On-manifold probabilistic Iterative Closest Point: Application to underwater karst exploration Article Swipe

View

Related Concepts

Underwater Probabilistic logic Sonar Computer science Noise (video) Context (archaeology) Algorithm Manifold (fluid mechanics) Ground truth Point (geometry) Karst Covariance Geology Artificial intelligence Mathematics Geometry Engineering Paleontology Oceanography Statistics Image (mathematics) Mechanical engineering

Yohan Breux , André Mas , L. Lapierre ·

YOU? · · 2022 · Open Access · · DOI: https://doi.org/10.1177/02783649221101418 · OA: W4283452670

This paper proposes MpIC, an on-manifold derivation of the probabilistic Iterative Correspondence (pIC) algorithm, which is a stochastic version of the original Iterative Closest Point. It is developed in the context of autonomous underwater karst exploration based on acoustic sonars. First, a derivation of pIC based on the Lie group structure of [Formula: see text] is developed. The closed-form expression of the covariance modeling the estimated rigid transformation is also provided. In a second part, its application to 3D scan matching between acoustic sonar measurements is proposed. It is a prolongation of previous work on elevation angle estimation from wide-beam acoustic sonar. While the pIC approach proposed is intended to be a key component in a Simultaneous Localization and Mapping framework, this paper focuses on assessing its viability on a unitary basis. As ground truth data in karst aquifer are difficult to obtain, quantitative experiments are carried out on a simulated karst environment and show improvement compared to previous state-of-the-art approach. The algorithm is also evaluated on a real underwater cave dataset demonstrating its practical applicability.