An combination of optimizing wavelet transform and neural network is applied to recognizing nonlinear fluorescence spectra.The optimization wavelet function and decomposition layers are proposed.A probabilistic neural network(PNN) model is employed in order to recognize the nonlinear fluorescence spectrum of 3 impurities in the air,and satisfied experiment results have been acquired.The operation rate of the network has been greatly enhanced because the optimal input data obtained after the wavelet transform are not only the features of original signals,but also consumedly compressed,so that the dimension of the data becomes much less than that of original signals.