Hybrid Airship Multi-Role (HAMR) Anti-Submarine Warfare (ASW) mission capability

Hybrid Airship Multi-Role (HAMR) Anti-Submarine Warfare (ASW) mission capability

The Hybrid Airship Multi-Role (HAMR) Anti-Submarine Warfare (ASW) Mission Module project applies established systems engineering principles and processes to the design of an ASW payload module that examines the capability of the HAMR to perform persistent ASW mission support. Critical system funct...

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Main Authors: Agpaoa, Roy, Cawley, Matthew, Cossey, Chad, Galvan, Jose, Giang, Alan, Hanchinamani, Joseph, Ikeda, Jeffrey, Kenney, John, Magnusson, Lance, Martinez, Christopher, Newberry, Mike, Raymond, Eldridge, Rykala, John, Watts, Jason, Wood, Micheal
Other Authors: Systems Engineering
Published: Monterey, California. Naval Postgraduate School 2012
Online Access:http://hdl.handle.net/10945/6935
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spelling ndltd-nps.edu-oai-calhoun.nps.edu-10945-69352015-02-11T03:55:38Z Hybrid Airship Multi-Role (HAMR) Anti-Submarine Warfare (ASW) mission capability Hybrid Airship Multi-Role (HAMR) Anti-Submarine Warfare (ASW) mission capability Agpaoa, Roy Cawley, Matthew Cossey, Chad Galvan, Jose Giang, Alan Hanchinamani, Joseph Ikeda, Jeffrey Kenney, John Magnusson, Lance Martinez, Christopher Newberry, Mike Raymond, Eldridge Rykala, John Watts, Jason Wood, Micheal Systems Engineering The Hybrid Airship Multi-Role (HAMR) Anti-Submarine Warfare (ASW) Mission Module project applies established systems engineering principles and processes to the design of an ASW payload module that examines the capability of the HAMR to perform persistent ASW mission support. Critical system functions and objectives are identified and are assigned appropriate quantitative metrics. Additionally, three alternative architectures are generated and evaluated using the appropriate metrics based on results from modeling using Naval Systems Simulation (NSS). Manning is considered as a key stakeholder parameter and is included as an evaluation concern. The alternatives are also compared through the examination of life cycle costs. The recommendation to the stakeholders based on the research and results is an unmanned ASW sensor platform that uses other ASW assets for prosecution. 2012-05-29T17:19:48Z 2012-05-29T17:19:48Z 2008-06 Thesis http://hdl.handle.net/10945/6935 NPS-SE-08-003 Monterey, California. Naval Postgraduate School
collection NDLTD
sources NDLTD
description The Hybrid Airship Multi-Role (HAMR) Anti-Submarine Warfare (ASW) Mission Module project applies established systems engineering principles and processes to the design of an ASW payload module that examines the capability of the HAMR to perform persistent ASW mission support. Critical system functions and objectives are identified and are assigned appropriate quantitative metrics. Additionally, three alternative architectures are generated and evaluated using the appropriate metrics based on results from modeling using Naval Systems Simulation (NSS). Manning is considered as a key stakeholder parameter and is included as an evaluation concern. The alternatives are also compared through the examination of life cycle costs. The recommendation to the stakeholders based on the research and results is an unmanned ASW sensor platform that uses other ASW assets for prosecution.
author2 Systems Engineering
author_facet Systems Engineering
Agpaoa, Roy
Cawley, Matthew
Cossey, Chad
Galvan, Jose
Giang, Alan
Hanchinamani, Joseph
Ikeda, Jeffrey
Kenney, John
Magnusson, Lance
Martinez, Christopher
Newberry, Mike
Raymond, Eldridge
Rykala, John
Watts, Jason
Wood, Micheal
author Agpaoa, Roy
Cawley, Matthew
Cossey, Chad
Galvan, Jose
Giang, Alan
Hanchinamani, Joseph
Ikeda, Jeffrey
Kenney, John
Magnusson, Lance
Martinez, Christopher
Newberry, Mike
Raymond, Eldridge
Rykala, John
Watts, Jason
Wood, Micheal
spellingShingle Agpaoa, Roy
Cawley, Matthew
Cossey, Chad
Galvan, Jose
Giang, Alan
Hanchinamani, Joseph
Ikeda, Jeffrey
Kenney, John
Magnusson, Lance
Martinez, Christopher
Newberry, Mike
Raymond, Eldridge
Rykala, John
Watts, Jason
Wood, Micheal
Hybrid Airship Multi-Role (HAMR) Anti-Submarine Warfare (ASW) mission capability
author_sort Agpaoa, Roy
title Hybrid Airship Multi-Role (HAMR) Anti-Submarine Warfare (ASW) mission capability
title_short Hybrid Airship Multi-Role (HAMR) Anti-Submarine Warfare (ASW) mission capability
title_full Hybrid Airship Multi-Role (HAMR) Anti-Submarine Warfare (ASW) mission capability
title_fullStr Hybrid Airship Multi-Role (HAMR) Anti-Submarine Warfare (ASW) mission capability
title_full_unstemmed Hybrid Airship Multi-Role (HAMR) Anti-Submarine Warfare (ASW) mission capability
title_sort hybrid airship multi-role (hamr) anti-submarine warfare (asw) mission capability
publisher Monterey, California. Naval Postgraduate School
publishDate 2012
url http://hdl.handle.net/10945/6935
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