Cornea is a very small structure in the eye, but it holds the key to clear vision. Once a cornea is damaged, it will leads to all kinds of eye diseases. Most of the techniques for cornea examination nowadays are based on qualitative analysis. Only very few of them are based on quantitatively analysis, especially the application of the biomechanical parameters. The biomechanical change of the cornea is not only the cause of retinopathy, but also effect the measurement of the intraocular pressure. Since getting the biomechanical parameters with the non-invasive modalities is necessary, it became more difficult to get the right measurements. In this study, there are three different approaches to calculate the Yong’s modulus. First, based on the theory of thin shell and combined with numerical optimization techniques. Second, using the Lumped mass-damping-spring system. And the last is the combination of the shell modal analysis and the wave propagation theories. By calculating the Young’s modulus with the techniques in this study, they can provide much more invaluable and accurate data in clinical medicine of ophthalmology.