.12(B), pp.3505-3515, 2009[8] Wenchuan Jia, Xuedong Chen, Qingjiu Huang, Yi Sun, Xin Luo, Jiaqiang Xu:
Reptile-inspired Biomimetic Modeling Control Actuated by Behaviors, Special Issue on Biomimetic Robotics, Advanced Robotics, Vol.23, No.7-8, pp.847-864, 2009[9] Qingjiu Huang, Kazumichi Oka: (Selected form ICICIC2007)
Phased Compliance Control with Virtual Force for Six-legged Walking Robot, Special Issue on New Trends in Advanced Control and Applications, International Journal of Innovative Computing, Information and Control, Vol.4, No.12, pp.3359-3373, 2008[10] Wei Jiang, Xuedong Chen, Xin Luo, Qingjiu Huang:
Symbolic Formulation of Large-scale Open-loop Multibody Systems for Vibration Analysis Using Absolute Joint Coordinates, Journal of System Design and Dynamics, the JSME Dynamics, Measurement and Control Division, Vol.2, No.4, pp.1015-1026, 2008[11] Xuedong Chen, Yi Sun, Qingjiu Huang, Wenchuan Jia, Huayan Pu:
Development of Multi-Legged Walking Robot Using Reconfigurable Modular Design and Biomimetic Control Architecture, Journal of System Design and Dynamics, the JSME Dynamics, Measurement and Control Division, Vol.2, No.1, pp.401-412, 2008[12] 黄慶九, 前田浩和, 小野京右:
2足歩行機構の受動・能動融合形歩行(第1報,受動・能動融合形アクチュエータの開発と2足歩行機構への適用), 日本機械学会論文集,C編,Vol.73,No.734,pp.2765-2773,2007[13] Qingjiu Huang, Yasuyuki Fukuhara, Xuedong Chen:
Posture and Vibration Control Based on Virtual Suspension Model Using Sliding Mode Control for Six-Legged Walking Robot, Special Issue on New Trends of Motion and Vibration Control, Journal of System Design and Dynamics, the JSME Dynamics, Measurement and Control Division, Vol.1, No.2, pp.180-191, 2007[14] Qingjiu Huang, Takamasa Hase, Kyosuke Ono: (Recommended by JSDD)
Optimal Trajectory Planning Method Using Inequality State Constraint for Biped Walking Robot with Upper Body Mass, Special Issue on New Trends of Motion and Vibration Control, Journal of System Design and Dynamics, the JSME Dynamics, Measurement and Control Division, Vol.1, No.2, pp.168-179, 2007[15] 長谷岳誠, 黄慶九, 小野京右:
2足歩行ロボットの最適軌道計画解(第3報,不等式拘束条件の適用・実験による検証), 日本機械学会論文集,C編,Vol.72,No.721,小特集-運動と振動の制御の21世紀への新展開, pp.2845-2852,2006[16] Qing-Jiu Huang, Kenzo Nonami:
Humanitarian Mine Detecting Six-Legged Walking Robot and Hybrid Neuro Walking Control with Position/Force Control, Special Issue on Computational Intelligence in Mechatronic Systems, Mechatronics, Elsevier, Vol.13, No.8-9, pp.773-790, 2003[17] K. Nonami, Q. Huang, D. Komizo, Y. Fukao, Y. Asai, Y. Shiraishi, M. Fujimoto, Y. Ikeda:
Development and Control of Mine Detection Robot COMET-II and COMET-III, JSME International Journal, Series C, Vol.46, No.3, pp.881-890, 2003[18] Qing-Jiu Huang, Kenzo Nonami:
