In engineering, model updating aims to reconstruct the system properties of a numerical model to fit the system properties of a real system by updating physical parameters of the numerical model. The updated model can be used to estimate the real system, or be provided for online requirements. In structural engineering, model updating generally is to update the structural parameters of a structural model for minimizing the difference between computed modal parameters and real modal parameters. The real modal parameters can be achieved by calculating the measured vibration data of real structures. That is, updating structural model is a kind of structural optimization problem. Evolutionary computation is a feasible means for solving the model updating problem in structural engineering. However, evolutionary computation is a global search method. The large computational time is a heavy burden because it often explores the unimportant data points. Therefore, this research intend to use a local search method. An unsupervised fuzzy neural network is adopted to predict the local optimum of the searching region; then heuristically moving the searching region to predict a new optimum until finding the global optimum. The computing efficiency will be better than the evolutionary computation that search the global optimum in the whole region. To consider the practicality, this research will take into account the factors such as incomplete modes and uncertainty in measure.