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The Office of Naval Research Active Aperture Array program seeks to develop innovative electronics technologies that will enable the revolutionary architectures and capabilities of future electronically scanned array apertures.

The Office of Naval Research's Machine Learning, Reasoning and Intelligence program focuses on developing the science base and efficient computational methods for building versatile intelligent agents (cyber and physical) that can perform various tasks with minimal human supervision.

The Office of Naval Research's Atomic, Molecular and Quantum Physics program supports basic atomic, molecular and quantum (AMQ) physics research to advance navigation, timekeeping, and sensing technology, particularly in the maritime environment.

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.

The Office of Naval Research's Precision, Navigation and Timekeeping program seeks new and innovative navigation technologies that will provide accurate, reliable, maintainable and affordable systems for Naval surface, subsurface, air and ground platforms and forces.

The goal of the Office of Naval Research's Communications and Networking program is to support the Navy's Information Warfare vision by developing measurable advances in technology to improve end-to-end connectivity and quality-of-service for mission-critical information exchange among widely dispersed naval, joint, and coalition forces.

The Office of Naval Research Computational Methods for Decision Making Applied Research Program is composed of three thrusts—Large-scale Distributed Decision-making, Automated Image Understanding and Resource Optimization.

The Office of Naval Research's Nanoscale Computing Devices and Systems Program objective is to study the electronic, optical and magnetic properties of, and potential device functionalities in, nanometer scale materials and structures.