Grunnleggende konsepter
The author proposes CADS as a novel approach to improve depth and all-in-focus imaging quality using dual-pixel sensors with coded aperture masks.
Sammendrag
Passive, compact 3D sensing is crucial in various fields. The study introduces CADS to enhance depth and all-in-focus image quality by optimizing coded aperture patterns for dual-pixel sensors. Results show significant improvements over traditional methods in simulations and real-world experiments, particularly in endoscopy and dermoscopy applications.
Statistikk
Improvement of >1.5 dB PSNR in all-in-focus estimates and 5-6% in depth estimation quality with CADS.
Depth prediction RMSE: Naive DP - 13.66 mm, CADS - 12.57 mm.
AIF prediction PSNR: Naive DP - 29.72 dB, CADS - 31.20 dB.
Depth prediction MAE for CADS ranges from 4.99 mm to 6.03 mm across different aperture sizes.
AIF prediction PSNR for CADS ranges from 31.21 dB to 34.10 dB across different aperture sizes.
Sitater
"Our resulting CADS imaging system demonstrates improvement of >1.5 dB PSNR in all-in-focus estimates and 5-6% in depth estimation quality over naive DP sensing."
"CADNet architecture is based on the U-Net architecture that applies multi-resolution feature extraction with skip connections between encoder and decoder blocks."
"CADS provides a mechanism for high-fidelity depth and intensity imaging in a small form factor."