渡轮服务中的燃油效率:基于GPS的聚类与可解释人工智能

Fuel efficiency in ferry services: GPS-based clustering and explainable AI

Transportation Research Part D Transport and Environment · 2026
被引 0
ABS 3

中文导读

利用GPS数据和机器学习方法,识别并解释渡轮燃油消耗模式,发现运行速度是主要影响因素,为优化运营和减排提供可行方案。

Abstract

Enhancing fuel efficiency in ferry operations is essential for reducing emissions and advancing maritime sustainability. This study presents a data-driven framework that uses second-level GPS data enriched with operational and environmental variables to identify and explain fuel consumption patterns. Vessel movements are segmented into trip legs and journeys, and operational metrics such as speed, wind exposure, and fuel use are computed. A hybrid machine learning approach combines unsupervised clustering to detect recurring operational patterns with gradient boosting models and explainable methods to quantify feature impacts. The framework achieves strong performance, with a cluster classification accuracy of 94 percent and a coefficient of determination of 0.97 for fuel prediction. Results indicate that operational speed is the dominant driver of fuel consumption, while analysis of captain assignments reveals the influence of human factors. The proposed framework provides actionable insights for speed management and operational optimization, enabling cost-effective emission reductions in ferry services.

交通运输能源效率机器学习海事可持续性