Your search keyword '"Dang, Trong Hop"' showing total 4 results

1. Multiple kernel collaborative fuzzy clustering algorithm with weighted super-pixels for satellite image land-cover classification

Author

Dang, Trong Hop, Mai, Dinh Sinh, and Ngo, Long Thanh

Published

2019

2. Towards interval-valued fuzzy set-based collaborative fuzzy clustering algorithms

Author

Ngo, Long Thanh, Dang, Trong Hop, and Pedrycz, Witold

Published

2018

3. Features reduction collaborative fuzzy clustering for hyperspectral remote sensing images analysis.

Author

Dang, Trong Hop, Do, Viet Duc, Mai, Dinh Sinh, Ngo, Long Thanh, and Trinh, Le Hung

Subjects

*IMAGE analysis, *IMAGE processing, *HYPERSPECTRAL imaging systems, *REMOTE sensing, *INFORMATION sharing

Abstract

In image processing, segmentation is a fundamental problem but an important step for advanced image processing problems. When dealing with hyperspectral image data, the task becomes much more challenging due to the large number of features (dimension), higher nonlinearity, and greater capacity of the data. This paper proposes a solution of features reduction collaborative fuzzy c-means clustering (FR-CFCM) for hyperspectral remote sensing image analysis using random projection. The dimensional reduction technique is based on the Johnson Lindenstrauss lemma algorithm, preserving the relative distance between data samples. This can make clustering easier without affecting the clustering results. Moreover, by reducing dimensionality and sharing information among sub-data in collaborative clustering, it is possible to improve the performance and accuracy of hyperspectral remote sensing image analysis results. The experiments conducted on two hyperspectral image data sets with five validity indexes show that the proposed methods perform better compared with the other methods. [ABSTRACT FROM AUTHOR]

Published

2023

4. Optimization of interval type-2 fuzzy system using the PSO technique for predictive problems.

Author

Mai, Dinh Sinh, Dang, Trong Hop, and Ngo, Long Thanh

Subjects

FUZZY logic, ARTIFICIAL neural networks, SUPPORT vector machines

Abstract

An interval type-2 fuzzy logic system (IT2FLS) can function well with uncertain data, with which a type-1 fuzzy logic system (T1FLS) is ineffective because its membership function rests upon crisp values. However, similar to T1FLSs, there are challenges associated with IT2FLSs in selecting parameters, which can significantly affect the accuracy of the classification results with their relatively high sensitivity. This paper discusses and proposes a hybrid model based on IT2FLS and particle swarm optimization (PSO) for prediction problems. The main objective of this paper is to find the optimal solution for the unknown fuzzy systems using labelled data for training the fuzzy system. The PSO technique was used to find the optimal parameters of the Gaussian membership functions which utilized for IT2FLSs. The authors tested two data sets for each of the two prediction problems, namely: burnt forest area prediction and wine quality prediction. The predictive results were compared with other predictive methods including random forest (RF), support vector machines (SVM), artificial neural network (ANN), adaptive neuro fuzzy inference system (ANFIS) and IT2FLS with parameters generated by using the fuzzy c-means algorithm (IT2FLS-FCM). Experiment results showed that the proposed method could significantly improve accuracy compared to several other predictive techniques. [ABSTRACT FROM AUTHOR]

Published

2021