Innovative Butterfly-Compressed Microlocal Hadamard-Babich Integrators for Large-Scale Hig — NSF Award to Michigan State Universit
This project develops and implements innovative fast algorithms for large-scale wave modeling and inversion. Waves are ubiquitous, for example, wireless signals are communicated in the form of electromagnetic waves, and ultrasound CT imaging is based on propagation of acoustic waves. In fact, wave simulation is a funda
| Award title | Innovative Butterfly-Compressed Microlocal Hadamard-Babich Integrators for Large-Scale Hig |
|---|---|
| Award ID | 2309534 |
| Awardee | Michigan State University |
| City | EAST LANSING |
| State | MI |
| Amount obligated | $290,000 |
| Principal investigator | Jianliang Qian |
| Program | COMPUTATIONAL MATHEMATICS |
| Start date | 08/01/2023 |
| Abstract | This project develops and implements innovative fast algorithms for large-scale wave modeling and inversion. Waves are ubiquitous, for example, wireless signals are communicated in the form of electromagnetic waves, and ultrasound CT imaging is based on propagation of acoustic waves. In fact, wave simulation is a fundamental, growing technology in a variety of disciplines ranging from synthetic aperture radar, sonar, geophysical resources exploration, medical imaging, submarine detection, remote |
| Source | NSF Awards |
$799/mo
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