English

Model-free Data-Driven Inference

Functional Analysis 2021-06-08 v1

Abstract

We present a model-free data-driven inference method that enables inferences on system outcomes to be derived directly from empirical data without the need for intervening modeling of any type, be it modeling of a material law or modeling of a prior distribution of material states. We specifically consider physical systems with states characterized by points in a phase space determined by the governing field equations. We assume that the system is characterized by two likelihood measures: one μD\mu_D measuring the likelihood of observing a material state in phase space; and another μE\mu_E measuring the likelihood of states satisfying the field equations, possibly under random actuation. We introduce a notion of intersection between measures which can be interpreted to quantify the likelihood of system outcomes. We provide conditions under which the intersection can be characterized as the athermal limit μ\mu_\infty of entropic regularizations μβ\mu_\beta, or thermalizations, of the product measure μ=μD×μE\mu = \mu_D\times \mu_E as β+\beta \to +\infty. We also supply conditions under which μ\mu_\infty can be obtained as the athermal limit of carefully thermalized (μh,βh)(\mu_{h,\beta_h}) sequences of empirical data sets (μh)(\mu_h) approximating weakly an unknown likelihood function μ\mu. In particular, we find that the cooling sequence βh+\beta_h \to +\infty must be slow enough, corresponding to quenching, in order for the proper limit μ\mu_\infty to be delivered. Finally, we derive explicit analytic expressions for expectations E[f]\mathbb{E}[f] of outcomes ff that are explicit in the data, thus demonstrating the feasibility of the model-free data-driven paradigm as regards making convergent inferences directly from the data without recourse to intermediate modeling steps.

Keywords

Cite

@article{arxiv.2106.02728,
  title  = {Model-free Data-Driven Inference},
  author = {Sergio Conti and Franca Hoffmann and Michael Ortiz},
  journal= {arXiv preprint arXiv:2106.02728},
  year   = {2021}
}
R2 v1 2026-06-24T02:51:25.562Z