Lenon Minorics scite author profile

We introduce 'Causal Information Contribution (CIC)' and 'Causal Variance Contribution (CVC)' to quantify the influence of each variable in a causal directed acyclic graph on some target variable. CIC is based on the underlying Functional Causal Model (FCM), in which we define 'structure preserving interventions' as those that act on the unobserved noise variables only. This way, we obtain a measure of influence that quantifies the contribution of each node in its 'normal operation mode'. The total uncertainty of a target variable (measured in terms of variance or Shannon entropy) can then be attributed to the information from each noise term via Shapley values. CIC and CVC are inspired by Analysis of Variance (ANOVA), but also applies to non-linear influence with causally dependent causes.

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Spectral asymptotics for Krein–Feller operators with respect to 𝑉-variable Cantor measures

Minorics

2019

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AbstractWe study the limiting behavior of the Dirichlet and Neumann eigenvalue counting function of generalized second-order differential operators {\frac{\mathop{}\!d}{\mathop{}\!d\mu}\frac{\mathop{}\!d}{\mathop{}\!dx}}, where μ is a finite atomless Borel measure on some compact interval {[a,b]}. Therefore, we firstly recall the results of the spectral asymptotics for these operators received so far. Afterwards, we make a proposition about the convergence behavior for so-called random V-variable Cantor measures.

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Causal Forecasting:Generalization Bounds for Autoregressive Models

Vankadara¹,

M.²,

Hardt³

et al. 2021

Preprint

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Lenon Minorics

Spectral Asymptotics for Krein-Feller-Operators with respect to Random Recursive Cantor Measures

Eigenvalue Approximation for Krein–Feller-Operators

Quantifying intrinsic causal contributions via structure preserving interventions

Spectral asymptotics for Krein–Feller operators with respect to 𝑉-variable Cantor measures

Causal Forecasting:Generalization Bounds for Autoregressive Models

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