Award Data

The nature of complex combat operations must now include adversaries that have peer-level capabilities, such as the ability to locate friendly troops by their transmissions and jam their radios so they can’t call for help, setting them up for attack. However, critical to all combat scenarios, regardless of adversary capability levels, is the need to command, control, communicate and exchange inf ...

The US Army needs an effective method to augment and repair existing armor technologies. Nanoscale metal matrix composite (MMC) materials provide a promising combination of properties and could provide an ideal armor coating for increasing threat severity. Cold spray is a low temperature, solid state method of additive manufacturing that has shown promise for the deposition of hard, MMC materials ...

The U.S. Army requires additive manufacturing (AM) techniques that can repair and retrofit structures to improve ballistic survivability. Current AM processes have low deposition rates, are constrained by environmental chambers, and are not readily scalable for large-size production. The goal of this STTR topic is to develop a rapid-deposition ballistic-resistant-coating for metal panels. NanoCoat ...

AQUILA proposes adapting a commercially available nanodot technology to embed a small Optically Stimulated Luminescence (OSL) dosimeter into a Common Access Card (CAC), or some other military ID card. The nanodot dosimetry approach can be adapted to the size of a CAC, which is approximately 8.6 cm (3.37 in) high by 5.4 cm (2.125 in) wide. The typical thickness is about 0.8 mm (0.03 in). The OSL re ...

To address the performance degradation of fixed scheduling policies used by TDMA-based tactical networks in contested and congested environments, a distributed cognitive TDMA scheduling and anti-jamming protocol is proposed. Technical approach consists of: 1. Developing a deep learning (DL) classifier for jammer/interference identification and automatic detection of network congestion that exchang ...

Prototypes of ultra-flexible, high efficiency photovoltaic power generation units will be fabricated and tested in two campaigns. Initial batch of 15 units will provide the processing, fabrication and characterization data necessary to evaluate the initial designs. Based on the results of the first batch, a second batch of 20 units will be fabricated and tested. Detailed process, tool and manufact ...

Verus Research is pleased to respond to the A16-123 Army Phase-II SBIR solicitation. To meet the Army’s Phase-II requirements in a risk-mitigated fashion, Verus Research will leverage its innovative “Ferengi” family-of-antennas technology which was conceived, designed, and experimentally demonstrated by Verus Research under the previous Army-funded Phase-I Base A16-123 SBIR effort. For the p ...

The Chemical and Biological Defense (CBD) Program requires advanced standoff sensor technology that can provide more comprehensive threat information to enhance situational awareness and improve force protection. Historically, CBD and Intelligence, Surveillance and Reconnaissance (ISR) sensors have been developed with a focus on the individual missions, with little effort applied to developing int ...

To address the Army"s requirement for Low-Cost Chaos-based Radar solution, TechFlow Scientific and the University of New Mexico will design, develop, and test a prototype chaos based radar employing a coherent receiver with a matched filter. In Phase-I, we will perform a careful design study of the chaos-radar system components. We will develop robust technical solutions such as the use of Titaniu ...

This SBIR Phase I project proposes development of a technologically feasible batch process for making nitrocellulose-nanothermite composites in a granular form for the ignition of propellants. The R & D will focus on the determination of burn rates, dynamic pressure profiles and ESD sensitivities of selected Al/CuO/Fe2O3 and Al/Fe2O3/Bi2O3 energetic nanocomposites based on spherical and flake nano ...