Journal:Designing a knowledge management system for naval materials failures

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Full article title Designing a knowledge management system for naval materials failures
Journal MATEC Web of Conferences
Author(s) Melanitis, Nikolaos; Giannakopoulos, George; Stamatakis, Konstantinos; Mouzakis, Dionysios; Koutsomichalis, Aggelos
Author affiliation(s) Hellenic Naval Academy, Institute of Informatics & Telecommunications
Primary contact Email: melanitis at hna dot gr
Year published 2021
Volume and issue 349
Article # 03006
DOI 10.1051/matecconf/202134903006
ISSN 2261-236X
Distribution license Creative Commons Attribution 4.0 International
Website https://www.matec-conferences.org/articles/matecconf/abs/2021/18/matecconf_iceaf2021_03006/matecconf_iceaf2021_03006.html
Download https://www.matec-conferences.org/articles/matecconf/pdf/2021/18/matecconf_iceaf2021_03006.pdf (PDF)

Abstract

Implemented materials fail from time to time, requiring failure analysis. This type of scientific analysis expands into forensic engineering for it aims not only to identify individual and symptomatic reasons for failure, but also to assess and understand repetitive failure patterns, which could be related to underlying material faults, design mistakes, or maintenance omissions. Significant information can be gained and studied from carefully documenting and managing the data that comes from failure analysis of materials, including in the naval industry.

The NAVMAT research project, presented herein, attempts an interdisciplinary approach to materials informatics by integrating materials engineering and informatics under a platform of knowledge management. Our approach utilizes a focused, common-cause failure analysis methodology for the naval and marine environment. The platform's design is dedicated to the effective recording, efficient indexing, and easy and accurate retrieval of relevant information, including the associated history of maintenance and secure operation concerning failure incidents of marine materials, components, and systems in an organizational fleet. Based on a materials failure ontology, utilizing artificial intelligence (AI) algorithms and modern approaches to data handling, NAVMAT aims to optimize naval materials failure analysis management and support decision making in maintenance and repair operations (MRO), materials supply management, and staff training. It will eventually support decision making through appropriate AI and natural language processing methods.

Keywords: materials informatics, failure analysis, forensic engineering, naval and marine materials, information management

Introduction: Addressing the need

Some of the most important considerations in materials management and the necessary failure analysis of those materials for a large organization, industry, or service provider include the meticulous recording and indexing of an incident, the assessment and identification of causes, and the proposal of feasible solutions. To best handle these considerations, quick access to and retrieval of knowledge is a prerequisite. The related information is recorded at the platform level, but its integration at a central level and redistribution as knowledge and guidelines is not an easy process. As a result, problem solving operations may repeat when the same or similar problem appears in a different area of the organization, resulting in human and financial resources being “wasted” for re-interpreting the incident and operational readiness potentially being compromised. The disruption in the flow of knowledge (i.e., the knowledge gap) may be further intensified when taking into account:

  • The geographically distributed nature of platforms and units of a large organization (such as a naval fleet). Direct and seamless communication and knowledge transfer is a mark of efficiency.
  • The career path of staff, which are frequently transferred and reallocated (as with the military). The job requirements of the new post might be completely different, and the original knowledge acquired is not easily passed on during the traditional transfer of information from the predecessor to the newcomer.
  • The early retirement of individuals due to the specific characteristics of some professions (such as the navy officer). This may deprive the organization of critical knowledge transfer. Institutional and legal obstacles may further impede knowledge transfer from retired to active personnel.

These types of issues arise in the maritime trades. For example, a marine engine shaft failure (together with the knowledge acquired by the staff involved in failure analysis and the resulting repairs), remains a faint trace of information in the memory of the ship, when after three years, all staff may have been re-allocated.

To cope with the above challenges, we have developed, promoted, and established NAVMAT, a platform for the recording, indexing, comparing, assessment, and retrieval of all information relevant to failure analysis in the defined environment, including history of operations and maintenance, scientific evidence, and testimony. NAVMAT accounts for the variability of language use when reporting, together with the multi-modal assets attached to such events (e.g., measurements, photos, etc.), fulfilling the requirement for an intelligent system beyond simple keyword-based indexing and retrieval. Its design is based on an interdisciplinary approach to materials informatics by integrating materials engineering and informatics under a platform of knowledge management.

State of the art

References

Notes

This presentation is faithful to the original, with only a few minor changes to presentation. In some cases important information was missing from the references, and that information was added. Some grammar and spelling were cleaned up for better readability.