Her grad work involved inferometrics and corner cameras. Then there was a series of papers using lidar to image around corners that also drew on her work.
When I read about her work on the CHIRP algorithm, it occured to me there was quite a range of interesting practical applications around it (at the time I was very interested in full waveform lidar). Many lidar systems allow for multiple return counts. If you have multiple shots into a single physical space, you can think of the shot vector as being in frequency space. Build up enough shots into a single space and while it’s not traditional inferometry, you can think of the result as an interference mire typical from something like infsar
Well if you’ve ever check out her yt channel and grad work: https://m.youtube.com/watch?v=EfGvPinTJU s, the suspicion might begin to reveal itself.
Her grad work involved inferometrics and corner cameras. Then there was a series of papers using lidar to image around corners that also drew on her work.
When I read about her work on the CHIRP algorithm, it occured to me there was quite a range of interesting practical applications around it (at the time I was very interested in full waveform lidar). Many lidar systems allow for multiple return counts. If you have multiple shots into a single physical space, you can think of the shot vector as being in frequency space. Build up enough shots into a single space and while it’s not traditional inferometry, you can think of the result as an interference mire typical from something like infsar
Sounds like that recent captain d video about deblurring gaussian blurred images