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• The Hidden-Layers Topology Analysis of Deep Learning Models in Survey for Forecasting and Generation of theWind Power and Photovoltaic Energy
• Dandan Xu¹, Haijian Shao^1,*, Xing Deng^1,2, Xia Wang³
• CMES-Computer Modeling in Engineering & Sciences, DOI:10.32604/cmes.2022.019245
• Abstract As wind and photovoltaic energy become more prevalent, the optimization of power systems is becoming increasingly crucial. The current state of research in renewable generation and power forecasting technology, such as wind and photovoltaic power (PV), is described in this paper, with a focus on the ensemble sequential LSTMs approach with optimized hidden-layers topology for short-term multivariable wind power forecasting. The methods for forecasting wind power and PV production. The physical model, statistical learning method, and machine learning approaches based on historical data are all evaluated for the forecasting of wind power and PV production. Moreover, the experiments demonstrated that… More
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• Prototypical Network Based on Manhattan Distance
• Zengchen Yu¹, Ke Wang^2,*, Shuxuan Xie¹, Yuanfeng Zhong¹, Zhihan Lv³
• CMES-Computer Modeling in Engineering & Sciences, DOI: 10.32604/cmes.2022.019612
• Abstract Few-shot Learning algorithms can be effectively applied to fields where certain categories have only a small amount of data or a small amount of labeled data, such as medical images, terrorist surveillance, and so on. The Metric Learning in the Few-shot Learning algorithm is classified by measuring the similarity between the classified samples and the unclassified samples. This paper improves the Prototypical Network in the Metric Learning, and changes its core metric function to Manhattan distance. The Convolutional Neural Network of the embedded module is changed, and mechanisms such as average pooling and Dropout are added. Through comparative experiments, it… More
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• New Hybrid EWMA Charts for Efficient Process Dispersion Monitoring with Application in Automobile Industry
• Xuechen Liu¹, Majid Khan², Zahid Rasheed³, Syed Masroor Anwar^4,*, Muhammad Arslan⁵
• CMES-Computer Modeling in Engineering & Sciences, DOI:10.32604/cmes.2022.019199
• （This article belongs to this Special Issue: New Trends in Statistical Computing and Data Science)
• Abstract The EWMA charts are the well-known memory-type charts used for monitoring the small-to-intermediate shifts in the process parameters (location and/or dispersion). The hybrid EWMA (HEWMA) charts are enhanced version of the EWMA charts, which effectively monitor the process parameters. This paper aims to develop two new uppersided HEWMA charts for monitoring shifts in process variance, i.e., HEWMA1 and HEWMA2 charts. The design structures of the proposed HEWMA1 and HEWMA2 charts are based on the concept of integrating the features of two EWMA charts. The HEWMA1 and HEWMA2 charts plotting statistics are developed using one EWMA statistic as input for the… More
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• Multi-Feature Fusion-Guided Multiscale Bidirectional Attention Networks for Logistics Pallet Segmentation
• Weiwei Cai^1,2, Yaping Song¹, Huan Duan¹, Zhenwei Xia¹, Zhanguo Wei^1,*
• CMES-Computer Modeling in Engineering & Sciences, DOI:10.32604/cmes.2022.019785
• （This article belongs to this Special Issue: Computer Modeling for Smart Cities Applications)
• Abstract In the smart logistics industry, unmanned forklifts that intelligently identify logistics pallets can improve work efficiency in warehousing and transportation and are better than traditional manual forklifts driven by humans. Therefore, they play a critical role in smart warehousing, and semantics segmentation is an effective method to realize the intelligent identification of logistics pallets. However, most current recognition algorithms are ineffective due to the diverse types of pallets, their complex shapes, frequent blockades in production environments, and changing lighting conditions. This paper proposes a novel multi-feature fusion-guided multiscale bidirectional attention (MFMBA) neural network for logistics pallet segmentation. To better predict… More
•   Views:143       Downloads:59        Download PDF

