The purpose of the research is to explore the relationship between dune slip face progradation and sand flux with simplified theory, experiment and field survey. Based on the concept of delta front progradation, the theory of dune slip face progradation is generalized to account for greater freedom. To apply the theory we derived, the numerical model for simulation of sand flux is established. The distribution of sand flux can be calculated with brinkline shape, the angle of repose and the moving velocity of brinkline. With a simple parabolic shape of brinkline, different shape of dunes can be illustrated and the simulation model can be verified. Experiment of dune, which is conducted under water, can reveal the evolution efficiently because the viscosity of water is much higher than air. The barchan dune experiment, which is particularly accessible for experimental investigation, provides well-controlled conditions to test the simulation model. In addition, some experiment results correspond to the simulation of parabolic brinkline. The dune shape in Dingtoue Sandbank is successfully measured with Unmanned Aircraft Vehicle (UAV) and the observation result is applied to the simulation model as a complex condition. This thesis shows the preliminary research from three kinds of methods and we leave several future works to be expected.