Award Data

The Defense Modeling and Simulation Office (DMSO) has developed the High Level Architecture (HLA) as one of the principle components of a DoD-wide Common Technical Framework for modeling and simulation (M&S). Unlike previous distributed simulation technologies such as DIS and SIMNET, HLA provides federation developers, via the Object Model Template (OMT), the means to define the structure and for ...

This SBIR proposes the development of the 3/16 inch diameter "Wing-It" blind fastener. This effort will include fastening both aluminum and composite sheet material. The technical objective is to demonstrate a low-cost fastener for future aircraft as an alternative to production fasteners. The "Wing-It" fastener distributes the load in the joint over a much larger area than conventional fastene ...

A new liquid crystal based detector (acousto-optic sensor) will be developed for operation at frequencies below 500kHkz. The superior acoustic detection sensitivity of the sensor will be demonstrated and its feasibility for providing efficient and cost-effective means of acousto-optic image conversion in underwater acoustic imaging systems will be established.

This Small Business Innovation Research Phase I will fabricate a new transducer element, which is matrix addressable, conformable and low cost. It is based on the use of a composite magnetoelectric film fabricated as a hollow cylinder. This cylinder contains both the sensing elements and the matrix-forming element. This approach builds on previous work on a composite laminar maggetoelectric mat ...

The Public Safety Community (Community) would like to share information between jurisdictions, but need to trust with a reasonable certainty that the users viewing this information are who they say they are. Similarly, the Federal government and other organizations need to be reasonably sure that their new users are accessing the right information online. Identity proofing a user, either remotely ...

Gun-launched applications currently expose inertial measurement units (IMUs) to harsh acceleration, shock, and vibration environments. Furthermore, as they become smarter, they present tighter constraints on size, weight, power, and cost (SWaP-C), while still requiring high levels of performance. New accelerometer technology must reduce SWaP-C while operating through high-g acceleration environmen ...

Mission times for high velocity projectiles (HVP) are very short and detection and discrimination of targets must happen quickly and decisively. One way to achieve this is through the enhanced contrast resulting from polarized sensing, which tends to highlight manmade objects and suppress natural background clutter. Thermal polarimetric sensing in a small package has been demonstrated already but ...

The capability to reliably and remotely detect and track tactical surface targets in a high-velocity projectile after launch is a critical need. The discrimination of man-made objects can be assisted by the detector technology, with options including two-color detectors and polarimetric filtering in the thermal infrared bands. The level of complexity in the focal plane array affects its survivabil ...

Recently developed high velocity projectiles employ tungsten nosetips and titanium alloy control surfaces. The tungsten nose remains thermochemically stable at current muzzle velocities and provides ballast to maintain aerodynamic stability. Present flight velocities allow titanium fins to remain below melt temperatures and their low densities minimize inertial loads on the actuators. In order to ...

To support the detection and identification of high-value targets in mission-critical applications, specifically those for which there are few or no sample images, ARiA will develop and demonstrate the feasibility of LIFT (Learning Imagery for Few-Shot Training), a training-data augmentation tool for use in few-shot learning scenarios that: (1) intelligently applies image-processing functions to e ...