[1]黄真, 李秦川. 少自由度并联机器人机构的型综合原理[J]. 中国科学E辑:技术科学, 2003, 33(9): 813-819.
Huang Zhen, Li Qinchuan. Type Synthesis Theory of Lower-mobiliy Parallel Robot Mechanism[J]. Science China: Technological Sciences, 2003, 33(9): 813-819.
[2]陈红亮, 罗玉峰, 杨廷力. 对称三自由度并联机器人拓扑结构型综合与分类[J]. 农业机械学报, 2008, 39(1): 138-141.
Chen Hongliang, Luo Yufeng, Yang Tingli. Structure Design Sort of Parallel Robot Mechanism with Symmetric 3-DOF[J]. Transactions of the Chinese Society for Agricultural Machinery, 2008, 39(1): 138-141.
[3]金琼, 杨廷力, 刘安心, 等. 基于单开链单元的三平移一转动并联机器人机构型综合及分类[J]. 中国机械工程, 2001, 12(9): 1038-1043.
Jin Qiong, Yang Tingli, Liu Anxin, et al. Structural Synthesis and Classification of the 4DOF(3T-1R)Parallel Robot Mechanisms Based on the Units of Single-Opened-Chain[J]. China Mechanical Engineering, 2001, 12(9): 1038-1043.
[4]曾达幸, 黄真. 基于螺旋理论的转动解耦并联机构型综合[J]. 中国科学E辑: 技术科学, 2011,41 (5): 585-591.
Zeng Daxing, Huang Zhen. Type Synthesis of the Rotational Decoupled Parallel Mechanism Based on Screw Theory[J]. Science China: Technological Sciences, 2011, 41(5): 585-591.
[5]曾达幸, 胡志涛, 侯雨雷, 等. 基于螺旋理论的两转一移解耦并联机构型综合[J]. 燕山大学学报, 2014, 38(1): 22-28.
Zeng Daxing, Hu Zhitao, Hou Yulei, et al. Type Synthesis of 2R1T Decoupled Parallel Mechanismbased on Screw Theory[J]. Journal of Yanshan University, 2014, 38(1): 22-28.
[6]Briot S, Bonev I A. A New 3T1R Decoupled Parallel Manipulator for Pick-and-place Applications[J]. Mechanism and Machine Theory, 2010,45(4): 707- 721.
[7]蔡伟林, 熊涛, 尹周平. 基于螺旋理论的转动解耦调平机构型综合[J]. 中国机械工程, 2012, 23(18): 2213-2217, 2242.
Cai Weilin, Xiong Tao, Yin Zhouping. Type Synthesis of a Rotational Decoupled Leveling Mechanism Based on Screw Theory[J]. China Mechanical Engineering, 2012, 23(18): 2213-2217, 2242.
[8]许允斗, 姚建涛, 赵永生. 基于螺旋理论的锻造操作机构型综合[J]. 中国机械工程, 2011, 22(13): 1540-1545.
Xu Yundou, Yao Jiantao, Zhao Yongsheng. Type Synthesis of Forging Manipulators Based on Screw Theory[J]. China Mechanical Engineering, 2011, 22(13): 1540-1545.
[9]裴旭, 于靖军, 毕树生, 等. 一维远程运动中心机构的型综合[J]. 机械工程学报, 2009, 45(2): 144-148.
Pei Xu, Yu Jingjun, Bi Shusheng, et al. Type Synthesis for One-dimensional Remote-center-of- motion Mechanisms[J].Journal of Mechanical Engineering, 2009, 45(2): 144-148.
[10]于靖军, 毕树生, 宗光华, 等. 面向生物工程的微操作机器人机构型综合研究[J]. 北京航空航天大学学报, 2001,27(3): 356-360.
Yu Jingjun, Bi Shusheng, Zong Guanghua, et al. Research on Type Synthesis of Micromanipulation Mechanisms for Bioengineering[J]. Journal of Beijing University of Aeronautics and Astronautics, 2001,27(3): 356-360.
[11]Baccile A, Ceccarini D, Cheng L, et al. An Innovative Control System for a 2/4 Stroke Switchable Engine[J].SAE Technical Paper, 2007011199, 2007.
[12]RICARDO. Engine Uses Two and Four Stroke[J]. Professional Engineering, 2008(5): 55.
[13]Di Liming, Sun Wanli, Shi Ying, et al. Cam Profile Optimization Design of Variable Cycle Reciprocating Piston Engine[J]. Hydromechatronics Engineering, 2014, 42(6): 11-18, 45.
[14]邸立明, 李文跃, 赵永生, 等. 基于全转速综合性能评价的可变循环发动机配气优化[J]. 机械工程学报, 2012, 48(18): 117-123.
Di Liming, Li Wenyue, Zhao Yongsheng, et al. Distribution Device Optimization of Variable-cycle Engine Based on Comprehensive Performance Evaluation in All Speed[J]. Journal of Mechanical Engineering, 2012, 48(18): 117-123.
[15]Di Liming, Yang Chunjing, Zhao Yongsheng. Mathematical Model for Closed-form Solution of Parameters of Cylinder Exhaust Port in Variable-stroke Engine[J]. Advanced Materials Research, 2010, 97-101: 2724-2727.
[16]Philippe S F, Laffiitte M, Peter B, et al. Variable Cam Phase Apparatus: US, 20070169731[P]. 2007-7-26.
[17]邱显东, 骆军, 王燕文. 一种汽车发动机气门可变相位机构: CN 101338689-A[P]. 2009-01-07.
[18]周玉林, 李波, 高峰, 等. 二自由度球面并联机构UP+R静力学分析[J]. 中国机械工程, 2013, 24(15): 2081-2087.
Zhou Yulin, Li Bo, Gao Feng, et al. Statics Analysis of a Spherical Parallel Mechanism UP+R with 2-DOF[J]. China Mechanical Engineering, 2013, 24(15): 2081-2087.
[19]张雪峰, 张庆灵. 线性时变周期系统的能控性与能稳定性问题[J]. 系统工程与电子技术, 2010,32(4):812-815.
Zhang Xuefeng, Zhang Qingling. Problem on Controllability and Stabilizability of Linear Time-varying Periodic System[J]. Systems Engineering and Electronics, 2010, 32(4):812-815.
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