Discrete Generalized Inverted Exponential Distribution: Case Study Color Image Segmentation
We present in this paper a discrete analogue of the continuous generalized inverted exponential distribution denoted by discrete generalized inverted exponential (DGIE) distribution. Since, it is cumbersome or difficult to measure a large number of observations in reality on a continuous scale in th...
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| Veröffentlicht in: | Mathematical problems in engineering 2022-03, Vol.2022, p.1-17 |
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| container_title | Mathematical problems in engineering |
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| creator | Elaziz, Mohamed Abd Abdelrahman, Nahla S. Hassan, N. A. Mohamed, M. O. |
| description | We present in this paper a discrete analogue of the continuous generalized inverted exponential distribution denoted by discrete generalized inverted exponential (DGIE) distribution. Since, it is cumbersome or difficult to measure a large number of observations in reality on a continuous scale in the area of reliability analysis. Yet, there are a number of discrete distributions in the literature; however, these distributions have certain difficulties in properly fitting a large amount of data in a variety of fields. The presented DGIEβ,θ has shown the efficiency in fitting data better than some existing distribution. In this study, some basic distributional properties, moments, probability function, reliability indices, characteristic function, and the order statistics of the new DGIE are discussed. Estimation of the parameters is illustrated using the moment's method as well as the maximum likelihood method. Simulations are used to show the performance of the estimated parameters. The model with two real data sets is also examined. In addition, the developed DGIE is applied as color image segmentation which aims to cluster the pixels into their groups. To evaluate the performance of DGIE, a set of six color images is used, as well as it is compared with other image segmentation methods including Gaussian mixture model, K-means, and Fuzzy subspace clustering. The DGIE provides higher performance than other competitive methods. |
| doi_str_mv | 10.1155/2022/3029932 |
| format | Article |
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A. ; Mohamed, M. O.</creator><contributor>Jafarzadeh Ghoushchi, Saeid ; Saeid Jafarzadeh Ghoushchi</contributor><creatorcontrib>Elaziz, Mohamed Abd ; Abdelrahman, Nahla S. ; Hassan, N. A. ; Mohamed, M. O. ; Jafarzadeh Ghoushchi, Saeid ; Saeid Jafarzadeh Ghoushchi</creatorcontrib><description>We present in this paper a discrete analogue of the continuous generalized inverted exponential distribution denoted by discrete generalized inverted exponential (DGIE) distribution. Since, it is cumbersome or difficult to measure a large number of observations in reality on a continuous scale in the area of reliability analysis. Yet, there are a number of discrete distributions in the literature; however, these distributions have certain difficulties in properly fitting a large amount of data in a variety of fields. The presented DGIEβ,θ has shown the efficiency in fitting data better than some existing distribution. In this study, some basic distributional properties, moments, probability function, reliability indices, characteristic function, and the order statistics of the new DGIE are discussed. Estimation of the parameters is illustrated using the moment's method as well as the maximum likelihood method. Simulations are used to show the performance of the estimated parameters. The model with two real data sets is also examined. In addition, the developed DGIE is applied as color image segmentation which aims to cluster the pixels into their groups. To evaluate the performance of DGIE, a set of six color images is used, as well as it is compared with other image segmentation methods including Gaussian mixture model, K-means, and Fuzzy subspace clustering. 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This is an open access article distributed under the Creative Commons Attribution License (the “License”), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited. 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| subjects | Accuracy Characteristic functions Clustering Color imagery Datasets Image retrieval Image segmentation Mathematical problems Parameter estimation Performance evaluation Probabilistic models Probability distribution functions Random variables Reliability analysis |
| title | Discrete Generalized Inverted Exponential Distribution: Case Study Color Image Segmentation |
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