We present an algorithm for shape registration of non-rigid partial scans. Many deformation-based methods adapt their algorithm based on iterative closest point (ICP) and formulate the registration as an optimization problem. However, non-linear energy systems based on ICP should change the set of closest points iteratively and remove some of them for filtering out bad correspondence. This behavior changes the formulation during energy minimization and the optimization process can not be solved straightforwardly. On the contrary, we formulate the energy system using kernel correlation (KC), which implicitly gives a direction for a moving point and guarantees a fixed formulation during optimization. Our algorithm gains a more preferable result since each point on the source surface is not fitted to a point but a reasonable 3D position on the target surface, and can be more efficient due to the fixed formulation of energy equations.