用高斯过程进行基于 Manifold 的声源定位的共形预测

Vadim Rozenfeld, Bracha Laufer Goldshtein
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引用次数: 0

摘要

我们要解决在不利声学环境中声源定位的不确定性量化难题。声源位置的估计会受到噪声和混响等各种因素的影响,从而导致显著的不确定性。量化这种不确定性至关重要,尤其是当定位结果影响关键决策过程时,例如在机器人听觉中,位置估计的准确性会直接影响后续行动。为了解决这个问题,我们采用了保形预测 (CP)--一种提供统计上有效的预测区间并具有有限样本保证的框架,与数据分布无关。然而,常用的归纳预测(ICP)方法需要大量标注数据,这在本地化环境中很难获得。为了缓解这一限制,我们使用高斯过程回归(GPR)将基于流形的定位方法与专为高斯过程回归设计的高效归纳 CP(TCP)技术结合起来。我们证明,我们的方法能在不同的声学条件下产生统计上有效的不确定性区间。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Conformal Prediction for Manifold-based Source Localization with Gaussian Processes
We tackle the challenge of uncertainty quantification in the localization of a sound source within adverse acoustic environments. Estimating the position of the source is influenced by various factors such as noise and reverberation, leading to significant uncertainty. Quantifying this uncertainty is essential, particularly when localization outcomes impact critical decision-making processes, such as in robot audition, where the accuracy of location estimates directly influences subsequent actions. Despite this, many localization methods typically offer point estimates without quantifying the estimation uncertainty. To address this, we employ conformal prediction (CP)-a framework that delivers statistically valid prediction intervals with finite-sample guarantees, independent of the data distribution. However, commonly used Inductive CP (ICP) methods require a substantial amount of labeled data, which can be difficult to obtain in the localization setting. To mitigate this limitation, we incorporate a manifold-based localization method using Gaussian process regression (GPR), with an efficient Transductive CP (TCP) technique specifically designed for GPR. We demonstrate that our method generates statistically valid uncertainty intervals across different acoustic conditions.
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