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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 Ship Structural Reliability program is focused on the development of reliability-based knowledge and tools to improve performance and affordability of naval ship hull structures from cradle to grave.

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 goal of the surface ship hydrodynamics and dynamics research area is to develop increased understanding and predictive simulation capabilities of nonlinear interaction of surface ship and ocean environment, free surface turbulence, surface ship dynamics, and hydrodynamic loads in relevant operation environment.

The Office of Naval Research's Unmanned Surface Vehicle and Small Combatant Craft program supports the Navy’s interest in advanced sea platform performance, advanced sea platform and autonomy technologies.

The Office of Naval Research's Acoustic Transduction Materials and Devices program supports basic and applied research on materials and device technologies for Navy applications that generate, detect and suppress undersea signal for navigation, threat detection, weapons guidance, communication and the like.

Naval assets, large and small, spend months to years at sea exposed to considerable biofouling pressures. The Office of Naval Research's Biofouling Control and Coatings Program sponsors research to develop antifouling/fouling release coatings and the mechanics underlying such materials.

The Office of Naval Research's Computer-Aided Materials Design (CAMD) program funds research projects in materials design.

Dielectric Films for Capacitors is an Office of Naval Research program.

The Office of Naval Research's Functional Polymeric and Organic Materials program is focused on exploring the inherent strengths/properties of organic and polymeric materials to bring new capability to the Navy.