Thomas Oommen (DataS/GMES/EPSSI) is Principal Investigator on a project that has received a $39,999 research and development grant from the US Department of State. The project is titled, “Developing and Improving Disaster Management Studies Course in India.” This is a one-year project.
Elena Semouchkina (CPS) is the principal investigator on a project that has received a $337,217 research and development grant from the National Science Foundation (NSF). The project is “Developing Anisotropic Media for Transformation Optics by Using Dielectric Photonic Crystals.” This is a three-year project.
Yu Cai (CyberS) is the principal investigator on a project that has received a $49,728 research and development grant from the National Security Agency. The project is entitled, “Developing Hands-On Cybersecurity Curriculum with Real-World Case Analysis.” This is a one-year project.
Timothy Havens (DataS) and Timothy Schulz (DataS) were recently awarded a $15,000 contract from MIT Lincoln Laboratory to investigate signal processing for active phased array systems with simultaneous transmit and receive capability. While this capability offers increased performance in communications, radar, and electronic warfare applications, the challenging aspect is that a high-level of isolation must be achieved between the transmit and receive antennas in order to mitigate self-interference in the array. This project spearheads a collaboration with Dr. Jon Doane (BS and MS from MTU) in MIT Lincoln Laboratory’s RF Technology Group. Ian Cummings, an NSF Graduate Research Fellow who is co-advised by Havens and Schulz, is undertaking this research for his PhD dissertation and will spend the summers at MIT Lincoln Laboratory as part of the project.
Only 58 scientists and engineers were invited to join the Air Force’s Young Investigator Research Program (YIP) this year. Jeremy Bos (DataS) is the recipient of this prestigious award. The three-year YIP grant is for his project entitled, “Imaging Theory and Mitigation in Extreme Turbulence-Induced Anisoplanatism.” This project will explore the nature of imaging in conditions characterized by extreme anisoplanatism. Under these conditions each point in an image may be affected by a locally unique blurring kernel implying a violation of the linear shift invariance. Bos and his students will use a combination analysis and extensive experimental data to develop new models and new understanding of this phenomenon. Bos has also proposed using angular diversity as a means of mitigating the effects of extreme anisoplanatism on imaging and beam control problems.
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