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• Sentiment Analysis of Roman Urdu on E-Commerce Reviews Using Machine Learning
• Bilal Chandio¹, Asadullah Shaikh², Maheen Bakhtyar¹, Mesfer Alrizq², Junaid Baber¹, Adel Sulaiman^2,*, Adel Rajab², Waheed Noor³
• CMES-Computer Modeling in Engineering & Sciences, DOI:10.32604/cmes.2022.019535
• Abstract Sentiment analysis task has widely been studied for various languages such as English and French. However, Roman Urdu sentiment analysis yet requires more attention from peer-researchers due to the lack of Off-the-Shelf Natural Language Processing (NLP) solutions. The primary objective of this study is to investigate the diverse machine learning methods for the sentiment analysis of Roman Urdu data which is very informal in nature and needs to be lexically normalized. To mitigate this challenge, we propose a fine-tuned Support Vector Machine (SVM) powered by Roman Urdu Stemmer. In our proposed scheme, the corpus data is initially cleaned to remove… More
•   Views:203       Downloads:68        Download PDF

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• Deep-Learning-Based Production Decline Curve Analysis in the Gas Reservoir through Sequence Learning Models
• Shaohua Gu^1,2, Jiabao Wang³, Liang Xue^3,*, Bin Tu³, Mingjin Yang³, Yuetian Liu³
• CMES-Computer Modeling in Engineering & Sciences, DOI:10.32604/cmes.2022.019435
• （This article belongs to this Special Issue: Modeling of Fluids Flow in Unconventional Reservoirs)
• Abstract Production performance prediction of tight gas reservoirs is crucial to the estimation of ultimate recovery, which has an important impact on gas field development planning and economic evaluation. Owing to the model’s simplicity, the decline curve analysis method has been widely used to predict production performance. The advancement of deep-learning methods provides an intelligent way of analyzing production performance in tight gas reservoirs. In this paper, a sequence learning method to improve the accuracy and efficiency of tight gas production forecasting is proposed. The sequence learning methods used in production performance analysis herein include the recurrent neural network (RNN), long… More
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• An Improved Gorilla Troops Optimizer Based on Lens Opposition-Based Learning and Adaptive β-Hill Climbing for Global Optimization
• Yaning Xiao, Xue Sun^*, Yanling Guo, Sanping Li, Yapeng Zhang, Yangwei Wang
• CMES-Computer Modeling in Engineering & Sciences, DOI:10.32604/cmes.2022.019198
• （This article belongs to this Special Issue: Swarm Intelligence and Applications in Combinatorial Optimization)
• Abstract Gorilla troops optimizer (GTO) is a newly developed meta-heuristic algorithm, which is inspired by the collective lifestyle and social intelligence of gorillas. Similar to other metaheuristics, the convergence accuracy and stability of GTO will deteriorate when the optimization problems to be solved become more complex and flexible. To overcome these defects and achieve better performance, this paper proposes an improved gorilla troops optimizer (IGTO). First, Circle chaotic mapping is introduced to initialize the positions of gorillas, which facilitates the population diversity and establishes a good foundation for global search. Then, in order to avoid getting trapped in the local optimum,… More
•   Views:295       Downloads:138        Download PDF

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• Efficient Numerical Scheme for the Solution of HIV Infection CD4⁺ T-Cells Using Haar Wavelet Technique
• Rohul Amin¹, Şuayip Yüzbası^2,*, Shah Nazir³
• CMES-Computer Modeling in Engineering & Sciences, DOI:10.32604/cmes.2022.019154
• Abstract In this paper, Haar collocation algorithm is developed for the solution of first-order of HIV infection CD4⁺ T-Cells model. In this technique, the derivative in the nonlinear model is approximated by utilizing Haar functions. The value of the unknown function is obtained by the process of integration. Error estimation is also discussed, which aims to reduce the error of numerical solutions. The numerical results show that the method is simply applicable. The results are compared with Runge-Kutta technique, Bessel collocation technique, LADM-Pade and Galerkin technique available in the literature. The results show that the Haar technique is easy, precise and… More
•   Views:204       Downloads:81        Download PDF

