A deep learning approach to analyse ship inspection reports via natural language processing integrated with artificial neural network

Abstract

Maritime inspection analysis is recently an emerging topic. Practical solutions are sought to improve the post-inspection process (i.e. OCIMF SIRE) in tanker operations. This study aims at to analyse the reported observations based on natural language processing (NLP) integrated with artificial neural network (ANN). The developed methodology also takes the advantage of Maritime Root Cause Analysis Tool (MARCAT) to systematically initiate the potential causes database including the number of 2383 observations. Then, an NLP-based ANN classification algorithm was produced that predicts the causes of new entries to the inspection database. The classification algorithm gives high-accuracy results varying between 0.90 and 0.97 in different causation segments. An inspection analysis for prediction validation was carried out both by the company authority and by the algorithm. The results show that the model can predict with a high success rate. Consequently, this study developed a post-inspection analysis model with high accuracy that is expected to contribute maritime executives to improve fleet safety and efficiency. Providing a third-party solution to the tanker industry, further studies are planned to conceptualise the model as platform as a service (PaaS).

Acknowledgement

This article is produced from PhD thesis research entitled ‘A Holistic Data Analytics Approach to Ship Inspection Reporting’ which has been executed in a PhD Program in Maritime Transportation Engineering of Graduate School in Istanbul Technical University.

Disclosure statement

No potential conflict of interest was reported by the author(s).

Data availability statement

The data that support the findings of this study are available from the corresponding author, [Samet Bicen], upon reasonable request.