Abstract: The performance of the multistage Constant Modulus (CM) array, one of the most striking blind beamform-ing algorithms, for the source Directions-of-Arrival (DOAs) estimation was analyzed via the computer simulations and the water tank experiments, and was compared to that of other DOA estimation algorithms including the "non-blind" and the "blind". Firstly, a nominal array model and an array model with gain and phase perturbations were established, respectively. Secondly, the multistage CM array algorithm was described and computer simulations were conducted. Simulation results showed that the multistage CM array could correctly estimate the DOA at the same time when the sources were blindly recovered, and the angle separation ability of the algorithm was beyond the Rayleigh limit. By changing the variance of the array model error, it was also verified that the multistage CM array was more robust to the errors than some other algorithms mentioned in this paper. Finally, the water tank experiments and data processing results were provided. Situations with different array sizes and source angular separations were considered. It was shown that the results were in good agreement with computer simulations.Resultsof computer simulations and water tank experiments verified that the DOA of the multiple independent sources could be blindly and robustly estimated with the multistage CM array.