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The purpose of the Journal of Intelligent & Fuzzy Systems: Applications in Engineering and Technology is to foster advancements of knowledge and help disseminate results concerning recent applications and case studies in the areas of fuzzy logic, intelligent systems, and web-based applications among working professionals and professionals in education and research, covering a broad cross-section of technical disciplines.
The journal will publish original articles on current and potential applications, case studies, and education in intelligent systems, fuzzy systems, and web-based systems for engineering and other technical fields in science and technology. The journal focuses on the disciplines of computer science, electrical engineering, manufacturing engineering, industrial engineering, chemical engineering, mechanical engineering, civil engineering, engineering management, bioengineering, and biomedical engineering. The scope of the journal also includes developing technologies in mathematics, operations research, technology management, the hard and soft sciences, and technical, social and environmental issues.
Authors: Xu, Kai | Luo, Xilin | Pang, Xinyu
Article Type: Research Article
Abstract: Based on the nonlinearity of energy consumption systems and the influence of multiple factors, this paper presents a nonlinear multivariable grey prediction model with parameter optimization and estimates the parameters and the approximate time response function of the model. Next, a genetic algorithm is applied to optimize the nonlinear terms of the novel model to seek the optimal parameters, and the modelling steps are outlined. Then, to assess the effectiveness of the novel model, this paper adopts Chinese oil, gas, coal and clean energy as research objects, and three classical grey forecasting models and one time series method are chosen …for comparison. The results indicate that the new model attains a high simulation and prediction accuracy, basically higher than that of the three grey prediction models and the time series method. Show more
Keywords: Grey prediction model, energy consumption, simulated annealing optimization, genetic algorithm
DOI: 10.3233/JIFS-210822
Citation: Journal of Intelligent & Fuzzy Systems, vol. 42, no. 4, pp. 3153-3168, 2022
Authors: Riaz, Muhammad | Riaz, Mishal | Jamil, Nimra | Zararsiz, Zarife
Article Type: Research Article
Abstract: Pharmaceutical logistics are primarily concerned with handling transportation and supply chain management of numerous complex goods most of which need particular requirements for their logistical care. To find the high level of specialization, suppliers of pharmaceutical logistics must be selected under a mathematical model that can treat vague and uncertain real-life circumstances. The notion of bipolarity is a key factor to address such uncertainties. A bipolar fuzzy soft set (BFSS) is a strong mathematical tool to cope with uncertainty and unreliability in various real-life problems including logistics and supply chain management. In this paper, we introduce new similarity measures (SMs) …based on certain properties of bipolar fuzzy soft sets (BFSSs). The proposed SMs are the extensions of Frobenius inner product, cosine similarity measure, and weighted similarity measure for BFSSs. The proposed SMs are also illustrated with respective numerical examples. An innovative multi-attribute decision-making algorithm (MADM) and its flow chart are being developed for pharmaceutical logistics and supply chain management in COVID-19. Furthermore, the application of the suggested MADM method is presented for the selection of the best pharmaceutical logistic company and a comparative analysis of the suggested SMs with some of the existing SMs is also demonstrated. Show more
Keywords: Bipolar fuzzy soft sets, similarity measures, pharmaceutical logistics, multi-attribute decision-making
DOI: 10.3233/JIFS-210873
Citation: Journal of Intelligent & Fuzzy Systems, vol. 42, no. 4, pp. 3169-3188, 2022
Authors: Sung, Tien-Wen | Xu, Yuntao | Hu, Xiaohui | Lee, Chao-Yang | Fang, Qingjun
Article Type: Research Article
Abstract: With the construction of smart grids, smart meters are gradually being installed in every house. In order to transfer the user data collected by smart meters to the control center, it is necessary to transfer the data to the data aggregation point (DAP) before being transmitted to the control center. The numbers and locations of DAPs affect the communication quality and cost of the smart meter neighborhood network, and because smart meters rely on wireless technology to transmit data, their transmission range is limited. Thus, suburban and rural areas require a large number of DAP installation needs, and it is …very important to reduce their numbers. For this problem, this study proposes a grid-based relay DAP placement scheme and presents the corresponding algorithms to reduce the number of DAPs and to avoid the large impact of relay DAP locations on communication quality for the two cases of whether or not the number of relay DAPs is limited. This paper used random smart meter coordinates for testing, and the test results verify that the proposed solution can in fact significantly reduce the number of DAPs and avoid the large impact of relay DAP locations on communication quality. Show more
Keywords: Smart grid, data aggregation point, advanced metering infrastructure, smart meter network
DOI: 10.3233/JIFS-210881
Citation: Journal of Intelligent & Fuzzy Systems, vol. 42, no. 4, pp. 3189-3201, 2022
Authors: Alqurashi, Fahad A. | Alsolami, F. | Abdel-Khalek, S. | Sayed Ali, Elmustafa | Saeed, Rashid A.
