Our Services

Applied Research and Engineering Services

UTS ARED is currently staffed by Ph.D. Level employees averaging 30 years of service. They have a history of providing unique DoD, US Government, and industry advance technology. Our current expertise includes Algorithm Development, Image Processing, Advanced Networking, Cybersecurity, Machine Learning, Artificial Intelligence, Signals Security, System Modeling and Simulation, and Signal Processing. We are engaged in multiple SBIR, BAA, IDIQ, and direct to industry opportunities. We routinely team/collaborate with universities and/or industry. Many of our ARED employees can support US classified efforts.

IT, AV & Security

UTS delivers best life cycle value with agile, rapidly deployable, and scalable design-build packages to meet ever-changing IT and operational requirements.

• Networking & Telecom Equipment ●
• Local, Wide & Storage Area Networks ●
• Networking Operating Systems ●
• Cloud Computing & Platform Virtualization ●
• Perimeter & Physical Security ●
• Audio-Visual Solutions ●
• Wireless Networking ●
• Software Defined Networks ●
• Structured & Outside Plant Cabling Systems ●
• Intelligent Transportation Systems (ITS)

High Performance / Advanced Computing & Architecture Design

Expertise supporting Field-Programmable Gate Array (FPGA) prototypes mimicking hardware in various simulation environments for algorithm development research and architecture enhancements; development and testing of software architecture performance on applications for Big Data, Graph Analytics, and next generation memory configuration; conversion of databases acceptable for visualization analysis; and blind signal recognition and characterization.

Cyber Security, Malware Detection, & Machine Learning

UTS develops cryptographic proofs of security to create mathematical frameworks (models) for analysis. Proofs are increasingly important for cryptosystems in the process of being standardized, as they can more accurately assess a security scheme’s weaknesses to attack. We also conduct R&D in using machine learning techniques for early cyber intrusion and malware detection, system protection, and system resilience. Our Memristor-based neuromorphic processor research with machine learning algorithms is accessing application for advanced pattern or behavior recognition.

Quantum Computing & Superconductivity

We perform quantum computer architecture design and modeling research to support on-going cryogenic and room-temperature quantum/superconductivity device laboratory experimentation. For superconductivity, we have studied the motion and scattering of fluxon solitons in superconducting circuits as carriers of information that move under their own inertia in circuits. We also provide technical expertise for collaborative experimental research in superconducting and fiber optics architecture design and fabrication.

Biometric Modeling & Biomathematics

Our researchers developed sophisticated mathematical algorithms for modeling and simulation of pupil light reflex (PLR) that allowed development of a systematic framework for a new linearized stability model incorporating the iris musculature. This technique directly aides the National Institute of Standards and Technology’s (NIST) efforts for understanding the effects of dilation on iris recognition, as well as the Department of Homeland Security (DHS) in iris photo matching performance.

Optics / Photonics

Development of numerous prototype optical waveguides with various exotic materials to test performance and benefits. This includes fabrication and research in Enhanced continuous-wave four-wave-mixing efficiency in nonlinear AlGaAs waveguides, Polarization-insensitive wavelength conversion of 27-1 PRBS data packets, Silicon nitride ring resonators, and others.