This paper presents a novel Cellular Automata (CA) approach for image segmentation. We treat the image segmentation problem as cell merging in a cellular space constructed in the image plane. A cell is defined to be a pixel or a group of pixels with close RGB values. In each iteration, a cell checks the similarities between itself and its neighboring cells. Cells with similar properties are merged into large cells, which will eventually lead to high quality superpixels. The segmentation process is a trade-off between accuracy and computation cost. We have proved that the proposed approach is able to obtain satisfactory results efficiently while keeping image details
Ahstract-A common image forgery method is copy-move forgery (CMF), where part of an image is copied ...
This paper proposes a new region extraction algorithm based on cellular automaton operation, which o...
We use an evolutionary process to seek a specialized set of rules among a wide range of rules to be ...
The majority of Cellular Automata (CA) described in the literature are binary or three-state. While ...
Parallel algorithms for solving any image processing task is a highly demanded approach in the moder...
An original update rule for multi–state cellular automata is investigated in the context of grayscal...
An overview is given on the use of cellular automata for image pro-cessing. We first consider the nu...
The book presents findings, views and ideas on what exact problems of image processing, pattern reco...
In this paper we describe a novel algorithm for interactive multilabel segmentation of N-dimensional...
Cellular automata are dynamical systems in which time and space are discrete. A cellular automaton c...
An overview is given on the use of cellular automata for image processing. We first consider the num...
In this paper, I propose a method for efficient coding of images using cellular automata. This metho...
A common image forgery method is copy-move forgery (CMF), where part of an image is copied and moved...
In this paper, a method based on a coupling multi-agent system and cellular automata to solve a prob...
Recently there has been an increasing interest in image segmentation due to the needs of locating ob...
Ahstract-A common image forgery method is copy-move forgery (CMF), where part of an image is copied ...
This paper proposes a new region extraction algorithm based on cellular automaton operation, which o...
We use an evolutionary process to seek a specialized set of rules among a wide range of rules to be ...
The majority of Cellular Automata (CA) described in the literature are binary or three-state. While ...
Parallel algorithms for solving any image processing task is a highly demanded approach in the moder...
An original update rule for multi–state cellular automata is investigated in the context of grayscal...
An overview is given on the use of cellular automata for image pro-cessing. We first consider the nu...
The book presents findings, views and ideas on what exact problems of image processing, pattern reco...
In this paper we describe a novel algorithm for interactive multilabel segmentation of N-dimensional...
Cellular automata are dynamical systems in which time and space are discrete. A cellular automaton c...
An overview is given on the use of cellular automata for image processing. We first consider the num...
In this paper, I propose a method for efficient coding of images using cellular automata. This metho...
A common image forgery method is copy-move forgery (CMF), where part of an image is copied and moved...
In this paper, a method based on a coupling multi-agent system and cellular automata to solve a prob...
Recently there has been an increasing interest in image segmentation due to the needs of locating ob...
Ahstract-A common image forgery method is copy-move forgery (CMF), where part of an image is copied ...
This paper proposes a new region extraction algorithm based on cellular automaton operation, which o...
We use an evolutionary process to seek a specialized set of rules among a wide range of rules to be ...