TuF3.1 - AIR-LAUNCHED UAS: OPPORTUNITIES FOR PHOTONICS AND RELATED TECHNOLOGIES
Abstract
Abstract
There has been great interest among the Special Operations Community for the capabilities that Air-Launched UAS can provide. This presentation will address how air-launched UAS provide additional capability in support of the AFSOC mission and identify potential areas where Photonics or related technologies may contribute.
TuF3.2 - AFSOC MISSION NETWORKING, AUTOMATOUS OPERATIONS, SENSOR OPERATIONS, & DATA WRANGLING - CURRENT STATE & FUTURE
TuF3.3 - “HIDING” A LOW-INTENSITY 50-GBIT/S QPSK FREE-SPACE OPTICAL BEAM THAT CO-AXIALLY PROPAGATES ON THE SAME WAVELENGTH WITH A HIGH-INTENSITY 50-GBIT/S QPSK OPTICAL BEAM USING ORTHOGONAL MODE MULTIPLEXING
- H. Song (US) University of Southern California
- A. Almaiman (US) University of Southern California
- H. Song (US) University of Southern California
- Z. Zhao (US) University of Southern California
- R. Zhang (US) University of Southern California
- K. Pang (US) University of Southern California
- C. Liu (US) University of Southern California
- L. Li (US) University of Southern California
- K. Manukyan (US) University of Southern California
- S. Zach (IL) Tel Aviv University
- N. Cohen (IL) Tel Aviv University
- M. Tur (IL) Tel Aviv University
- A. Willner (US) University of Southern California
Abstract
Abstract
We experimentally demonstrate using data-carrying Gaussian beam to “hide” a weaker data carrying OAM beam. A 50-Gbit/s QPSK data link with Q factor above 4.5 is realized for the weak OAM beam when the power difference between Gaussian and OAM beam is 30-dB.
TuF3.5 - SMALL BATCH PRODUCTION AND TEST OF CUSTOM SUPPORT ELECTRONICS FOR INFRARED LED SCENE PROJECTORS
Abstract
Abstract
Building an Infrared Scene Projector (IRSP) requires reliable electronics. Our Closed System Electronics (CSE) is designed to be modular and scalable to drive current and future IRSPs. This work highlights the production, performance, packaging, and hardware developments of our CSE.
TuF3.6 - LONGITUDINAL STUDY TO EVALUATE RELIABILITY, REPEATABILITY, AND REPRODUCIBILITY OF INFRARED LED SCENE PROJECTORS
Abstract
Abstract
As Infrared LED (IRLED) scene projector (IRSP) technology advances, the need to test for consistency and longevity also becomes more crucial. This paper characterizes the tests used to measure the reliability, repeatability, and reproducibility (R3) of an IRLED scene projector and the outcomes.