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The Office of Naval Research's Subsurface Platform Science & Technology program is focused on preserving and advancing the advantage of U.S. Navy platforms over adversaries.

The Office of Naval Research's Artificial Intelligence/Machine Learning for Photonics, Power & Energy, Atmospherics, and Quantum Science program is focused on machine learning techniques that can be applied to photonics, power and energy, thermal management and controls, atmospherics, communication, and quantum science for improved naval capabilities.

The Office of Naval Research's CAST program seeks to develop technologies to enable cooperative operations of unmanned maritime systems including unmanned underwater vehicles (UUVs), unmanned surface vessels (USVs) and weapons in a wide range of mission areas.

The Office of Naval Research's Ship Signatures program supports the Navy’s interest in advanced sea platform survivability science and technology, and submarine science and technology.

The Office of Naval Research's Hydrodynamics Related to Subsurface Vehicles (SSV) program supports the Navy’s interest in advanced sea platform performance science and technology, submarine science and technology, and naval engineering.

BAA Call N0001424SBC02 Special Program Announcement for Office of Naval Research (ONR) Research Opportunity: Fundamental Research Towards Expeditionary Air Warfare & Weapons

The Office of Naval Research's Advanced Ground and Amphibious Platforms program researches, develops and exploits science and technologies at the intersection of the mechanical, control and electronic system domains to enhance the maneuverability and mobility of ground and amphibious manned and unmanned platforms.

The Office of Naval Research's Propulsor Hydrodynamics and Hydroacoustics program explores science and technology related to the physics of fluid flow around propulsors to improve the Navy’s propulsor design capability for improved stealth, efficiency and mobility.

The Office of Naval Research's resilient structures research area endeavors to develop structural configurations, materials and technologies to enable self-sustainable, self-repairable and highly damage resistant structures.