Neuro-Based Position and Force Hybrid Control of Six-Legged Walking Robot, Special Issue on Modern Trends on Mobile Robotics, Journal of Robotics and Mechatronics, Vol.14, No.4, pp.534-543, 2002[19] Qing-Jiu Huang, Kenzo Nonami, Hiroaki Uchida, Yoshihiko Iguchi, Takaaki Yanai:
CAD Model Based Autonomous Locomotion of Quadruped Robot by Using Correction of Trajectory Planning with RNN, Special Issue on Frontiers of Motion and Vibration Control, JSME International Journal, Series C, Vol.43, No.3, pp.653-663, 2000[20] 内田洋彰, 野波健蔵, 井口良彦, 黄慶九, 家内孝彰:
自己修復機能を有する4足歩行ロボットの部分モデルベース型歩行制御,日本機械学会論文集,C編, Vol.66,No.646,pp.1867-1875,2000
[1] Qingjiu Huang, Hagiwara Ichiro (As invited authors):
PID Control,
Neural-PID Control Scheme for Adaptive Visual Tracking,
Published by Advanced Robotic Systems International and In-Tech, 2011
(ISBN 978-953-307-267-8) (Accepted)[2] Qingjiu Huang (As invited author):
Climbing and Walking Robots,
Chapter 20, Softly Stable Walk Using Phased Compliance Control with Virtual Force for Multi-Legged Walking Robot,
Published by Advanced Robotic Systems International and In-Tech, pp.333-350, 2009
(ISBN 978-953-307-030-8)[3] Qingjiu Huang (As invited author):
Bioinspiration and Robotics - Walking and Climbing Robots,
Chapter 4, Posture and Vibration Control Based on Virtual Suspension Model for Multi-Legged Walking Robot,
Published by Advanced Robotic Systems International and In-Tech, pp.51-68, 2007
(ISBN 978-3-902613-15-8)[4] Qingjiu Huang, Kyosuke Ono (As invited authors):
Humanoid Robots - New Developments,
Chapter 19, Energy-Efficient Walking for Biped Robot Using Self-Excited Mechanism and Optimal Trajectory Planning,
Published by Advanced Robotic Systems International and In-Tech., pp.321-342, 2007
(ISBN 978-3-902613-00-4)
[1] 高速高精度な接触作業に適用するロボット制御システム,ロボット制御方法,ロボット制御装置,およびプログラム; 特願2009-219150 (2009/9/24 [出願]) [2] 省エネルギー型ロボット関節駆動制御システム; 特願2009-214481 (2009/9/16 [出願]) [3] 横滑りや横転の防止、姿勢制御システム、車両、制御方法およびプログラム; 特願2009-207430 (2009/9/8 [出願]) [4] 多関節ロボットシステム、多関節ロボット、力測定モジュール、力測定方法およびプログラム; 特願2009-206803 (2009/9/8 [出願]) [5] 脚式移動作業装置; 特願2007-275973 (2007/10/24 [出願]);特開2009-101469 (2009/05/14 [公開]) [6] 逐次検索法による6自由度ロボットアームの逆運動学、およびそれを使用するロボットのシステム、制御方法、プログラム; 特願2006-212104 (2006/03/15 [出願]);特開2008-036742 (2008/02/21 [公開])
[1] 2005.04 日本機械学会研究奨励賞 [2] 2005.11 中国留日同学会優秀論文賞
[1] Yan Peng, Qingjiu Huang, Yuqing He, Jianda Han:
Active Modeling Based Course Control of Unmanned Surface Vehicles, 2009 International Symposium on Intelligent Informatics, 2009[2] Qingjiu Huang, Ryota Enomoto:
Hybrid Position, Posture, Force and Moment Control of Robot Manipulators, Proceedings of the 2008 IEEE International Conference on Robotics and Biomimetics, pp.1444-1450, Dec. 2008[3] Takamasa Hase, Qingjiu Huang, Xuedong Chen:
