CONDITION-BASED UNMANNED UNDERSEA VEHICLE MAINTENANCE MONITORING AND PREDICTION SYSTEM (C-BUMMPS)
Loading...
Authors
Colegrove, Dana C.
Delisser, Jason M.
Johnson, Corey D.
Stebe, John R.
Subjects
Condition-Based Maintenance
CBM
Unmanned Undersea Vehicle
UUV
reliability
availability
Extra Large UUV
XLUUV
Large Displacement UUV
LDUUV
Medium UUV
MUUV
model based systems engineering
MBSE
Condition-Based UUV Maintenance Monitoring and Prediction System
C-BUMMPS
CBM
Unmanned Undersea Vehicle
UUV
reliability
availability
Extra Large UUV
XLUUV
Large Displacement UUV
LDUUV
Medium UUV
MUUV
model based systems engineering
MBSE
Condition-Based UUV Maintenance Monitoring and Prediction System
C-BUMMPS
Advisors
Whitcomb, Clifford A.
White, Corina L.
Date of Issue
2022-03
Date
Publisher
Monterey, CA; Naval Postgraduate School
Language
Abstract
As the Navy introduces its large displacement and extra-large class Unmanned Undersea Vehicles (UUVs), the need and desire grows for increased endurance on the order of weeks to months. Extended endurance is a necessary capability to enable UUVs to take on some of the mission areas of nuclear submarines. Energy efficiency and storage capacity are some of the first factors to be considered for extending the endurance of unmanned vehicles. However, a secondary and more challenging factor is UUV system reliability, and the ability to tolerate or avoid system failures. The intent of this project is to capture the stakeholder needs for improving UUV reliability, maintainability, and availability, then transform those needs into system requirements for a Condition-Based UUV Maintenance Monitoring and Prediction System (C-BUMMPS). Specifically, this project will develop and identify stakeholder, system functional, and system non-functional requirements. A C-BUMMPS architecture is developed to address the stakeholders’ needs. The developed architecture will consist of on-board sensing, monitoring, and processing elements on the UUV, in addition to ashore testing, data analytics, and maintenance activities needed to support the maturation of the C-BUMMPS. This project will utilize a model based systems engineering (MBSE) approach, and Innoslate was chosen as the desired MBSE tool. As such, certain views will be developed to depict the C-BUMMPS architecture from various perspectives.
Type
Thesis
Description
Series/Report No
Department
Organization
Identifiers
NPS Report Number
Sponsors
Funder
Format
Citation
Distribution Statement
Approved for public release. Distribution is unlimited.
Rights
This publication is a work of the U.S. Government as defined in Title 17, United States Code, Section 101. Copyright protection is not available for this work in the United States.