Musaab Riyadh scite author profile

Musaab Riyadh

5Publications

16Citation Statements Received

35Citation Statements Given

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Affiliations

Mustansiriyah University, Universiti Putra Malaysia, Ajman University

Publications

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CC_TRS: Continuous Clustering of Trajectory Stream Data Based on Micro Cluster Life

Riyadh

Mustapha

Sulaiman

et al. 2017

Mathematical Problems in Engineering

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The rapid spreading of positioning devices leads to the generation of massive spatiotemporal trajectories data. In some scenarios, spatiotemporal data are received in stream manner. Clustering of stream data is beneficial for different applications such as traffic management and weather forecasting. In this article, an algorithm for Continuous Clustering of Trajectory Stream Data Based on Micro Cluster Life is proposed. The algorithm consists of two phases. There is the online phase where temporal micro clusters are used to store summarized spatiotemporal information for each group of similar segments. The clustering task in online phase is based on temporal micro cluster lifetime instead of time window technique which divides stream data into time bins and clusters each bin separately. For offline phase, a density based clustering approach is used to generate macro clusters depending on temporal micro clusters. The evaluation of the proposed algorithm on real data sets shows the efficiency and the effectiveness of the proposed algorithm and proved it is efficient alternative to time window technique.

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IDS-MIU: An Intrusion Detection System Based on Machine Learning Techniques for Mixed type, Incomplete, and Uncertain Data Set

Riyadh¹,

Ali²,

Alshibani³

2021

IJIES

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Review of Trajectories Similarity Measures in Mining Algorithms

Riyadh

Mustapha²,

Riyadh

2018

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ONF-TRS: On-line Noise Filtering Algorithm for Trajectory Segmentation Based on MDL Threshold

Riyadh¹,

Mustapha²,

Sulaiman³

et al. 2016

J. of Artificial Intelligence

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PDCNN: FRAMEWORK for Potato Diseases Classification Based on Feed Foreword Neural Network

2021

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The economy is exceptionally reliant on agricultural productivity. Therefore, in domain of agriculture, plant infection discovery is a vital job because it gives promising advance towards the development of agricultural production. In this work, a framework for potato diseases classification based on feed foreword neural network is proposed. The objective of this work is presenting a system that can detect and classify four kinds of potato tubers diseases; black dot, common scab, potato virus Y and early blight based on their images. The presented PDCNN framework comprises three levels: the pre-processing is first level, which is based on K-means clustering algorithm to detect the infected area from potato image. The second level is features extraction which extracts features from the infected area based on hybrid features: grey level run length matrix and 1st order histogram based features. The attributes that extracted from second level are utilized in third level using FFNN to perform the classification process. The proposed framework is applied to database with different backgrounds, totally 120 color potato images, (80) samples used in training the network and the rest samples (40) used for testing. The proposed PDCNN framework is very effective in classifying four types of potato tubers diseases with 91.3% of efficiency.

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Musaab Riyadh

CC_TRS: Continuous Clustering of Trajectory Stream Data Based on Micro Cluster Life

IDS-MIU: An Intrusion Detection System Based on Machine Learning Techniques for Mixed type, Incomplete, and Uncertain Data Set

Review of Trajectories Similarity Measures in Mining Algorithms

ONF-TRS: On-line Noise Filtering Algorithm for Trajectory Segmentation Based on MDL Threshold

PDCNN: FRAMEWORK for Potato Diseases Classification Based on Feed Foreword Neural Network

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