Abstract
Integral-imaging has demonstrated, in macroscopic and also in microscopy imaging, its capability for computing three-dimensional images from the microimages recorded after a single shot. The main drawback, however, of integral-imaging concept is the substantial reduction of the spatial resolution. In this contribution we explain two techniques, which permit to increase the two-dimensional spatial resolution of the computed depth images in integral microscopy. One technique is based in the physical interpolation in the microlens array structure. This is made by a double-shot approach, carried out by means of a rotating glass plate, which shifts the microimages in the sensor plane. The second method is based in the direct capture of the plenoptics map by placing a collection of microcameras at the aperture stop of the microscope objective. The second technique produces, also, a significant improvement of the depth of field.
© 2016 Optical Society of America
PDF ArticleMore Like This
Ian McNulty
FBB.5 OSA Annual Meeting (FIO) 1993
Manuel Martínez-Corral, Anabel Llavador, Emilio Sánchez-Ortiga, Genaro Saavedra, and Bahram Javidi
JT3A.68 3D Image Acquisition and Display: Technology, Perception and Applications (3D) 2016
Paul Zammit, Guillem Carles, and Andrew R. Harvey
CW2D.1 Computational Optical Sensing and Imaging (COSI) 2016