网络资源检索第三次作业.doc

1、检索课题名称：重大装备中的动力学、振动与控制问题2、课题分析：中文关键词: 1.动力学 2.振动 3.控制 4.重大装备英文关键词: （1）. Dynamics（2）. Vibration （3）. Control（4）important equipment3、选择检索工具：外文电子期刊4、构建检索策略：Dynamics * Vibration *Control* important equipment5、简述检索过程:选择快速检索，输入检索词：第一、Dynamics；第二、Vibration；第三、Control;第四、important equipment 检索结果10706篇6、根据检索结果选择3 条记录根据检索结果，浏览题录可以确定该文献的收藏单位（图书馆或情报所、信息中心等），从而 可以进一步确定是否索取或借阅、复制原文。SearchResults：10706 records in Compendex for 2000-20121. Uncertainty modeling of structural dynamics for robust vibration controlWang, Feng(Computational Aerodynamics Institute, China Aerodynamics Research and Development Center, Mianyang 621000, China);Li, Dao-Kui;Lei, Yong-JunSource:Zhendong yu Chongji/Journal of Vibration and Shock, v 28, n 10, p 126-131, October 2009Language:ChineseDatabase:CompendexAbstract - Detailed2. Stewart platform vibration control strategy based on dynamicsYang, Yu(School of Mechanics Engineering, Harbin Institute of Technology, Harbin 150001, China);Zheng, Shutao;Han, JunweiSource:Nongye Jixie Xuebao/Transactions of the Chinese Society of Agricultural Machinery, v 41, n 6, p 20-24, June 2010Language:ChineseDatabase:CompendexAbstract - Detailed - Cited by in Scopus (1)3. A general dynamics and control model of a class of multi-DOF manipulators for active vibration controlYun, Yuan(Department of Electromechanical Engineering, Faculty of Science and Technology, University of Macau, Av. Padre Toms Pereira, Taipa, Macao SAR, China);Li, YangminSource:Mechanism and Machine Theory, v 46, n 10, p 1549-1574, October 2011Database:CompendexAbstract - DetailedSelectedRecords阅读文摘：Record 1 from Compendex for: (Dynamics) WN KY) AND (Vibration) WN KY) AND (Control) WN KY), 2000-2012Uncertainty modeling of structuraldynamicsfor robustvibrationcontrolWang, Feng1;Li, Dao-Kui2;Lei, Yong-Jun2Source:Zhendong yu Chongji/Journal of Vibration and Shock, v 28, n 10, p 126-131, October 2009;Language:Chinese;ISSN:10003835;Publisher:Chinese Vibration Engineering SocietyAuthor affiliation:1.Computational Aerodynamics Institute, China Aerodynamics Research and Development Center, Mianyang 621000, China1College of Aerospace and Material Engineering, National University of Defense Technology, Changsha 410073, ChinaAbstract:A general synthesis frame for the design of robustcontrollerused in structuralvibrationwas developed. Robustcontroltheory of uncertain linear systems was introduced firstly. Uncertainty modeling of structuraldynamicswas then analyzed. The uncertainties included unmodeled high orderdynamics, modal parameter error and modeling error of actuators and sensors. And mathematical model of these uncertainties were formulated properly. Finally, thevibrationcontrolproblem was brought into the framework of robustcontroltheory, and the stability and performance of a closed cycle system were insured as long as the model errors fell into the prescribed bounds.(12 refs.)Main Heading:Controlsystem stabilityControlled terms:Linear systems - Mathematical models - Modal analysis - Robustcontrol - Structuraldynamics - System theory - Uncertainty analysis - VibrationcontrolRecord 2 from Compendex for: (Dynamics) WN KY) AND (Vibration) WN KY) AND (Control) WN KY), 2000-2012Check record to add to Selected RecordsAccession number:20102713063419Title:Stewart platform vibration control strategy based on dynamicsAuthors:Yang, Yu1 ; Zheng, Shutao1 ; Han, Junwei1Author affiliation:1School of Mechanics Engineering, Harbin Institute of Technology, Harbin 150001, ChinaCorresponding author:Yang, Y. ()Source title:Nongye Jixie Xuebao/Transactions of the Chinese Society of Agricultural MachineryAbbreviated source title:Nongye Jixie XuebaoVolume:41Issue:6Issue date:June 2010Publication year:2010Pages:20-24Language:ChineseISSN:10001298CODEN:NUYCA3Document type:Journal article (JA)Publisher:Chinese Society of Agricultural Machinery, No. 1 Beishatan Deshengmen Wai, Beijing, 100083, ChinaAbstract:With heavy load and high center of gravity, the Stewart platform based on kinematics control strategy vibrated in one degree of freedom will cause the vibration in other degrees of freedom. To solve this problem, a vibration control strategy used in the position closed loop was presented based on the Stewart platform dynamics. According to this control strategy, the actuator force, calculated