Parallel architecture for cotton crop classification using WLI-Fuzzy clustering algorithm and Bs-Lion neural network model
PS Ramesh, S Letitia - The Imaging Science Journal, 2017 - Taylor & Francis
PS Ramesh, S Letitia
The Imaging Science Journal, 2017•Taylor & FrancisThe application of remote sensory images in crop monitoring has been increasing in the
recent years due to its high classification accuracy. In this paper, a novel parallel
classification methodology is proposed using a new clustering and classification concept. A
novel neural network model with the Bs-Lion training algorithm is developed by integrating
the Bayesian regularization training with the Lion Algorithm. Here, two levels of parallel
processing are performed, namely parallel WLI-Fuzzy clustering and parallel BS-Lion neural …
recent years due to its high classification accuracy. In this paper, a novel parallel
classification methodology is proposed using a new clustering and classification concept. A
novel neural network model with the Bs-Lion training algorithm is developed by integrating
the Bayesian regularization training with the Lion Algorithm. Here, two levels of parallel
processing are performed, namely parallel WLI-Fuzzy clustering and parallel BS-Lion neural …
Abstract
The application of remote sensory images in crop monitoring has been increasing in the recent years due to its high classification accuracy. In this paper, a novel parallel classification methodology is proposed using a new clustering and classification concept. A novel neural network model with the Bs-Lion training algorithm is developed by integrating the Bayesian regularization training with the Lion Algorithm. Here, two levels of parallel processing are performed, namely parallel WLI-Fuzzy clustering and parallel BS-Lion neural network classification. The experimentation of the proposed parallel methodology is carried out using satellite images obtained from the Indian remote sensing satellite IRS-P6. The performance of the proposed system is compared with the existing techniques using validation measures accuracy, sensitivity and specificity. The experimentations resulted in promising results with an accuracy of 0.8994, sensitivity of 0.8682 and specificity of 0.8739, which favour the performance of the proposed parallel architecture in the classification.
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