Article Type: Research Article
Abstract: Recently, there were much interest in technology which has emerged greatly to the development of smart unmanned systems. Internet of UAV (IoUAV) enables an unmanned aerial vehicle (UAV) to connect with public network, and cooperate with the neighboring environment. It also enables UAV to argument information and gather data about others UAV and infrastructures. Applications related to smart UAV and IoUAV systems are facing many impairments issues. The challenges are related to UAV cloud network, big data processing, energy efficiency in IoUAV, and efficient communication between a large amount of different UAV types, in addition to optimum decisions for intelligence. …Artificial Intelligence (AI) technologies such as Machine Learning (ML) mechanisms enable to archives intelligent behavior for unmanned systems. Moreover, it provides a smart solution to enhance IoUAV network efficiency. Decisions in data processing are considered one of the most problematic issues related to UAV especially for the operations related to cloud and fog based network levels. ML enables to resolve some of these issues and optimize the Quality of UAV network experience (QoE). The paper provides theoretical fundamentals for ML models and algorithms for IoUAV applications and recently related works, in addition to future trends. Show more
Keywords: IoUAV, machine learning, deep learning, QoE, network optimization, smart unmanned systems
DOI: 10.3233/JIFS-211009
Citation: Journal of Intelligent & Fuzzy Systems, vol. 42, no. 4, pp. 3203-3226, 2022
Authors: Xue, Feng | Liu, Yongbo | Ma, Xiaochen | Pathak, Bharat | Liang, Peng
Article Type: Research Article
Abstract: To solve the problem that the K-means algorithm is sensitive to the initial clustering centers and easily falls into local optima, we propose a new hybrid clustering algorithm called the IGWOKHM algorithm. In this paper, we first propose an improved strategy based on a nonlinear convergence factor, an inertial step size, and a dynamic weight to improve the search ability of the traditional grey wolf optimization (GWO) algorithm. Then, the improved GWO (IGWO) algorithm and the K-harmonic means (KHM) algorithm are fused to solve the clustering problem. This fusion clustering algorithm is called IGWOKHM, and it combines the global search …ability of IGWO with the local fast optimization ability of KHM to both solve the problem of the K-means algorithm’s sensitivity to the initial clustering centers and address the shortcomings of KHM. The experimental results on 8 test functions and 4 University of California Irvine (UCI) datasets show that the IGWO algorithm greatly improves the efficiency of the model while ensuring the stability of the algorithm. The fusion clustering algorithm can effectively overcome the inadequacies of the K-means algorithm and has a good global optimization ability. Show more
Keywords: Grey wolf optimization algorithm, nonlinear convergence factor, inertial step size, dynamic weight, K-harmonic means clustering, hybrid clustering
DOI: 10.3233/JIFS-211034
Citation: Journal of Intelligent & Fuzzy Systems, vol. 42, no. 4, pp. 3227-3240, 2022
Authors: Seethalakshmi, K. | Valli, S. | Veeramakali, T. | Kanimozhi, K.V. | Hemalatha, S. | Sambath, M.
