Article ID Journal Published Year Pages File Type
529698 Journal of Visual Communication and Image Representation 2016 13 Pages PDF
Abstract

•Design procedure for hexagonal operators developed within a finite element framework.•Comparative performance results with rectangular and hexagonal gradient operators.•Hexagonal operators that are easily scalable to any size of neighbourhood.•Hexagonal operators that can be incorporated into scale-adaptive applications.

Image processing has traditionally involved the use of square operators on regular rectangular image lattices. For many years the concept of using hexagonal pixels for image capture has been investigated, and several advantages of such an approach have been highlighted. We present a design procedure for hexagonal gradient operators, developed within the finite element framework, for use on hexagonal pixel based images. In order to evaluate the approach, we generate pseudo hexagonal images via resizing and resampling of rectangular images. This approach also allows us to present results visually without the use of hexagonal lattice capture or display hardware. We provide comparative results with existing gradient operators, both rectangular and hexagonal.

Related Topics
Physical Sciences and Engineering Computer Science Computer Vision and Pattern Recognition
Authors
, , ,