@article{oai:nagoya.repo.nii.ac.jp:00028842, author = {Rabago, Julius Fergy T. and Azegami, Hideyuki}, issue = {1}, journal = {Journal of Engineering Mathematics}, month = {Aug}, note = {We propose a new shape optimization formulation of the Bernoulli problem by tracking the Neumann data. The associated state problem is an equivalent formulation of the Bernoulli problem with a Robin condition. We devise an iterative procedure based on a Lagrangian-like approach to numerically solve the minimization problem. The proposed scheme involves the knowledge of the shape gradient which is established through the minimax formulation. We illustrate the feasibility of the proposed method and highlight its advantage over the classical setting of tracking the Neumann data through several numerical examples.}, pages = {1--29}, title = {An improved shape optimization formulation of the Bernoulli problem by tracking the Neumann data}, volume = {117}, year = {2019} }