Article Type: Research Article
Abstract: Deep learning using fuzzy is highly modular and more accurate. Adaptive Fuzzy Anisotropy diffusion filter (FADF) is used to remove noise from the image while preserving edges, lines and improve smoothing effects. By detecting edge and noise information through pre-edge detection using fuzzy contrast enhancement, post-edge detection using fuzzy morphological gradient filter and noise detection technique. Convolution Neural Network (CNN) ResNet-164 architecture is used for automatic feature extraction. The resultant feature vectors are classified using ANFIS deep learning. Top-1 error rate is reduced from 21.43% to 18.8%. Top-5 error rate is reduced to 2.68%. The proposed work results in high …accuracy rate with low computation cost. The recognition rate of 99.18% and accuracy of 98.24% is achieved on standard dataset. Compared to the existing techniques the proposed work outperforms in all aspects. Experimental results provide better result than the existing techniques on FACES 94, Feret, Yale-B, CMU-PIE, JAFFE dataset and other state-of-art dataset. Show more
Keywords: Fuzzy anisotropy diffusion, edge detection, contrast enhancement, CNN (ResNet), feature extraction, ANFIS deep learning
DOI: 10.3233/JIFS-211114
Citation: Journal of Intelligent & Fuzzy Systems, vol. 42, no. 4, pp. 3241-3250, 2022
Authors: Xuejian, Zhang | Xiaobing, Hu | Hang, Li
Article Type: Research Article
Abstract: To ensure the cutting speed during the cutting operation, this paper proposes a groove cutting speed inference planning system that relies on production experience and set parameters and is based on machine vision and a two-level fuzzy neural hybrid network. The overall structure of the inference system is designed, including the mechanical body, vision system, and fuzzy neural hybrid network. The contour information of the part is obtained using industrial cameras and digital image processing systems. The cutting speed of the trajectory segment is inferred based on the related processing parameters and the secondary fuzzy neural hybrid network. Finally, all …of the processing parameters are transmitted to the PLC, so that the robot can work according to the predetermined displacement and speed. Simulations verify that the speed inference planning system offers certain advantages compared to the traditional one. The appearance of the speed inference planning realises independent design and planning of the cutting speed, and further ensures the unity of the cutting quality and cutting speed. This proposed method provides a new direction for the development and transformation of machining processes that rely on manual experience and in which expert systems cannot be used. Show more
Keywords: groove cutting speed, machine vision, fuzzy neural network, MATLAB simulation
DOI: 10.3233/JIFS-211116
Citation: Journal of Intelligent & Fuzzy Systems, vol. 42, no. 4, pp. 3251-3264, 2022
Authors: Gunapriya, D. | Muniraj, C. | Lakshmi, K.
Article Type: Research Article
Abstract: The detection as well as analysis of faults in Induction Motor (IM) is prominent in the industrial process in recent decades, since it has been a demanding issue in industries to confirm the safe and reliable operations of IM. Though the electrical faults, mechanical faults and environmental faults cause damages in IM, as per Electric Power Research Institute (EPRI) statistical studies, the faults due to (i) rotor mass unbalance and (ii) rotor shaft bending substantially contribute 8-9% of the total motor fault. This present research work focuses on the issue of detecting and analysing the faults by studying the current …and vibration data obtained from the three-phase squirrel cage IM under healthy and faulty conditions using the experimental workbench. It also depicts the development of a fault detection model for IM which comprises the integrated approach of Principal Component Analysis (PCA) and Fuzzy Interference System (FIS) and two level decision fuzzy measures. Besides, fuzzy integral data fusion technique has been used in this work for the improvement of diagnosing accuracy. The data acquired from the workbench system are first investigated through the PCA to extricate the appropriate features that provide the major information of collected data without reducing its dimensions. The projected data space using the principal components is non-deterministic for further synthesis process of fault classification. Hence, to classify the faults in IM, the obtained feature vectors from PCA are fed into FIS as an input and the classification performance is compared finally. The work experiment has been carried out under the healthy and different faulty conditions of motor and the proposed integrated approach is executed by using MATLAB. Show more
Keywords: Fuzzy logic, fuzzy integral, fuzzy measure, induction motor faults, principal component analysis, current and vibration signals
DOI: 10.3233/JIFS-211124
Citation: Journal of Intelligent & Fuzzy Systems, vol. 42, no. 4, pp. 3265-3283, 2022
Authors: Medeiros, Alessandro | Sartori, Andreza | Stefenon, Stéfano Frizzo | Meyer, Luiz Henrique | Nied, Ademir
Article Type: Research Article
Abstract: Contamination in insulators results in an increase in surface conductivity. With higher surface conductivity, insulators are more vulnerable to discharges that can damage them, thus reducing the reliability of the electrical system. One of the indications that the insulator is losing its insulating properties is its increase in leakage current. By varying the leakage current over time, it is possible to determine whether the insulator will develop an irreversible failure. In this way, by predicting the increase in leakage current, it is possible to carry out maintenance to avoid system failures. For forecasting time series, there are many models that …have been studied and the definition of which model is suitable for evaluation depends on the characteristics of the data associated with the analysis. Thus, this work aims to identify the most suitable model to predict the increase in leakage current in relation to the time the insulator is outdoors, exposed to environmental variations using the same database to compare the methods. In this paper, the models based on linear regression, support vector regression (SVR), multilayer Perceptron (MLP), deep neural network (DNN), and recurrent neural network (RNN) will be analyzed comparatively. The best accuracy results for prediction were found using the RNN models, resulting in an accuracy of up to 97.25%. Show more
Keywords: Failure prediction, time series forecasting, artificial neural network, insulators
DOI: 10.3233/JIFS-211126
Citation: Journal of Intelligent & Fuzzy Systems, vol. 42, no. 4, pp. 3285-3298, 2022
Authors: Padmapriya, V. | Kaliyappan, M.
