Based on monotonicity analysis and computer symbolic manipulating technique,a procedure for determining constraints compatibility in design optimization hasbeen proposed in this paper. By using the proposed method rel...Based on monotonicity analysis and computer symbolic manipulating technique,a procedure for determining constraints compatibility in design optimization hasbeen proposed in this paper. By using the proposed method relationshipsbetween constrains can be determined and the optimization is greatly simplifid.The method is code with intelligent production systems.展开更多
Governing equations in symmetric form for hydroelastic vibrations are derived. By means or Guyan's reduction snd modal synthesis technique, the size of matrix equations is minimized. Both single compatible techniq...Governing equations in symmetric form for hydroelastic vibrations are derived. By means or Guyan's reduction snd modal synthesis technique, the size of matrix equations is minimized. Both single compatible technique and double compatible technique are applied to extract the coupling vibration modes of liquid containers. Excellent agreement with test results indicates that the present methiod is effective.展开更多
文摘Based on monotonicity analysis and computer symbolic manipulating technique,a procedure for determining constraints compatibility in design optimization hasbeen proposed in this paper. By using the proposed method relationshipsbetween constrains can be determined and the optimization is greatly simplifid.The method is code with intelligent production systems.
文摘Governing equations in symmetric form for hydroelastic vibrations are derived. By means or Guyan's reduction snd modal synthesis technique, the size of matrix equations is minimized. Both single compatible technique and double compatible technique are applied to extract the coupling vibration modes of liquid containers. Excellent agreement with test results indicates that the present methiod is effective.
