Resolution of conventional optics is generally constrained by the diffraction limit, which prevents imaging of near field light source in the far-field zone. In this thesis, we study the imaging properties of hyperlens, which can focus the light originated from near field sources and form images in the far-field zone with high resolution. According to the concept of effective medium, a hyperlens can be realized by using periodic arrangement of metallic and dielectric material layers. The properties of the hyperlens are studied numerically using transfer matrix method (TMM). The scattering coefficients in every layer can be calculated and the electromagnetic fields there can be derived. The optimized material and geometric parameters for best resolution can be found by varying these parameters and observing their influences on the imaging characteristics. In the future, we believe, that a practical hyperlens having better resolution can be constructed by finding proper materials and geometric parameters based on the method provided by this thesis.