Learning a complex network representation for shape classification. RIBAS, Lucas Correia; BRUNO, Odemir Martinez.
Abstract: Shape contour is a key low-level characteristic, making shape description an important aspect in many computer vision problems, with several challenges such as variations in scale, rotation, and noise. In this paper, we introduce an approach for shape analysis and classification from binary images based on representations learned by applying Randomized Neural Networks (RNNs) on feature maps derived from a Complex Network (CN) framework. Our approach models the contour in a complex network and computes their topological measures using a dynamic evolution strategy. This evolution of the CN provides significant information into the physical aspects of the shape?s contour. Therefore, we propose embedding the topological measures computed from the dynamics of the CN evolution into a matrix representation, which we have named the Topological Feature Map (TFM). Then, we employ the RNN to learn representations from the TFM through a sliding window strategy. The proposed representation is formed by the learned weights between the hidden and output layers of the RNN. Our experimental results show performance improvements in shape classification using the proposed method across two generic shape datasets. We also applied our approach to the recognition of plant leaves, achieving high performance in this challenging task. Furthermore, the proposed approach has demonstrated robustness to noise and invariance to transformations in scale and orientation of the shapes.
Pattern Recognition
v. 154, p. 110566-1-110566-10 + supplementary data - Ano: 2024
Fator de Impacto: 8,0
@article={003197490,author = {RIBAS, Lucas Correia; BRUNO, Odemir Martinez.},title={Learning a complex network representation for shape classification},journal={Pattern Recognition},note={v. 154, p. 110566-1-110566-10 + supplementary data},year={2024}}
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