@article{oai:nagoya.repo.nii.ac.jp:00005635, author = {下田, 昌利 and Shimoda, Masatoshi and 畔上, 秀幸 and Azegami, Hideyuki and 桜井, 俊明 and Sakurai, Toshiaki}, issue = {582}, journal = {日本機械学会論文集 A編}, month = {Feb}, note = {This paper describes a numerical analysis method for multiobjective shape optimization problems of linear elastic structures. For an example, we treat a multiloading mean compliance minimization problem with a volume constraint. The presented method is based on the traction method that was proposed as a solution to the domain optimization problems by one of the authors. The traction method is implemented to analyze the speed field, which represents the domain variation,with regard to the deformation field of the linear elastic continuum formed in the objective domain applying the force in proportion to the shape gradient function.To scalarize the multiobjective functionals we employ the weighted l_p-norm method with four types of norms.The shape gradient functions for each scalarized objective functional are obtained using the Lagrange multiplier method.For the numerical analyses we used a general-purpose finite-element code.Numerical results to a multiply connected plate problem and to a solid structure problem under the multiloading conditions show the validity of the present method to obtain practical Pareto solutions.}, pages = {359--366}, title = {複数荷重を考慮した線形弾性体の多目的形状最適化(平均コンプライアンス最小化問題を例として)}, volume = {61}, year = {1995} }