Performance Analysis of Biped Walking Robot with Circular Feet using Optimal Trajectory Planning Method, Proceedings of the 2008 IEEE International Conference on Robotics and Biomimetics, pp.143-148, Dec. 2008[4] Yan Peng, Jianda Han, Qingjiu Huang:
Adaptive UKF Based Tracking Control for Unmanned Trimaran Vehicles, Proceedings of 2008 International Symposium on Intelligent Informatics, Dec. 2008[5] Qingjiu Huang, Nan Li, Liucun Zhu, Yichiro Hagiwara:
A Hybrid Neural-PID Control Scheme for Adaptive Visual Tracking, Proceedings of the 2007 International Conference on Innovative Computing, Information and Control, CD-ROM No.C22-05, June 2008[6] Qingjiu Huang, Hirotoshi Arihara, Hideki Kinugawa, Masaru Morikawa:
Mechanism Design and Walking Analysis Based on CAD Dynamic Model for Development of Six-legged Mini Shovel, Proceedings of the 2007 IEEE International Conference on Robotics and Biomimetics, pp.1606-1611, Dec. 2007[7] Qingjiu Huang, Takamasa Hase, Kyosuke Ono (Best Paper Award Finalist):
Passive/Active Unified Dynamic Walking for Biped Locomotion, Proceedings of the 2007 IEEE International Conference on Robotics and Biomimetics, pp.964-971, Dec. 2007[8] Minghua Luo, Qingjiu Huang, Tieling Zhang:
A Mathematical Model of Six-Axis Force/Moment Sensor and Its Applied Control Method for Robot Finger, Proceedings of the 2007 IEEE International Conference on Robotics and Biomimetics, pp.1960-1965, Dec. 2007[9] Liangwen Wang, Xuedong Chen, Qingjiu Huang, Xinjie Wang and Ping Guo:
Error Analysis of Multi-legged Walking Robots Based on Forward Kinematics, Proceedings of the 2007 IEEE International Conference on Robotics and Biomimetics, pp.1172-1177, Dec. 2007[10] Qingjiu Huang, Kazumichi Oka:
Phased Compliance Control With Virtual Force for Six-legged Walking Robot, Proceedings of the 2007 International Conference on Innovative Computing, Information and Control, CD-ROM No.B23-04, Sept. 2007[11] Qingjiu Huang:
Sliding Mode Control Based on Virtual Suspension Model for Controlling Posture and Vibration of Six-Legged Walking Robot, Proceedings of the 2006 IEEE International Conference on Robotics and Biomimetics, pp.642-647, Dec. 2006[12] Qingjiu Huang, Takamasa Hase:
Energy-Efficient Trajectory Planning for Biped Walking Robot, Proceedings of the 2006 IEEE International Conference on Robotics and Biomimetics, pp.648-653, Dec. 2006[13] Takamasa Hase, Qingjiu Huang:
Energy-Efficient Trajectory Planning using Inequality State Constraint for Biped Walking Robot with Upper Body Mass, Proceedings of the 2006 IEEE/RSJ International Conference on Intelligent Robots and Systems, pp.5913-5918, Oct. 2006[14] Qingjiu Huang, Yasuyuki Fukuhara:
