Analytical solutions to nonlinear conservative oscillator with fifth-order nonlinearity 被引量：4

Analytical solutions to nonlinear conservative oscillator with fifth-order nonlinearity

下载PDF

导出

摘要 This paper describes analytical and numerical methods to analyze the steady state periodic response of an oscillator with symmetric elastic and inertia nonlinearity. A new implementation of the homotopy perturbation method （HPM） and an ancient Chinese method called the max-rain approach are presented to obtain an approximate solution. The major concern is to assess the accuracy of these approximate methods in predicting the system response within a certain range of system parameters by examining their ability to establish an actual （numerical） solution. Therefore, the analytical results are compared with the numerical results to illustrate the effectiveness and convenience of the proposed methods. This paper describes analytical and numerical methods to analyze the steady state periodic response of an oscillator with symmetric elastic and inertia nonlinearity. A new implementation of the homotopy perturbation method （HPM） and an ancient Chinese method called the max-rain approach are presented to obtain an approximate solution. The major concern is to assess the accuracy of these approximate methods in predicting the system response within a certain range of system parameters by examining their ability to establish an actual （numerical） solution. Therefore, the analytical results are compared with the numerical results to illustrate the effectiveness and convenience of the proposed methods.

作者 M.G.Sfahani S.S.Ganji A.Barari H.Mirgolbabaei G.Domairry

机构地区 Departments of Civil and Mechanical Engineering Department of Transportation Engineering Department of Civil Engineering Department of Mechanical Engineering Islamic Azad University

出处《Earthquake Engineering and Engineering Vibration》 SCIE EI CSCD 2010年第3期367-374,共8页 地震工程与工程振动（英文刊）

关键词 non-linear oscillation homotopy perturbation method （HPM） max-min approach （MMA） Rung-Kutta method （R-KM） large amplitude free vibrations non-linear oscillation homotopy perturbation method （HPM） max-min approach （MMA） Rung-Kutta method （R-KM） large amplitude free vibrations

分类号 O302 [理学—力学]

引文网络
相关文献

参考文献36

1Anderson DA and Tannehill JC (1984),"Computational Fluid Mechanics and Heat Transfer," Hemisphere Publishing Corp.
2Barari A,Ghotbi Abdoul R,Farrokhzad F and Ganji DD (2008b),"Variational Iteration Method and Homotopy-Perturbation Method for Solving Different Types of Wave Equations," Journal of Applied Sciences,8:120-126.
3Barari A,Omidvar M,Ghotbi Abdoul R and Ganji DD (2008a),"Application of Homotopy Perturbation Method and Variational Iteration Method to Nonlinear Oscillator Differential Equations," Acta Applicanda Mathematicae,104:161-171.
4Belendez A,Pascual C,Gallego S,Ortuno M and Neipp C (2007),"Application of a Modified He's Homotopy Perturbation Method to Obtain Higher-Order Approximations of an x《'1/3》 Force Nonlinear Oscillator," Physics Letters A,371:421.
5Catal S (2008),"Solution of Free Vibration Equations of Beam on Elastic Soil by Using Differential Transform Method," Applied Mathematical Modeling,32 (9):1744.
6Dehghan M (2004),"The Use of Adomian Decomposition Method for Solving the One-Dimensional Parabolic Equation with Non-local Boundary Specifications," International Journal of Computer Mathematics,81(1):25.
7Dehghan M.and Shakeri F (2008),"The Use of the Decomposition Procedure of Adomian for Solving a Delay Di fferential Equation Arising in Electrodynamics," Physica Scripta,78:1.
8Ganji SS,Ganji DD,Babazadeh H and Sadoughi N (2009a),"Application of Amplitude-frequency Formulation to Nonlinear Oscillation System of the Motion of a Rigid Rod Rocking Back," Mathematical Methods in the Applied Sciences,33(2):157-166.
9Ganji SS,Ganji DD and Karimpour S (2009b),"He's Energy Balance and He's Variational Methods for Nonlinear Oscillations in Engineering," International Journal of Modern Physics B,23(3):461.
10Ganji SS,Ganji DD,Karimpour S and Babazadeh H (2009c),"Applications of He's Homotopy Perturbation Method to Obtain Second-order Approximations of the Coupled Two-degree-of-freedom Systems," International Journal of Non-Linear Sciences and Numerical Simulation,10(3):303.

