Towards AI driven surface roughness evaluation in manufacturing: a prospective study

Sourish Ghosh (), Ricardo Knoblauch (), Mohamed El Mansori () and Cosimi Corleto ()
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Sourish Ghosh: École Nationale Superieure D’Arts Et Metiers
Ricardo Knoblauch: École Nationale Superieure D’Arts Et Metiers
Mohamed El Mansori: École Nationale Superieure D’Arts Et Metiers
Cosimi Corleto: Stil Marposs

Journal of Intelligent Manufacturing, 2025, vol. 36, issue 7, No 4, 4519-4548

Abstract: Abstract In the era of Industry 4.0 and the digital transformation of the manufacturing sector, this article explores the significant potential of machine learning (ML) and deep learning (DL) techniques in evaluating surface roughness—a critical metric of product quality. The integration of edge computing with current computational resources and intelligent sensors has revolutionized the application of AI-driven algorithms in smart manufacturing. It provides real-time data analysis and decision-making capabilities that were unattainable only a decade ago. The research effort intends to improve data-driven decision-making for product quality evaluation by leveraging data integration from manufacturing operations and surface quality measurements. Although a substantial amount of research has been conducted in the related fields, it is still difficult to comprehend and compile all the data on surface roughness research predictive assessment in the form of a process pipeline. This thorough systematic analysis examines scholarly articles published between 2014 and 2024 focusing on surface roughness assessment in precision manufacturing settings. The article is thoroughly classified based on the manufacturing processes, datasets, and ML models used, giving light on the present status, prominent approaches, and existing issues in this sector. A table summarizing the relevant works in this domain providing an easy access to the current trends have been provided. The article not only compiles essential findings and identifies research gaps and similarities in existing methodologies, but it also discusses future research directions and open issues in AI-aided surface roughness evaluation. The critical analysis of the literature reveals a scientific gaps which includes consistent development of benchmarked datasets and making the AI models more explainable using the state-of-the-art explainable AI (XAI) algorithms. The ultimate objective of the article is not only to provide a guide for the practitioners in either of the three domains of AI, manufacturing or surface metrology but also to pave the path for more robust, efficient, and accurate surface quality evaluation processes in production.

Keywords: Intelligent manufacturing; Surface metrology; Machine learning; Deep learning (search for similar items in EconPapers)
Date: 2025
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DOI: 10.1007/s10845-024-02493-1

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