Super-resolution (SR) Techniques Produce A High-resolution Image From A Set Of Low-resolution Under Sampled Images. In This Paper, We Propose A New Method For Super-resolution That Uses Sampling Theory Concepts To Derive A Noniterative SR Algorithm. We First Raise The Issue Of The Validity Of The Data Model Usually Assumed In SR, Pointing Out That It Imposes A Band-limited Reconstructed Image Plus A Certain Type Of Noise. We Propose A Sampling Theory Framework With A Prefiltering Step That Allows Us To Work With More General Data Models And Also A Specific New Method For SR That Uses Delaunay Triangulation And B-splines To Build The Super-resolved Image. The Proposed Method Is Noniterative And Well Posed. We Prove Its Effectiveness Against Traditional Iterative And Noniterative SR Methods On Synthetic And Real Data. Additionally, We Also Prove That We Can First Solve The Interpolation Problem And Then Make The Deblurring Not Only When The Motion Is Translational But Also When There Are Rotations And Shifts And The Imaging System Point Spread Function (PSF) Is Rotationally Symmetric.