A DFL-TFC framework with orthogonal polynomial expansion and domain mapping solves the governing DE for bending of exponentially loaded tapered perforated beams more efficiently than PINNs.
Physics-informed neural network for bending and free vibration analysis of three-dimensional functionally graded porous beam resting on elas- tic foundation
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Physics-Informed Functional Link Constrained Framework with Domain Mapping for Solving Bending Analysis of an Exponentially Loaded Perforated Beam
A DFL-TFC framework with orthogonal polynomial expansion and domain mapping solves the governing DE for bending of exponentially loaded tapered perforated beams more efficiently than PINNs.