NPS NRP Executive SummaryHydrodynamically-based Detection of the Surface and Subsurface WakesN2/N6 - Information WarfareThis research is supported by funding from the Naval Postgraduate School, Naval Research Program (PE 0605853N/2098). https://nps.edu/nrpChief of Naval Operations (CNO)Approved for public release. Distribution is unlimited.
News Stories ArchiveA team of Naval Postgraduate School (NPS) researchers is partnering with local r...
NPS NRP Executive SummaryOrganizational Assessment of a Future Surface Force Development Squadron (S...
CRUSER Funded ResearchFY17 Funded Research ProposalCRUSER has funding to support NPS Faculty researc...
This study addresses the problem of hydrodynamically-based detection of the surface and subsurface w...
CRUSER Funded ResearchFY20 Funded Research ProposalCRUSER has funding to support NPS Faculty researc...
The recent development of various masking and noise-reducing technologies for submarines, aimed at t...
This study aims to explore the behavior of turbulent wakes generated by a spherical submerged body p...
NPS NRP Executive SummaryDiesel Submarine Support to SOFNaval Special Warfare Command (NAVSPECWARCOM...
Advances in engineering and technology have made acoustic detection of submarines increasingly diffi...
Peter Chu, Principal InvestigatorUnderstanding the ocean environment is imperative and directly coup...
NPS NRP Executive SummaryChange Detection of Marine Environments Using Machine LearningHQMC Intellig...
NPS NRP Executive SummaryOperational Internal Wave Prediction Validation and ImpactsCommander, Subma...
NPS NRP Executive SummaryHydrocode Analysis of Seabed Effector Initiation OptionsCommander, Submarin...
NPS NRP Executive SummaryProject Summary: In 2015, a former Naval Postgraduate School (NPS) student ...
With advancing technology, submarines are getting quieter, and detection methods may need to include...
News Stories ArchiveA team of Naval Postgraduate School (NPS) researchers is partnering with local r...
NPS NRP Executive SummaryOrganizational Assessment of a Future Surface Force Development Squadron (S...
CRUSER Funded ResearchFY17 Funded Research ProposalCRUSER has funding to support NPS Faculty researc...
This study addresses the problem of hydrodynamically-based detection of the surface and subsurface w...
CRUSER Funded ResearchFY20 Funded Research ProposalCRUSER has funding to support NPS Faculty researc...
The recent development of various masking and noise-reducing technologies for submarines, aimed at t...
This study aims to explore the behavior of turbulent wakes generated by a spherical submerged body p...
NPS NRP Executive SummaryDiesel Submarine Support to SOFNaval Special Warfare Command (NAVSPECWARCOM...
Advances in engineering and technology have made acoustic detection of submarines increasingly diffi...
Peter Chu, Principal InvestigatorUnderstanding the ocean environment is imperative and directly coup...
NPS NRP Executive SummaryChange Detection of Marine Environments Using Machine LearningHQMC Intellig...
NPS NRP Executive SummaryOperational Internal Wave Prediction Validation and ImpactsCommander, Subma...
NPS NRP Executive SummaryHydrocode Analysis of Seabed Effector Initiation OptionsCommander, Submarin...
NPS NRP Executive SummaryProject Summary: In 2015, a former Naval Postgraduate School (NPS) student ...
With advancing technology, submarines are getting quieter, and detection methods may need to include...
News Stories ArchiveA team of Naval Postgraduate School (NPS) researchers is partnering with local r...
NPS NRP Executive SummaryOrganizational Assessment of a Future Surface Force Development Squadron (S...
CRUSER Funded ResearchFY17 Funded Research ProposalCRUSER has funding to support NPS Faculty researc...