Abstract
This article investigates a novel method for time-varying systems with an impact term; we call it a modified homogenized highly precise direct integration method. Modified homogenized highly precise direct integration method can deal with the time-varying nonhomogeneous systems effectively by direct integration with high precision. Even though it is often difficult to select the time step size of integration properly for stiff problems, modified homogenized highly precise direct integration method can effectively deal with the this problem with a large time step size. By introducing new variants twice, modified homogenized highly precise direct integration method can easily deal with the nonhomogeneous term by a novel way, inherit the advantages of highly precise direct integration method and avoid the calculation of inverse matrix. The convergency and efficiency analyses are given in this article. Several numerical simulations and an application example are presented to demonstrate the high accuracy, eff...
Highlights
Time-varying dynamic problems arise in many areas of structural analysis, such as vehicle bridge interactive systems, rockets or aircraft systems
The dynamic response of the structure can be analysed by the direct integration methods or transferring the system into first-order evaluation problems
Precise direct integration (HPD)7 method was proposed for homogeneous linear time-invariant dynamic systems
Summary
Time-varying dynamic problems arise in many areas of structural analysis, such as vehicle bridge interactive systems, rockets or aircraft systems. Precise direct integration (HPD)7 method was proposed for homogeneous linear time-invariant dynamic systems. In order to solve the nonhomogeneous systems with high precision, expanding dimension methods8,9 were proposed.
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