Posture and Vibration Control Based on Virtual Suspension Model Using Sliding Mode Control for Six-Legged Walking Robot, Proceedings of the 2006 IEEE/RSJ International Conference on Intelligent Robots and Systems, pp.5232-5237, Oct. 2006[15] Takamasa Hase, Qingjiu Huang:
Optimal Trajectory Planning Method 5for Biped Walking Robot Based on Inequality State Constrain, Proceedings of the 36th International Symposium on Robotics, CD-ROM No.WE413, Nov. 2005[16] Qingjiu Huang, Yasuyuki Fukuhara:
Posture and Vibration Control Based on Virtual Suspension Dynamic Model of Six-Legged Walking Robot for Rough Terrain Walking, Proceedings of the 36th International Symposium on Robotics, CD-ROM No.WE411, Nov. 2005[17] Qingjiu Huang, Masayoshi Yanai, Kenzo Nonami, Kyosuke Ono:
Robust Control of Posture and Vibration Based on Virtual Suspension Model for Six-Legged Walking Robot, Proceedings of 7th international conference of Motion and Vibration Control, CD-ROM No.41, Aug. 2004[18] Qingjiu Huang, Kenzo Nonami:
Neuro-Based Position and Force Hybrid Control of Six-Legged Walking Robot, Proceedings of the 1th Asian Conference on Multibody Dynamics, pp.160-167, July 31-August 2, 2002[19] Kenzo Nonami, Qing-Jiu Huang, Daisuke Komizo, Yoichiro Fukao, Yoshitomo Asai, Yoshinori Shiraishi, Masaki Fujimoto, Yosuke Ikedo:
Development of Mine Detection Six-Legged Walking Robot COMET-II and COMET-III, Proceedings of the 6th International Conference on Motion and Vibration Control, August 20, 2002[20] K. Nonami, Q.J. Huang:
Humanitarian Mine Detection Six-Legged Walking Robot COMET-II with Two Manipulators, Proceedings of 4th International Conference on Climbing and Walking Robots, pp.989-996, Sept. 2001[21] Hiroaki Uchida, Qing-Jiu Huang, Daisuke Komizo, Nobuhiro Shimoi and Kenzo Nonami: Attitude Control and Recognizing Environment for Six-legged Locomotion Robot Using Piching and Rolling Moments at Foot, Proceedings of the Fifth International Conference on Motion and Vibration Control, pp.305-310, December 4-8, 2000 [22] Hiroaki Uchida, Nobuhiro Shimoi, Qing-Jiu Huang, Daisuke Komizo and Kenzo Nonami:
Force/Attitude Control of Mine Detecting Six-legged Locomotion Robot, Proceedings of the 2000 IEEE/RSJ International Conference on Intelligent Robots and Systems, pp.780-785, October 31- November 5, 2000[23] Kenzo Nonami, Nobuhiro Shimoi, Qing-Jiu Huang, Daisuke Komizo and Hiroaki Uchida:
Development of Teleoperated Six-legged Walking Robot for Mine Detection and Mapping of Mine Field, Proceedings of the 2000 IEEE/RSJ International Conference on Intelligent Robots and Systems, pp.775-779, October 31- November 5, 2000[24] Kenzo Nonami, Qing-Jiu Huang, Daisuke Komizo, Hiroaki Uchida and Nobuhiro Shimoi:
