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Applied Optimization, Inc
UEI: JGPNAVA6MSJ9
# of Employees: 23
HUBZone Owned: No
Socially and Economically Disadvantaged: Yes
Woman Owned: No
Award Charts
Award Listing
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Satellite and Debris Discrimination and Identification
Amount: $149,999.03The research objective of this effort is to develop an autonomous, robust, and efficient AI/ML software architecture that will enable rapid and accurate characterization and discrimination of space ob ...
SBIRPhase I2022Department of Defense Air Force -
Machine Independent, Feature-Specific AM Parameters for Laser Powder Bed Fusion Additive Manufacturing to Enable DOD Ownership of Data to Produce High Quality, As-Built Material for Complex Geometry Structural Parts
Amount: $1,262,869.00The proposed work is to demonstrate the ability to predict Feature-Specific Parameters (FSP) for the Additive Manufacturing (AM) of high-quality, net-shape, as-built Ti-6Al-4V material for structural ...
SBIRPhase II2022Department of Defense Air Force -
Advanced Persistent-Surveillance Sky Camera
Amount: $139,999.00There are five objectives to the Phase I work: 1) Better measurements (photometric accuracy and precision) than WASP 1.0; 2) Larger dynamic range of stellar magnitudes; 3) Variability measurements val ...
SBIRPhase I2022Department of Defense Navy -
Turbine Engine Efficiency Improvements by Additive Manufacturing
Amount: $140,000.00The Phase I research objective is to demonstrate the feasibility to Integrate thermodynamic and material property databases with Computational Materials Engineering (ICME) to design the chemistry and ...
SBIRPhase I2022Department of Defense Navy -
Wire-Feed Additive Manufacturing Process Control Solution with Defect Detection, Identification and Correction
Amount: $124,999.00The research objective for Phase I is to demonstrate feasibility to: (1) Incorporate sensor data feedback and utilize software tools and computation resources to demonstrate feasibility of a real-time ...
SBIRPhase I2021National Aeronautics and Space Administration -
Integrated Computational Materials Engineering (ICME) Modeling Tool for Optimum Gas Flow in Metal Additive Manufacturing Processes
Amount: $239,996.00The Phase I research objective is to demonstrate the feasibility of optimizing gas flow for producing defect-free repair of structural metal components using Directed Energy Deposition (DED) Additive ...
STTRPhase I2021Department of Defense Navy -
Tunable, Reconfigurable Metamaterials Using Liquid Crystal Medium
Amount: $124,143.00We propose to take advantage of the tunable, isotropic properties of Liquid Crystals (LCs) to design two different models for a tunable, LC-based metamaterial (LCM) device. This device will be designe ...
STTRPhase I2020National Aeronautics and Space Administration -
Tunable Bioinspired Spatially-varying Random Photonic Crystals
Amount: $750,000.00The research objective of the proposed Phase II work is to design, optimize, and demonstrate breadboard prototypes of bio-inspired Spatially Varying Photonic Crystals (SVPCs) that optimize tunability, ...
STTRPhase II2020Department of Defense Air Force -
Rapid, Low Cost, High-quality Component Qualification Using Multi-scale, Multi-physics Analytical Toolset for the Optimization of Metal Additive Manuf
Amount: $1,000,000.00The research objective of the proposed Phase II is to demonstrate a prototype analytical toolset for the optimization of metal additive manufacturing (AM) machine settings. Its purpose is to reduce th ...
SBIRPhase II2019Department of Defense Navy -
Optimization of Sodium Guide Star Return using Polarization and/or Modulation Control
Amount: $150,000.00The research objective of the proposed work is to increase the efficiency of the laser return of a Sodium Guide Star Laser (SGSL) reflected off the sodium layer for increased reliability and applicabi ...
STTRPhase I2019Department of Defense Air Force
