On the Development of a Digital Twin for Underwater UXO Detection Using Magnetometer-Based Data in Application for the Training Set Generation for Machine Learning Models

Abstract: Scanning underwater areas using magnetometers in search of unexploded ordnance is a difficult challenge, where machine learning methods can find a significant application. However, this requires the creation of a dataset enabling the training of prediction models. Such a task is difficult and costly due to the limited availability of relevant data. To address this challenge in the article, we propose the use of numerical modeling to solve this task. The conducted experiments allow us to conclude that it is pos… Show more

“…Recently though, some efforts have focused on mitigating this issue. For example, the feasibility of UXO and non-UXO discrimination from magnetic data using a probabilistic framework has recently been investigated by Wigh et al [ 14 ], and Blachnik et al [ 15 ] proposed a numerical modeling method for generating training data based on the Digital Twin concept.…”

Probing with Each Step: How a Walking Crab-like Robot Classifies Buried Cylinders in Sand with Hall-Effect Sensors

“…Recently though, some efforts have focused on mitigating this issue. For example, the feasibility of UXO and non-UXO discrimination from magnetic data using a probabilistic framework has recently been investigated by Wigh et al [ 14 ], and Blachnik et al [ 15 ] proposed a numerical modeling method for generating training data based on the Digital Twin concept.…”

Probing with Each Step: How a Walking Crab-like Robot Classifies Buried Cylinders in Sand with Hall-Effect Sensors

Preliminary Study on Unexploded Ordnance Classification in Underwater Environment Based on the Raw Magnetometry Data

Digital Twin Models: Functions, Challenges, and Industry Applications