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The Ocean Battlespace Sensing Department explores science and technology in the ocean battlespace environment.

Non-Destructive Evaluation and Prognostics is a two-tiered research area within the Office of Naval Research's Sea Warfare and Weapons Department.

The Space Sensor & Effects objective is to develop and experiment with key technology enablers that provide effective and resilient Intelligence, Surveillance, Reconnaissance & Targeting (ISRT) capabilities as affordable and proliferated space-borne sensors for littoral & maritime environments.

BAA Call N00014-24-S-BC01 Special Programs Announcement for Office of Naval Research (ONR) Research Opportunity: Basic Research for Electro-Optic/Infrared (EO/IR) Sensors and Sensor Processing

Special Program Announcement for Office of Naval Research Research Opportunity: MUST-HITS

The Littoral Geosciences and Optics program (ONR 322LO) supports basic and applied research for expeditionary warfare, naval special warfare, mine warfare and antisubmarine warfare in shelf, near-shore, estuarine, riverine and riparian environments, with a particular emphasis on robust 4D prediction of environmental characteristics in denied, distant or remote environments.

New Investigator, HBCU/MSI, Early Career and Student Opportunities

The Office of Naval Research (ONR) sponsored a project at Virginia Tech University nearly 20 years ago that is now growing in influence across the world for measuring aerospace and aeronautical acoustics. Since noise reverberates against solid surfaces, such as the walls of a wind tunnel where acoustical testing takes place, collecting accurate sound data had been nearly impossible at the time. Researchers were also struggling to discern the sound of the wind tunnel’s air flow from the noise of the object traveling through it. After learning about some experiments on Kevlar as a wind screen, William Devenport, an engineering professor and director of Virginia Tech’s Stability Wind Tunnel, said he and a colleague wrote a proposal to then-ONR program officer Ron Joslin to try adding Kevlar to their wind tunnel walls. Devenport submitted the original grant proposal (N00014–04–1–04933) through the FY 2004 Defense University Research Instrumentation Program (DURIP) for alterations to Virginia Tech’s existing Stability Wind Tunnel that would allow it to measure flow-induced noise of relevance to Navy applications.