Uniform image partitioning has been achieved on Spiral Architecture, which plays an important role in parallel image processing on many aspects such as uniform data partitioning, load balancing, zero data exchange between the processing nodes et al. However, when the number of partitions is not the power of seven like 49, each sub-image except one is split into a few fragments which are mixed together. We could not tell which fragments belong to which sub-image. It is an unacceptable flaw to parallel image processing. This paper proposes a method to resolve the problem mentioned above. From the experimental results, it is shown that the proposed method correctly identifies the fragments belonging to the same sub-image and successfully colle...
We develop a new reassembly pipeline that automatically restores an image from its rips. First, we d...
The design of parallel architectures to perform image segmentation processing is given. In addition,...
In this paper, we present how 3D split and merge segmentation using topological and geometrical stru...
Spiral Architecture is a relatively new and powerful approach to general purpose machine vision syst...
Although Spiral Architecture (SA) has many advantages in image processing and machine vision, there ...
Edge detection in computer vision and image processing is a process which detects one kind of signif...
Professionals in various fields such as medical imaging, biology and civil engineering require rapid...
Data stream partitioning is a fundamental and important mechanism for distributed systems. However, ...
This paper presents a novel model for 3D image segmentation and reconstruction. It has been designed...
In this paper, we propose a new multi-scale image seg-mentation relying on a hierarchy of partitions...
Spiral Architecture is a new and powerful approach to a general-purpose machine vision system. Earli...
Automatically partitioning images into regions (‘segmentation’) is challenging in terms of quality a...
Image processing is a fundamental operation in many real time applications, where lots of parallelis...
Spiral Architecture is a relatively new and powerful approach to general-purpose machine vision syst...
Since traditional partition approach may construct very different image representation because of th...
We develop a new reassembly pipeline that automatically restores an image from its rips. First, we d...
The design of parallel architectures to perform image segmentation processing is given. In addition,...
In this paper, we present how 3D split and merge segmentation using topological and geometrical stru...
Spiral Architecture is a relatively new and powerful approach to general purpose machine vision syst...
Although Spiral Architecture (SA) has many advantages in image processing and machine vision, there ...
Edge detection in computer vision and image processing is a process which detects one kind of signif...
Professionals in various fields such as medical imaging, biology and civil engineering require rapid...
Data stream partitioning is a fundamental and important mechanism for distributed systems. However, ...
This paper presents a novel model for 3D image segmentation and reconstruction. It has been designed...
In this paper, we propose a new multi-scale image seg-mentation relying on a hierarchy of partitions...
Spiral Architecture is a new and powerful approach to a general-purpose machine vision system. Earli...
Automatically partitioning images into regions (‘segmentation’) is challenging in terms of quality a...
Image processing is a fundamental operation in many real time applications, where lots of parallelis...
Spiral Architecture is a relatively new and powerful approach to general-purpose machine vision syst...
Since traditional partition approach may construct very different image representation because of th...
We develop a new reassembly pipeline that automatically restores an image from its rips. First, we d...
The design of parallel architectures to perform image segmentation processing is given. In addition,...
In this paper, we present how 3D split and merge segmentation using topological and geometrical stru...