- No events scheduled for November 26, 2023.
- No events scheduled for November 27, 2023.
- No events scheduled for November 28, 2023.
- No events scheduled for November 30, 2023.
The Effects of a Non-Uniform Magnetic Field on the Efficiency of a Solar Cell
Virtual: https://events.vtools.ieee.org/m/387035- No events scheduled for December 2, 2023.
Week of Events
IEEE Distinguished Industry Speaker Dr. Linda Moore – Synthetic Aperture Radar (SAR) Signal Processing Challenges and Data Sets for Associated Research
IEEE Distinguished Industry Speaker Dr. Linda Moore – Synthetic Aperture Radar (SAR) Signal Processing Challenges and Data Sets for Associated Research
Please join IEEE Dayton Signal Processing Society in welcoming 2023 IEEE Distinguished Industry Speaker Dr. Linda Moore! Radar offers some unique capabilities compared to other sensing phenomenologies. For example, radar can operate at long ranges, during the day and night, and in most weather conditions. Synthetic aperture radar (SAR) enables formation of 2D and 3D images of ground scenes for a wide array of military and commercial applications. In this talk, Dr. Linda Moore will discuss current challenges in SAR signal processing, including the challenge of applying machine/deep learning techniques to SAR automatic target recognition (ATR). Measured and synthetic SAR data has been made publicly available by the U.S. Air Force Research Laboratory and can assist in developing new techniques for today's SAR signal processing challenges. Available data sets will be associated with relevant technical challenges and examples of related IEEE published work will be highlighted. Speaker(s): Dr. Linda Moore Virtual: https://events.vtools.ieee.org/m/374409
Brenden Glover talk on Locking of Oscillators
Brenden Glover talk on Locking of Oscillators
Brenden Glover, a PhD student working with AFRL, will be presenting his work on locking of photoinc based oscillators. Virtual: https://events.vtools.ieee.org/m/385170
The Effects of a Non-Uniform Magnetic Field on the Efficiency of a Solar Cell
The Effects of a Non-Uniform Magnetic Field on the Efficiency of a Solar Cell
Commercial-grade silicon-based solar cells have an efficiency in the 20-30% range. The addition of a non-uniform magnetic field can increase the efficiency of a solar cell by manipulating the movement of the charge carriers within the silicon. This manipulation can increase the current produced by the solar cell which helps to increase the power and efficiency of the solar cell. This theory can be tested by measuring a solar cell’s output current and voltage both with and without the presence of a non-uniform magnetic field. A higher output power means the efficiency of the solar cell is increased. Co-sponsored by: Wright-Patt Multi-Intelligence Development Consortium (WPMDC), The DOD & DOE Communities Speaker(s): Jason Agenda: Commercial-grade silicon-based solar cells have an efficiency in the 20-30% range. The addition of a non-uniform magnetic field can increase the efficiency of a solar cell by manipulating the movement of the charge carriers within the silicon. This manipulation can increase the current produced by the solar cell which helps to increase the power and efficiency of the solar cell. This theory can be tested by measuring a solar cell’s output current and voltage both with and without the presence of a non-uniform magnetic field. A higher output power means the efficiency of the solar cell is increased. Virtual: https://events.vtools.ieee.org/m/387035