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Learning and Generalizing Polynomials in Simulation Metamodeling
The ability to learn polynomials and generalize out-of-distribution is
essential for simulation metamodels in many disciplines of engineering, where
the time step updates are described by polynomials. While feed forward neural
networks can fit any function, they cannot generalize out-of-distribution for
higher-order polynomials. Therefore, this paper collects and proposes
multiplicative neural network (MNN) architectures that are used as recursive
building blocks for approximating higher-order polynomials. Our experiments
show that MNNs are better than baseline models at generalizing, and their
performance in validation is true to their performance in out-of-distribution
tests. In addition to MNN architectures, a simulation metamodeling approach is
proposed for simulations with polynomial time step updates. For these
simulations, simulating a time interval can be performed in fewer steps by
increasing the step size, which entails approximating higher-order polynomials.
While our approach is compatible with any simulation with polynomial time step
updates, a demonstration is shown for an epidemiology simulation model, which
also shows the inductive bias in MNNs for learning and generalizing
higher-order polynomials
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