Prediction-Powered Inference with Imputed Covariates and Nonuniform Sampling

Q: How reproducible is "Prediction-Powered Inference with Imputed Covariates and Nonuniform Sampling"?

Estimated time to first reproduction: a few days. Risk flags: No repository-level reproducibility signals are currently available, Estimate is based on paper-only reproduction flow. No direct maintained implementation was found. Use the paper PDF and citation graph to design a baseline reproduction.

Dan M. Kluger, Kerri Lu, Tijana Zrnic, Sherrie Wang, Stephen Bates

Published: Jan 30, 2025

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Evidence: Inferred

Domain fit: Niche / domain-specific

Verified repos: 0

No strong AI-core implementation/artifact signals were detected from current providers.

Time to first repro: a few days

2 risk flags

DOI Publisher

Machine learning models are increasingly used to produce predictions that serve as input data in subsequent statistical analyses. For example, computer vision predictions of economic and environmental indicators based on satellite imagery are used in downstream regressions; similarly, language models are widely used to approximate human ratings and opinions in social science research. However, failure to properly acc ...

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ount for errors in the machine learning predictions renders standard statistical procedures invalid. Prior work uses what we call the Predict-Then-Debias estimator to give valid confidence intervals when machine learning algorithms impute missing variables, assuming a small complete sample from the population of interest. We expand the scope by introducing bootstrap confidence intervals that apply when the complete data is a nonuniform (i.e., weighted, stratified, or clustered) sample and to settings where an arbitrary subset of features is imputed. Importantly, the method can be applied to many settings without requiring additional calculations. We prove that these confidence intervals are valid under no assumptions on the quality of the machine learning model and are no wider than the intervals obtained by methods that do not use machine learning predictions.

Technical details

Canonical key: doi-10.48550_arxiv.2501.18577

Cache status: Fresh

Generated at: Jun 20, 2026, 10:29 AM

Artifact coverage: sparse

HF provider: ok (mixed)

PWC source used: No

LLM status: not_generated

LLM model: n/a

LLM generated: Unknown

LLM content type: n/a

HF policy: hf-relevance-v27

context only

Benchmarks: missing

Time to repro: a few days

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Results & Benchmarks

Freshness tier: cold

Direct + Inferred Evidence

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Machine learning models are increasingly used to produce predictions that serve as input data in subsequent statistical analyses.

Implementation Evidence Summary

Confidence: low

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Reproduction Risks

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Hardware Notes

Expect multi-day setup/compute for meaningful reproduction based on current guidance.

Evidence disclosure

Evidence graph: 2 refs, 1 links.

Utility signals: depth 65/100, grounding 58/100, status medium.

Implementation Status

No verified maintained repo

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Time to first repro: a few days

Reproduction readiness

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Time to first repro: days

Last checked: Jun 20, 2026

Hardware requirements

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Models

Prediction-Powered Covariate Covariate model

Datasets

Prediction-Powered dataset Covariate dataset

Spaces

Prediction-Powered demo Covariate demo

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Research context

Citations

References

Tasks

Covariate, Inference, Statistics, Econometrics, Sampling (signal processing), Computer science, Physical Sciences

Methods

Transformer

Domains

Mathematics, Artificial Intelligence

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