Prognostics and Health Management of Unmanned Surface Vessels: Past, Present, and Future

Author:

Hazra Indranil1,Weiner Matthew J.1,Yang Ruochen1,Chatterjee Arko2,Southgate Joseph2,Groth Katrina M.1,Azarm Shapour1

Affiliation:

1. University of Maryland Department of Mechanical Engineering, Center for Risk and Reliability, , College Park, MD 20742

2. University of Maryland Department of Mechanical Engineering, , College Park, MD 20742

Abstract

Abstract With the increasing popularity and deployment of unmanned surface vessels (USVs) all over the world, prognostics and health management (PHM) has become an indispensable tool for health monitoring, fault diagnosis, health prognosis, and maintenance of marine equipment on USVs. USVs are designed to undertake critical and extended missions, often in extreme conditions, without human intervention. This makes the USVs susceptible to equipment malfunction, which increases the probability of system failure during mission execution. In fact, in the absence of any crew onboard, system failure during a mission can create a great inconvenience for the concerned stakeholders, which compels them to design highly reliable USVs that must have integrated intelligent PHM systems onboard. To improve mission reliability and health management of USVs, researchers have been investigating and proposing PHM-based tools or frameworks that are claimed to operate in real time. This paper presents a comprehensive review of the existing literature on recent developments in PHM-related studies in the context of USVs. It covers a broad perspective of PHM on USVs, including system simulation, sensor data, data assimilation, data fusion, advancements in diagnosis and prognosis studies, and health management. After reviewing the literature, this study summarizes the lessons learned, identifies current gaps, and proposes a new system-level framework for developing a hybrid (offline–online) optimization-based PHM system for USVs in order to overcome some of the existing challenges.

Funder

Office of Naval Research

Publisher

ASME International

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