Consistency-based Abductive Reasoning over Perceptual Errors of Multiple Pre-trained Models in Novel Environments

Authors

  • Mario Leiva DCIC, Universidad Nacional del Sur (UNS) & ICIC (UNS-CONICET), Bahía Blanca, Argentina
  • Noel Ngu Arizona State University, Tempe, AZ USA
  • Joshua Shay Kricheli Syracuse University, Syracuse, NY USA
  • Aditya Taparia Arizona State University, Tempe, AZ USA
  • Ransalu Senanayake Arizona State University, Tempe, AZ USA
  • Paulo Shakarian Syracuse University, Syracuse, NY USA
  • Nathaniel D. Bastian United States Military Academy, West Point, NY USA
  • John Corcoran Systems Planning & Analysis, Alexandria, VA USA
  • Gerardo Simari DCIC, Universidad Nacional del Sur (UNS) & ICIC (UNS-CONICET), Bahía Blanca, Argentina

DOI:

https://doi.org/10.1609/aaai.v40i23.38996

Abstract

The deployment of pre-trained perception models in novel environments often leads to performance degradation due to distributional shifts. Although recent artificial intelligence approaches for metacognition use logical rules to characterize and filter model errors, improving precision often comes at the cost of reduced recall. This paper addresses the hypothesis that leveraging multiple pre-trained models can mitigate this recall reduction. We formulate the challenge of identifying and managing conflicting predictions from various models as a consistency-based abduction problem, building on the idea of abductive learning (ABL) but applying it to test-time instead of training. The input predictions and the learned error detection rules derived from each model are encoded in a logic program. We then seek an abductive explanation—a subset of model predictions—that maximizes prediction coverage while ensuring the rate of logical inconsistencies (derived from domain constraints) remains below a specified threshold. We propose two algorithms for this knowledge representation task: an exact method based on Integer Programming (IP) and an efficient Heuristic Search (HS). Through extensive experiments on a simulated aerial imagery dataset featuring controlled, complex distributional shifts, we demonstrate that our abduction-based framework outperforms individual models and standard ensemble baselines, achieving, for instance, average relative improvements of approximately 13.6% in F1-score and 16.6% in accuracy across 15 diverse test datasets when compared to the best individual model. Our results validate the use of consistency-based abduction as an effective mechanism to robustly integrate knowledge from multiple imperfect models in challenging, novel scenarios.
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Published

2026-03-14

How to Cite

Leiva, M., Ngu, N., Kricheli, J. S., Taparia, A., Senanayake, R., Shakarian, P., … Simari, G. (2026). Consistency-based Abductive Reasoning over Perceptual Errors of Multiple Pre-trained Models in Novel Environments. Proceedings of the AAAI Conference on Artificial Intelligence, 40(23), 19216–19223. https://doi.org/10.1609/aaai.v40i23.38996

Issue

Vol. 40 No. 23: AAAI-26 Technical Tracks 23

Section

AAAI Technical Track on Knowledge Representation and Reasoning