Redirigiendo al acceso original de articulo en 22 segundos...
Inicio  /  Algorithms  /  Vol: 16 Par: 6 (2023)  /  Artículo
ARTÍCULO
TITULO

Fully Parallel Homological Region Adjacency Graph via Frontier Recognition

Fernando Díaz-del-Río    
Pablo Sanchez-Cuevas    
María José Moron-Fernández    
Daniel Cascado-Caballero    
Helena Molina-Abril and Pedro Real    

Resumen

Relating image contours and regions and their attributes according to connectivity based on incidence or adjacency is a crucial task in numerous applications in the fields of image processing, computer vision and pattern recognition. In this paper, the crucial incidence topological information of 2-dimensional images is extracted in an efficient manner through the computation of a new structure called the HomDuRAG of an image; that is, the dual graph of the HomRAG (a topologically consistent extended version of the classical RAG). These representations are derived from the two traditional self-dual square grids (in which physical pixels play the role of 2-dimensional cells) and encapsulate the whole set of topological features and relations between the three types of objects embedded in a digital image: 2-dimensional (regions), 1-dimensional (contours) and 0-dimensional objects (crosses). Here, a first version of a fully parallel algorithm to compute this new representation is presented, whose timing complexity order (in the worst case and supposing one processing element per 0-cell) is O(log(M×N))" role="presentation">??(??????(??×??))O(log(M×N)) O ( l o g ( M × N ) ) , M and N being the height and width of the image. Efficient implementations of this parallel algorithm would allow images to be processed in real time, as well as permit us to uncover fast algorithms for contour detection and segmentation, opening new perspectives within the image processing field.

 Artículos similares

       
 
Shaahin Angizi, Naima Ahmed Fahmi, Deniz Najafi, Wei Zhang and Deliang Fan    
In this work, we present an efficient Processing in MRAM-Accelerated De Bruijn Graph-based DNA Assembly platform, named PANDA, based on an optimized and hardware-friendly genome assembly algorithm. PANDA is able to assemble large-scale DNA sequence datas... ver más

 
Aleksandr Cariow, Janusz P. Paplinski and Marta Makowska    
The paper introduces a range of efficient algorithmic solutions for implementing the fundamental filtering operation in convolutional layers of convolutional neural networks on fully parallel hardware. Specifically, these operations involve computing M i... ver más
Revista: Applied Sciences

 
Zhiwei Lin, Weihao Chen, Lumei Su, Yuhan Chen and Tianyou Li    
Object detection methods are commonly employed in power safety monitoring systems to detect violations in surveillance scenes. However, traditional object detection methods are ineffective for small objects that are similar to the background information ... ver más
Revista: Applied Sciences

 
Chunyan Zeng, Shuai Kong, Zhifeng Wang, Kun Li and Yuhao Zhao    
In recent years, digital audio tampering detection methods by extracting audio electrical network frequency (ENF) features have been widely applied. However, most digital audio tampering detection methods based on ENF have the problems of focusing on spa... ver más
Revista: Information

 
Jai Prakash Verma, Shir Bhargav, Madhuri Bhavsar, Pronaya Bhattacharya, Ali Bostani, Subrata Chowdhury, Julian Webber and Abolfazl Mehbodniya    
The recent advancements in big data and natural language processing (NLP) have necessitated proficient text mining (TM) schemes that can interpret and analyze voluminous textual data. Text summarization (TS) acts as an essential pillar within recommendat... ver más
Revista: Information