This research paper explores the application of physics-informed machine learning techniques to abrasive waterjet milling, a process characterized by small, material-specific datasets. The study introduces three methodological contributions: separating physics-based data cleaning from statistical curation, highlighting the instability of model rankings with small datasets, and examining various levels of physics integration. The findings suggest that for such data constraints, explicit curation hypotheses, robust evaluation methods, and careful consideration of physics integration are crucial for reliable model comparison, with Gaussian Process variants showing strong performance. AI
IMPACT Provides methodological insights for applying machine learning in data-constrained, physics-dominated industrial processes.
RANK_REASON Academic paper detailing a new methodology for applying machine learning to a specific industrial process. [lever_c_demoted from research: ic=1 ai=1.0]
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