同被引文献29

1李国英,张志利,王自杰.复合寻北在全自动陀螺经纬仪系统中的应用[J].传感器技术,2005,24(10):77-79. 被引量：5
2李宗春,李广云,张冠宇,万朋,薛志宏.GYROMAT 2000陀螺经纬仪定向程序探讨[J].测绘科学,2006,31(5):107-109. 被引量：7
3王缜,贾智东,丁扬斌,申功勋.摆式陀螺罗盘的运动特性及其分析[J].宇航计测技术,2006,26(4):13-17. 被引量：4
4TAIT D A. North-seeking instruments and inertial sys- tems [ J ]. Engineering Surveying Technology, 2010 : 83.
5ROMMEL N. Functional principle and technical concept of the high-precision surveying gyroscope GYROMAT- 2000[ C]//Symposium Gyro Technology. Stuttgart, Ger- many,1994: 8.0-8.31.
6ZHONG Q Y, HUANG X X, TAN L L, et al. A method of speedy north-seeking of gyro-theodolite by detecting gyro-moment based on magnetic suspension bearing[ C ]. 2010 International Conference on Intelligent Control and Information Processing. 2010 : 666-670.
7DONG G M, ZHANG W Y, LIN Y CH. Study on auto- mated gyrotheodolite based on unified north-finding algo- rithm[ C]. Mechatronics and Automation (ICMA), 2012 International Conference on. IEEE, 2012: 931-935.
8XIE M J, LI L T, WANG ZH Q. Study and application of variable period sampling in strap-down north seeking system[J]. Energy Procedia, 2012, 16: 2081-2086.
9ZHOU ZH F, CHANG ZH J, ZHANG ZH L. A new rap- id north-seeking method of pendulous gyroscope [ C ]. Measurement, Information and Control (MIC), 2012 In- ternational Conference on. IEEE. 2012. 1 : 173-176.
10BAYAT M, PAKAR I. On the approximate analytical so- lution to non-linear oscillation systems [ J ]. Shock and Vibration, 2013, 20(1) : 43-52.

引证文献4

1KARIMPOUR S.,GANJI S.S.,BARARI A.,IBSEN L.B.,DOMAIRRY G..Nonlinear vibration of an elastically restrained tapered beam[J].Science China(Physics,Mechanics & Astronomy),2012,55(10):1925-1930. 被引量：2
2陈河,张志利,周召发.摆式陀螺速度检测法全方位快速预定向[J].仪器仪表学报,2014,35(10):2378-2384. 被引量：5
3李帅,仲启媛,张黎,杨乐.摆式陀螺经纬仪快速粗寻北的新方法[J].电光与控制,2016,23(12):46-50. 被引量：1
4张黎,谭立龙,陈志翔,张翠.陀螺寻北仪粗寻北新方法——角加速度计算法[J].仪表技术与传感器,2018(3):37-41.

二级引证文献7

1王鹏,仲启媛,赵宏明,张彦涛.基于DSP的伺服电机控制电路设计[J].火箭军工程大学学报,2019(4):20-25.
2石欣,占博,张琦.巡线机器人夹持机构压力复合控制系统[J].仪器仪表学报,2015,36(S01):136-142.
3GUO ZhongJin,LEUNG A Y T,MA XiaoYan.Solution procedure of residue harmonic balance method and its applications[J].Science China(Physics,Mechanics & Astronomy),2014,57(8):1581-1591. 被引量：2
4李帅,仲启媛,张黎,杨乐.摆式陀螺经纬仪快速粗寻北的新方法[J].电光与控制,2016,23(12):46-50. 被引量：1
5张黎,谭立龙,仲启媛,张翠.基于滤波方法提高精寻北阶段的寻北精度[J].压电与声光,2017,39(6):860-864. 被引量：1
6张黎,谭立龙,陈志翔,张翠.陀螺寻北仪粗寻北新方法——角加速度计算法[J].仪表技术与传感器,2018(3):37-41.
7张宏涛,李昂.阻尼连接塔结构的动力响应分析[J].北方工业大学学报,2019,31(5):114-118.

1陈永春,孔俊宝.一种用Volterra级数分析含多个非线性元件振荡电路的新方法[J].南京邮电学院学报,1990,10(3):29-34.
2张素嵘.培养学生数学思维能力的举措[J].教育,2016,0(34):31-31.
3方林.辐向磁场的高考试题与教材描述分析[J].课程教学研究,2014(8):61-64. 被引量：1
4邱洪兴,蒋永生.动力系统有限元模型的误差分析[J].解放军理工大学学报（自然科学版）,2001,2(2):16-20. 被引量：1
5刘学才.线性相关模型及其估计[J].中国科技信息,2007(23):105-105.
6杨玲,龚剑.以Winer过程为驱动的Ito-Volterra型随机微分方程的数值解[J].湖北师范学院学报（自然科学版）,2006,26(2):23-27.
7吴国强.基于TCP协议在移动设备上的优化研究[J].信息安全与技术,2015,6(10):33-34 62.
8王琪,黄克累,陆启韶.树形多体系统动力学的隐式数值算法[J].力学学报,1996,28(6):717-725. 被引量：9
9李四信,覃景繁,韦岗.隐马尔可夫模型(HMM)参数迭代算法的改进[J].电路与系统学报,1998,3(1):82-85. 被引量：4
10仝惠.例谈小学数学教学中如何培养学生的几何直观能力[J].新课程,2015,0(31):95-95.

Earthquake Engineering and Engineering Vibration

2010年第3期

浏览历史

内容加载中请稍等...

Analytical solutions to nonlinear conservative oscillator with fifth-order nonlinearity 被引量：4

参考文献36

同被引文献29

引证文献4

二级引证文献7

相关作者

相关机构

相关主题

浏览历史