Aerospace & Defense Technology

April 2021

    • Developing a 6DoF Aircraft Munitions Optical Tracking System
    • Plasma Nitride Surface Hardening of Titanium for Aerospace and Armament Applications
    • The Future of Aircraft Electrification
    • Shielding Aerospace Systems from Electromagnetic Interference
    • Improving Transmit/Receive Module Test Accuracy and Throughput
    • Army Detects Broadest Frequencies Ever with Quantum Receiver
    • A Comparative Evaluation of the Detection and Tracking Capability Between Novel Event-Based and Conventional Frame-Based Sensors
      This research establishes a fundamental understanding of the characteristics of event-based sensors and applies it to the development of a detection and tracking algorithm.
    • Sensory Integration Balance Deficits in Complex mTBI: Can Early Initiation of Rehabilitation with Wearable Sensor Technology Improve Outcomes?
      Developing a novel feedback system using wearable sensors to provide physical therapists with realtime information about quality of head and trunk movement during exercise could improve patient rehabilitation practices.
    • Characterization of Turbulent Unsteady Separation Using Photonic Micro-Skin Friction and Wall Pressure Sensors
      Investigating the structure and dynamics of unsteady/transient separated turbulent boundary layers using a photonic skin friction and wall pressure sensor.
    • Frequency Agile Plasmonic Antennas and Sensors
      Developing an integrated method for assembly and characterization of individual nanostructures will facilitate the exploration of new design principles for plasmonic photonic devices.
    • Low-Impact Space Weather Sensors and the U.S. National Security Spacecraft
      Incorporating inexpensive, low-impact, targeted surface charging (plasma) and total ionizing dose (radiation) sensors onto national security spacecraft to monitor real-time environments local to each spacecraft will close a gap in the U.S. space weather observation network.
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