Usage of segmentation for noise elimination in reconstructed images in digital holographic interferometry

Abstract: Abstract:In this paper, we propose to enhance the image in digital holography by using an artificial neural network and an iterative algorithm with Nakamura's approach based on segmentation. It is well known that reconstructed threedimensional (3D) images suffer from noise in digital holography. In addition, obtaining 3D reconstructed images takes a long time due to large pixel numbers in reconstructed images and lack of memory in the system. The segmentation process is an application that overcomes these prob… Show more

“…Generally, image segmentation is the first step with decisive influence on the reconstruction of the 3D microstructure. After segmentation, each pixel inside a sliced image is classified into a pore phase or solid phase. − The nanoporous phenolic aerogel is taken as an example, which exhibits the typical interconnected 3D network structure and adjustable pore size . Herein, FIB-SEM is adopted because repetitive FIB cutting followed by imaging could produce a stack of SEM images which can be reconstructed into a 3D volume.…”

Ascertaining Uncertain Nanopore Boundaries in 2D Images of Porous Materials for Accurate 3D Microstructural Reconstruction and Heat Transfer Performance Prediction

“…Generally, image segmentation is the first step with decisive influence on the reconstruction of the 3D microstructure. After segmentation, each pixel inside a sliced image is classified into a pore phase or solid phase. − The nanoporous phenolic aerogel is taken as an example, which exhibits the typical interconnected 3D network structure and adjustable pore size . Herein, FIB-SEM is adopted because repetitive FIB cutting followed by imaging could produce a stack of SEM images which can be reconstructed into a 3D volume.…”

Ascertaining Uncertain Nanopore Boundaries in 2D Images of Porous Materials for Accurate 3D Microstructural Reconstruction and Heat Transfer Performance Prediction