by the dynamics model, was used to control the platform vibration, and the control precision was improved. At last this vibration control strategy was validated with the Stewart platform in 15pitch posture. Comparing the vibration response of the Stewart platform controlled by kinematics and dynamics respectively, the results showed that the proposed control strategy could reduce the coupling vibration caused by the platform load effectively, and could achieve the precise vibration control in any platform pose.Number of references:12Main heading:SimulatorsControlled terms:Dynamics - Kinematics - Roads and streets - Vibration controlUncontrolled terms:Center of gravity - Closed loops - Control precision - Control strategies - Coupling vibration - Degree of freedom - Degrees of freedom - Dynamics models - Heavy loads - Kinematics and dynamics - Kinematics control - Multi-body dynamic - ON dynamics - Shaking tables - Stewart platforms - Vibration - Vibration responseClassification code:931.1 Mechanics - 731.3 Specific Variables Control - 671 Naval Architecture - 662.1 Automobiles - 657.1 Solar Energy and Phenomena - 655.2 Satellites - 654.1 Rockets and Missiles - 621 Nuclear Reactors - 406.2 Roads and StreetsDOI:10.3969/j.issn.1000-1298.2010.06.004Database:CompendexRecord 3 from Compendex for: (Dynamics) WN KY) AND (Vibration) WN KY) AND (Control) WN KY), 2000-2012Check record to add to Selected RecordsAccession number:20113114194526Title:A general dynamics and control model of a class of multi-DOF manipulators for active vibration controlAuthors:Yun, Yuan1 ; Li, Yangmin1Author affiliation:1Department of Electromechanical Engineering, Faculty of Science and Technology, University of Macau, Av. Padre Toms Pereira, Taipa, Macao SAR, ChinaCorresponding author:Li, Y. (ymliumac.mo)Source title:Mechanism and Machine TheoryAbbreviated source title:Mech Mach TheoryVolume:46Issue:10Issue date:October 2011Publication year:2011Pages:1549-1574Language:EnglishISSN:0094114XCODEN:MHMTASDocument type:Journal article (JA)Publisher:Elsevier Ltd, Langford Lane, Kidlington, Oxford, OX5 1GB, United KingdomAbstract:A general dynamic model of a class of parallel platforms for vibration control applications based on Kanes method is presented. A general parallel platform is composed of a moving platform, a base platform, and i limbs with identical kinematic structure. Each limb connects the mobile platform to the base platform by j + 1 hinges and j struts, where the prismatic actuator is fixed at one of the struts. The hinges can be replaced by any other kind of conventional hinges or flexure hinges. The control system architecture based on mixed H2/H synthesis method is introduced for a class of parallel platforms as a multiple-input/multiple-output (MIMO) problem for the purpose of active vibration isolation. A case study is illustrated and the theoretical analysis is validated at last. 2011 Elsevier Ltd. All rights reserved.Number of references:15Main heading:Fixed platformsControlled terms:Hinges - Mechanisms - Struts - Vibration controlUncontrolled terms:Active vibration controls - Active vibration isolation - Base platforms - Control system architecture - Flexure hinge - General dynamics - Kanes method - Kinematic structures - Mixed H - Mobile platform - Moving platform - Multi-DOF - Multiple input/multiple outputs - Parallel mechanism - Parallel platforms - Synthesis method - Vibration control applicationClassification code:408.2 Structural Members and Shapes - 511.2 Oil Field Equipment - 601.3 Mechanisms - 605 Small Tools and Hardware - 731.3 Specific Variables ControlDOI:10.1016/j.mechmachtheory.2011.04.010Database:Compendex7、标示原文线索：用中文标示各检索结果的著录事项第一篇文献： 一、篇名：Uncertainty modeling of structural dynamics for robust vibration control二、第一责任者：Wang, F.三、作者简介：1Computational Aerodynamics Institute, China Aerodynamics Research and Development Center, Mianyang 621000, China2College of Aerospace and Material Engineering, National University of Defense Technology, Changsha 410073, China四、文献来源：Educationfor Information,v21,n4,December,2003链接网址：/controller/servlet/Controller?SEARCHID=1abdac913472f28282M6e6cprod4data1&CID=quickSearchDetailedFormat&DOCINDEX=1&database=1&format=quickSearchDetailedFormat第二篇文献： 一、篇名：Stewart platform vibration control strategy based