20 research outputs found
Supplementary Movie 1.mp4
Kilcullen, P., Ozaki, T. & Liang, J. Compressed ultrahigh-speed single-pixel imaging by swept aggregate patterns. Nat Commun 13, 7879 (2022). https://doi.org/10.1038/s41467-022-35585-8
Supplementary Movie 1: Three reconstructed videos of an oscillating pendulum (1.53 s duration, 41×43 frame size), corresponding to the data presented in Fig. 3. Sampling rates (from left to right) are 100%, 50%, and 25%, with imaging speeds of 145 fps, 298 fps, and 598 fps, respectively.  </p
Supplementary Movie 6.mp4
Kilcullen, P., Ozaki, T. & Liang, J. Compressed ultrahigh-speed single-pixel imaging by swept aggregate patterns. Nat Commun 13, 7879 (2022). https://doi.org/10.1038/s41467-022-35585-8
Supplementary Movie 6: Reconstructed video of a 30-slot optical chopper rotating at 4800 RPM (9.83 ms duration, 11×13 frame size, 12.0 kfps framerate, 55% sampling), corresponding to the data presented in (from left to right) Fig. 6b–f. </p
Supplementary Movie 7.mp4
Kilcullen, P., Ozaki, T. & Liang, J. Compressed ultrahigh-speed single-pixel imaging by swept aggregate patterns. Nat Commun 13, 7879 (2022). https://doi.org/10.1038/s41467-022-35585-8
Supplementary Movie 7: Filmed demonstration of SPI-ASAP operating in real-time for a variety of scenes, frame sizes, and frame rates. </p
Supplementary Movie 4.mp4
Kilcullen, P., Ozaki, T. & Liang, J. Compressed ultrahigh-speed single-pixel imaging by swept aggregate patterns. Nat Commun 13, 7879 (2022). https://doi.org/10.1038/s41467-022-35585-8
Supplementary Movie 4: Reconstructed video of the current-induced failure of a sealed incandescent light bulb filament (1.06 s duration, 41×43 frame size, 298 fps framerate, 50% sampling), corresponding to the data presented in Fig. 5b. </p
Supplementary Movie 5.mp4
Kilcullen, P., Ozaki, T. & Liang, J. Compressed ultrahigh-speed single-pixel imaging by swept aggregate patterns. Nat Commun 13, 7879 (2022). https://doi.org/10.1038/s41467-022-35585-8
Supplementary Movie 5: Reconstructed video of the current-induced failure of an exposed incandescent light bulb filament (1.79 s duration, 41×43 frame size, 298 fps framerate, 50% sampling), corresponding to the data presented in Fig. 5e.  </p
Supplementary Movie 2.mp4
Kilcullen, P., Ozaki, T. & Liang, J. Compressed ultrahigh-speed single-pixel imaging by swept aggregate patterns. Nat Commun 13, 7879 (2022). https://doi.org/10.1038/s41467-022-35585-8
Supplementary Movie 2: Reconstructed video of the mechanical watch movement (2.20 s duration, 59×61 frame size, 103 fps framerate, 100% sampling), corresponding to the data presented in Fig. 4b.</p
Supplementary Movie 3.mp4
Kilcullen, P., Ozaki, T. & Liang, J. Compressed ultrahigh-speed single-pixel imaging by swept aggregate patterns. Nat Commun 13, 7879 (2022). https://doi.org/10.1038/s41467-022-35585-8
Supplementary Movie 3: Reconstructed video of a rupturing popcorn kernel (0.89 s duration, 41×43 frame size, 298 fps framerate, 50% sampling), corresponding to the data presented in Fig. 4e.</p
Media 2: Amplitude-masked photoacoustic wavefront shaping and application in flowmetry
Originally published in Optics Letters on 01 October 2014 (ol-39-19-5499
Media 1: Amplitude-masked photoacoustic wavefront shaping and application in flowmetry
Originally published in Optics Letters on 01 October 2014 (ol-39-19-5499
Visualization 1: Space- and intensity-constrained reconstruction for compressed ultrafast photography
Frame-by-frame comparison of the two reconstructed datacubes. Originally published in Optica on 20 July 2016 (optica-3-7-694