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• Partitioning of Water Distribution Network into District Metered Areas Using Existing Valves
• Aniket N. Sharma¹, Shilpa R. Dongre¹, Rajesh Gupta¹, Prerna Pandey¹, Neeraj Dhanraj Bokde^2,*
• CMES-Computer Modeling in Engineering & Sciences, DOI:10.32604/cmes.2022.018867
• （This article belongs to this Special Issue: Computer Modeling for Smart Cities Applications)
• Abstract Water distribution network (WDN) leakage management has received increased attention in recent years. One of the most successful leakage-control strategies is to divide the network into District Metered Areas (DMAs). As a multi-staged technique, the generation of DMAs is a difficult task in design and implementation (i.e., clustering, sectorization, and performance evaluation). Previous studies on DMAs implementation did not consider the potential use of existing valves in achieving the objective. In this work, a methodology is proposed for detecting clusters and reducing the cost of additional valves and DMA sectorization by considering existing valves as much as possible. The procedure… More
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• Neutrosophic κ-Structures in Ordered Semigroups
• G. Muhiuddin^1,*, K. Porselvi², B. Elavarasan², D. Al-Kadi³
• CMES-Computer Modeling in Engineering & Sciences, DOI:10.32604/cmes.2022.018615
• （This article belongs to this Special Issue: Advances in Neutrosophic and Plithogenic Sets for Engineering and Sciences: Theory, Models, and Applications (ANPSESTMA))
• Abstract In general, ordered algebraic structures, particularly ordered semigroups, play an important role in fuzzification in many applied areas, such as computer science, formal languages, coding theory, error correction, etc. Nowadays, the concept of ambiguity is important in dealing with a variety of issues related to engineering modeling problems, network theory, decision-making problems in real-life situations, and so on. Several theories have been developed by various researchers to overcome the difficulties that arise from uncertainty, including fuzzy sets, intuitionistic fuzzy sets, probability, soft sets, neutrosophic sets, and many more. In this paper, we focus solely on neutrosophic set theory. In ordered… More
•   Views:220       Downloads:90        Download PDF

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• Image Translation Method for Game Character Sprite Drawing
• Jong-In Choi¹, Soo-Kyun Kim², Shin-Jin Kang^3,*
• CMES-Computer Modeling in Engineering & Sciences, DOI:10.32604/cmes.2022.018201
• （This article belongs to this Special Issue: HPC with Artificial Intelligence based Deep Video Data Analytics: Models, Applications and Approaches)
• Abstract Two-dimensional (2D) character animation is one of the most important visual elements on which users’ interest is focused in the game field. However, 2D character animation works in the game field are mostly performed manually in two dimensions, thus generating high production costs. This study proposes a generative adversarial network based production tool that can easily and quickly generate the sprite images of 2D characters. First, we proposed a methodology to create a synthetic dataset for training using images from the real world in the game resource production field where machine learning datasets are insufficient. In addition, we have enabled… More
•   Views:216       Downloads:85        Download PDF

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• Degenerate s-Extended Complete and Incomplete Lah-Bell Polynomials
• Hye Kyung Kim^1,*, Dae Sik Lee²
• CMES-Computer Modeling in Engineering & Sciences, DOI:10.32604/cmes.2022.017616
• （This article belongs to this Special Issue: Trend Topics in Special Functions and Polynomials: Theory, Methods, Applications and Modeling)
• Abstract Degenerate versions of special polynomials and numbers applied to social problems, physics, and applied mathematics have been studied variously in recent years. Moreover, the (s-)Lah numbers have many other interesting applications in analysis and combinatorics. In this paper, we divide two parts. We first introduce new types of both degenerate incomplete and complete s-Bell polynomials respectively and investigate some properties of them respectively. Second, we introduce the degenerate versions of complete and incomplete Lah-Bell polynomials as multivariate forms for a new type of degenerate s-extended Lah-Bell polynomials and numbers respectively. We investigate relations between these polynomials and degenerate incomplete and… More
•   Views:254       Downloads:110        Download PDF

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• Modeling the Spread of Tuberculosis with Piecewise Differential Operators
• Abdon Atangana^1,2, Ilknur Koca^3,*
• CMES-Computer Modeling in Engineering & Sciences, DOI:10.32604/cmes.2022.019221
• （This article belongs to this Special Issue: Trend Topics in Special Functions and Polynomials: Theory, Methods, Applications and Modeling)
• Abstract Very recently, a new concept was introduced to capture crossover behaviors that exhibit changes in patterns. The aim was to model real-world problems exhibiting crossover from one process to another, for example, randomness to a power law. The concept was called piecewise calculus, as differential and integral operators are defined piece wisely. These behaviors have been observed in the spread of several infectious diseases, for example, tuberculosis. Therefore, in this paper, we aim at modeling the spread of tuberculosis using the concept of piecewise modeling. Several cases are considered, conditions under which the unique system solution is obtained are presented… More
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