This research integrates finite element analysis with foldable texture forming to study optimal design of origami structures. Computer programming for numerical optimization shows a great potential for structural analysis and design. The aim of this thesis is to reveal this potential in research area of origami folding structures. In the finite element method for structural analysis, the folding structures are modelled as a pin-jointed truss system, which allows the use of developed structural engineering methods to gain insight into the kinematics and loading capacities of the foldable sheets. With the help of numerical optimization, an economic way of generating origami foldings becomes feasible for structures of such complex geometries. Thus, established origami sheets for engineering applications may be understood and then spread more. Finally, novel engineering application of origami structures including both the flexibility and the rigidity the folding texture patterns provide is discussed.