The use of elliptical front sprocket can enhance the riding performance of cyclists, but would cause chain slack during operating, or lead to chain drop. The purpose of this study is to analyze the improvement of chain slack and the enhancement of riding benefits by using elliptical front sprocket combined with eccentric sprocket for bicycles. First, the geometry mathematical model of elliptical-eccentric sprockets system and the kinematic model and the dynamic model of the leg simulation planar five-bar linkage have been established. Then, with the computer program which is developed to analyze the eccentric of sprocket, the best design parameters for different major-minor axis ratio can be found, and achieve the target of minimum chain slack. And then, with the data of cadence variation and the different crank install angle, the joint moment and joint power can also be simulated by using computer programs. Finally, according to the data of joint moment and joint power, three groups of design parameters have been raised to reduce the joint loading and enhance the pedaling efficiency. The enhancement of riding benefits compared to the traditional system would be investigated. This study could be applied in practice and promote the design and research on the non-circular sprockets for bicycles.