Solène Vilfroy, Lionel Bombrun, Thierry Urruty, Florence De Grancey, Jean-Philippe Lebrat, Philippe Carré
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Conformal prediction for regression models with asymmetrically distributed errors: application to aircraft navigation during landing maneuver
Semi-autonomous aircraft navigation is a high-risk domain where confidence on the prediction is required. For that, this paper introduces the use of conformal predictions strategies for regression problems. While standard approaches use an absolute nonconformity scores, we aim at introducing a signed version of the nonconformity scores. Experimental results on synthetic data have shown their interest for non-centered errors. Moreover, in order to reduce the width of the prediction interval, we introduce an optimization procedure which learn the optimal alpha risks for the lower and upper bounds of the interval. In practice, we show that a line search algorithm can be employed to solve it. Practically, this novel adaptive conformal prediction strategy has revealed to be well adapted for skew distributed errors. In addition, an extension of these conformal prediction strategies is introduced to incorporate numeric and categorical auxiliary variables describing the acquisition context. Based on a quantile regression model, they allow to maintain the coverage for each metadata value. All these strategies have then been applied on a real use case of runway localization from data acquired by an aircraft during landing maneuver. Extensive experiments on multiple airports have shown the interest of the proposed conformal prediction strategies, in particular for runways equipped with a very long ramp approach where asymmetric angular deviation error are observed.
期刊介绍:
Machine Learning serves as a global platform dedicated to computational approaches in learning. The journal reports substantial findings on diverse learning methods applied to various problems, offering support through empirical studies, theoretical analysis, or connections to psychological phenomena. It demonstrates the application of learning methods to solve significant problems and aims to enhance the conduct of machine learning research with a focus on verifiable and replicable evidence in published papers.