论文信息 - Optimal design of high speed mechanical systems

Optimal design of high speed mechanical systems

The trend towards higher performance mechanical systems has naturally led to the need to design such systems in an optimal fashion. Lighter components and higher operating speeds both demand a level of design a step above that provided conventionally. This paper describes a research effort aimed at developing the methodology for such system design. The methodology is based on accurate computer modeling, experimental validation, and robust optimal design strategies along with a parallel computing environment to produce optimal mechanical systems. As an example, a valve train mechanism used in high speed racing engines is analyzed and optimized. Experimental validation of the optimized designs is also presented.

Carl Tim Kelley | C. Y. Cheng | J. David | J. M. Gablonsky | Tony Doungho Choi

[1] J. A. Covey,et al. Optimal Design of High Speed Valve Train Systems , 1994 .

[2] C. Kelley,et al. Use of an Implicit Filtering Algorithm for Mechanical System Parameter Identification , 1996 .

[3] Daniel Clark Park,et al. Development of a Locally Nondimensional, Mathematically Symmetric Cam Profile for Optimal Camshaft Design , 1996 .

[4] Jack Dongarra,et al. PVM: Parallel virtual machine: a users' guide and tutorial for networked parallel computing , 1995 .

[5] Dojoong Kim,et al. A Combined Model for High Speed Valve Train Dynamics (Partly Linear and Partly Nonlinear) , 1990 .

[6] C. T. Kelley,et al. An Implicit Filtering Algorithm for Optimization of Functions with Many Local Minima , 1995, SIAM J. Optim..

[7] D. Bertsekas. On the Goldstein-Levitin-Polyak gradient projection method , 1974, CDC 1974.