Humanitarian Mine Detection Six-Legged Walking Robot, Proceedings of the Third International Conference on Climbing and Walking Robots, pp.861-868, October 2-4, 2000[25] Hiroaki Uchida, Kenzo Nonami, Yoshihiko Iguchi, Qing-Jiu Huang and Takaaki Yanai: Partial Model Based Walking Control of Quadruped Locomotion Robot with Self Renovation Control Function, DETC99/MOVIC-8432, Proceedings on 1999 ASME Design Engineering Technical Conference, pp.1-6, Sept. 1999 [26] Q.J. Huang, K. Nonami, H. Uchida, Y. Iguchi, T. Yanai: CAD Based Autonomous Locomotion of Quadruped Robot by Using Recurrent Neural Network, Proceedings of Pioneering International Symposium on Motion and Vibration Control in Mechatronics, pp.157-162, April 6-7,1999
[1] 劉成, 黄慶九, 萩原一郎:
6脚移動ロボットの姿勢に関するモデリング,日本機械学会ロボティクス・メカトロニクス講演会2010(ROBOMEC2010),CD-ROM論文集,No. RM10-0223,旭川,2010[2] 黄慶九:
振り子モデルベースの車体姿勢制御による高速走行中の動的安定,2009年秋季大会学術講演会,自動車技術会,学術講演会前刷集No.126-09,2009[3] 長谷岳誠, 黄慶九:
最適軌道計画による円弧足付き2足歩行機構の歩行性能解析,第26回日本ロボット学会学術講演会,日本ロボット学会,CD-ROM論文集, No.102-04,2008[4] 黄 慶九, 門田和也, 西永 嘉浩:
位置・姿勢・力・モーメントのハイブリッド制御の研削作業ロボットへの適用,Dynamics and Design Conference 2008, 日本機械学会,2008[5] 黄 慶九, 在原広敏, 絹川秀樹, 森川勝:
6脚小型ショベルの脚機構の最適設計,Dynamics and Design Conference 2008,日本機械学会,2008[6] 黄慶九, 新憲一郎:
2足歩行機構の受動能動融合型歩行,Dynamics and Design Conference 2007,日本機械学会,CD-ROM論文集,No.239,2007[7] 黄慶九, 榎本良太:
6自由度マニピュレータの位置・姿勢・力・モーメントのハイブリッド制御 (任意方向の実現およびRPY型実機での検証),第10回「運動と振動の制御」シンポジウム論文集,日本機械学会,pp.322-327,2007[8] 在原広敏, 黄慶九, 絹川秀樹, 森川勝:
建築用6脚小型ショベルの研究開発 (CAD力学モデルによる機構設計と歩行の挙動解析),第10回「運動と振動の制御」シンポジウム論文集,日本機械学会,pp.344-349,2007[9] 新憲一郎, 黄慶九, 山浦弘:
受動・能動融合型アクチュエータの開発と2足歩行機構への適応,Dynamics and Design Conference 2006,日本機械学会,CD-ROM論文集,No.559,2006[10] 榎本良太, 黄慶九, 山浦弘:
逐次検索法による6自由度マニピュレータの逆運動学,Dynamics and Design Conference 2006,日本機械学会,CD-ROM論文集,No.554,2006[11] 黄慶九, 福原康之:
バーチャル力学モデルに基づく6足歩行ロボットの姿勢と振動のロバスト制御,第19回バイオメカニズムシンポジウム講演論文集,バイオメカニズム学会,pp.71-82,2005[12] 長谷岳誠, 黄慶九, 小野京右:
不等式拘束条件を用いた2足歩行機構の最適軌道計画,Dynamics and Design Conference 2005,日本機械学会,CD-ROM論文集,No.518,2005[13] 黄慶九, 斉藤邦彦, 野波健蔵:
6自由度マニピュレータ手先の位置・姿勢・力・モーメントのハイブリッド制御,第9回「運動と振動の制御」シンポジウム論文集,日本機械学会,pp.481-486,2005[14] 長谷岳誠, 黄慶九, 彭春野, 小野京右:
最小エネルギー2足歩行機構の研究,Dynamics and Design Conference 2004,日本機械学会,CD-ROM論文集,No.,2004[15] 谷内正芳, 黄慶九, 野波健蔵, 小野京右:
CADモデルベースの不整地歩行用6足歩行ロボット開発およびアクティブサスペンションの制御,第21回日本ロボット学会学術講演会,日本ロボット学会,CD-ROM論文集,No.2G21,2003[16] 谷内正芳, 黄慶九, 野波健蔵, 山浦弘:
不整地用6足歩行ロボットのサスペンション制御(バーチャル力学モデルに基づく6足歩行ロボットのサスペンションのロバスト制御),第8回「運動と振動の制御」シンポジウム論文集,日本機械学会,pp.200-205,2003[17] 黄慶九, 野波健蔵:
6足歩行ロボットの位置と力のハイブリッド制御,先端的制御技術とその応用:学習制御・同定,Dynamics and Design Conference 2002,日本機械学会,2002年9月[18] 野波健蔵, 黄慶九, 小溝大介, 深尾洋一郎, 辛振玉, 藤原大悟, 浅井祥朋, 内田洋彰:
人道的地雷探知のためのパワーユニットを有する自律型6足歩行ロボットCOMET-IIの開発と自律型ラジコンヘリコプターの研究,第19回日本ロボット学会学術講演論文集,日本ロボット学会,2001年9月[19] 黄慶九, 野波健蔵, ほか:
地雷探知用6足歩行ロボットCOMET-IIの位置と力のハイブリッド型ニューロ歩行制御,第19回日本ロボット学会学術講演論文集,pp. 319-320,2001年9月[20] 野波健蔵, 黄慶九, 小溝大介, 深尾洋一郎, 内田洋彰, 下井信浩:
地雷探知6足歩行ロボットによる地雷探知の研究,対人地雷の人道的探知・処理に関するワークショップ,日本学術会議,2001年4月[21] 内田洋彰, 野波健蔵, 小溝大介, 黄慶九, 下井信浩:
地雷探知用6足歩行ロボットの未知環境適応型力・姿勢制御,第18回日本ロボット学会学術論文集,pp.1127-1128,2000年9月[22] 黄慶九, 野波健蔵, 小溝大介,下井信浩, 内田洋彰:
ニューロ階層制御を用いた地雷探知用6足歩行ロボットの運動制御, 第18回日本ロボット学会学術論文集,pp.153-154,2000年9月[23] 野波健蔵, 下井信浩, 内田洋彰, 黄慶九, 小溝大介, 辛振玉, 戸栗直貴, 河野騰:
地雷探知用6足歩行ロボットとラジコンへリロボットの開発,Dynamics & Design Conference 2000,日本機械学会,CD-ROM論文集,No.107,2000年9月[24] 下井信浩, 黄慶九, 小溝大介, 内田洋彰, 野波健蔵:
地雷探知用6足歩行ロボットの開発(第1報,基本概念とメカニズム),ロボティックス・メカトロニクス講演会2000,日本機械学会,CD-ROM論文集,No.2P1-44-069,2000年5月[25] 黄慶九, 小溝大介, 内田洋彰,下井信浩, 野波健蔵:
地雷探知用6足歩行ロボットの開発(第2報,モデリングと制御),ロボティックス・メカトロニクス講演会2000,日本機械学会,CD-ROM論文集,No.2P1-44-070,2000年5月[26] 小溝大介, 黄慶九, 内田洋彰, 下井信浩, 野波健蔵:
地雷探知用6足歩行ロボットの運動制御とCAEシミュレーション,第42回自動制御連合講演会前刷り集,計測自動制御学会,pp.95-96,1999年11月[27] 井口良彦, 黄慶九, 内田洋彰, 家内孝彰, 野波健蔵:
CAD支援型4足歩行ロボットの可変速・階段昇降歩行,Dynamics and Design Conference'99講演論文集(B),日本機械学会,pp.101-104,1999年3月[28] 内田洋彰, 野波健蔵, 井口良彦, 黄慶九, 家内孝彰:
耐故障性を考慮した4足歩行ロボットの分散・集中補償器による協調制御,第6回運動と振動の制御シンポジウム講演論文集,日本機械学会,pp.245-250,1999年3月[29] 黄慶九, 野波健蔵, 内田洋彰, 井口良彦, 家内孝彰:
リカレントニューラルネットワークを用いたCADベース4足歩行ロボットの自律歩行,第6回「運動と振動の制御」シンポジウム講演論文集,日本機械学会,pp.239-244,1999年3月[30] 井口良彦, 野波健蔵, 内田洋彰, 黄慶九, 家内孝彰:
歩行速度を指令値にもつ4足歩行ロボットの歩行制御,第76期全国大会講演会,日本機械学会,pp.63-64,1998年10月[31] 内田洋彰, 野波健蔵, 井口良彦, 黄慶九, 家内孝彰:
姿勢制御を用いた4足歩行ロボットの不整地歩行,第76期全国大会講演会,日本機械学会,pp.61-62,1998年10月[32] 黄慶九, 野波健蔵, 内田洋彰, 井口良彦, 家内孝彰:
階層N.N.構造を有する4足歩行ロボットの自律制御,第76期全国大会講演会,日本機械学会,pp.667-68,1998年10月
[1] Qingjiu Huang (As invited speaker):
Modern Trends on Dynamics and Control of Vehicles and Industrial Robots, Research Workshop of the School of Mechanical Engineering of Huazhong University of Science and Technology, Aug. 2008[2] Qingjiu Huang (As invited speaker):
How to Solve the Inverse Kinematics of Robotics, Research Workshop of Zhengzhou University of Light Industry, Aug. 2008[3] Qingjiu Huang (As invited speaker):
Chassis Control of Automobile and Its Stability of High Speed Operation, Proceedings of 2008 Japan-China Automotive Technology Forum with Industry-Academics Co-operation, Apr. 2008[4] Qingjiu Huang (As invited speaker):
New Trends in Advanced Control and Applications of Robotics, Research Workshop of the School of Mechanical Engineering of Yangzhou University, Nov. 2007[5] Akira Watanabe, Qingjiu Huang (As invited speakers):
The Safety and Reliability of Automobile Development, Workshop of 2007 Nanjing Foreign Expert Week, No. 1, Sep. 2007