Article Type: Research Article
Abstract: In this paper, we develop a mathematical model with a Caputo fractional derivative under fuzzy sense for the prediction of COVID-19. We present numerical results of the mathematical model for COVID-19 of most three infected countries such as the USA, India and Italy. Using the proposed model, we estimate predicting future outbreaks, the effectiveness of preventive measures and potential control strategies of the infection. We provide a comparative study of the proposed model with Ahmadian’s fuzzy fractional mathematical model. The results demonstrate that our proposed fuzzy fractional model gives a nearer forecast to the actual data. The present study can …confirm the efficiency and applicability of the fractional derivative under uncertainty conditions to mathematical epidemiology. Show more
Keywords: Fuzzy triangular number, fuzzy fractional derivative, Caputo derivative, COVID-19, Mathematical model
DOI: 10.3233/JIFS-211173
Citation: Journal of Intelligent & Fuzzy Systems, vol. 42, no. 4, pp. 3299-3321, 2022
Authors: Yang, Songyue | Yu, Guizhen | Meng, Zhijun | Wang, Zhangyu | Li, Han
Article Type: Research Article
Abstract: In the intelligent unmanned systems, unmanned aerial vehicle (UAV) obstacle avoidance technology is the core and primary condition. Traditional algorithms are not suitable for obstacle avoidance in complex and changeable environments based on the limited sensors on UAVs. In this article, we use an end-to-end deep reinforcement learning (DRL) algorithm to achieve the UAV autonomously avoid obstacles. For the problem of slow convergence in DRL, a Multi-Branch (MB) network structure is proposed to ensure that the algorithm can get good performance in the early stage; for non-optimal decision-making problems caused by overestimation, the Revise Q-value (RQ) algorithm is proposed to …ensure that the agent can choose the optimal strategy for obstacle avoidance. According to the flying characteristics of the rotor UAV, we build a V-Rep 3D physical simulation environment to test the obstacle avoidance performance. And experiments show that the improved algorithm can accelerate the convergence speed of agent and the average return of the round is increased by 25%. Show more
Keywords: UAV, obstacle avoidance, DQN, overestimation, convergence rate
DOI: 10.3233/JIFS-211192
Citation: Journal of Intelligent & Fuzzy Systems, vol. 42, no. 4, pp. 3323-3335, 2022
Authors: Zhu, Wuqiang | Lu, Yang | Zhang, Yongliang | Wei, Xing | Wei, Zhen
Article Type: Research Article
Abstract: End-to-end deep learning has gained considerable interests in autonomous driving vehicles. End-to-end autonomous driving uses the deep convolutional neural network to establish input-to-output mapping. However, existing end-to-end driving models only predict steering angle with front-facing camera data and poorly extract spatial-temporal information. Based on deep learning and attention mechanism, we propose an end-to-end driving model which combines the multi-stream attention module with the multi-stream network. As a multimodal multitask model, the proposed end-to-end driving model not only fully extracts spatial-temporal information from multimodality, but also adopts the multitask learning method with hard parameter sharing to predict the steering angle and …speed. Furthermore, the proposed multi-stream attention module predicts the attention weights of streams based on the multimodal feature fusion, which encourages the proposed end-to-end driving model to pay attention to streams that positively impact the prediction result. We demonstrate the efficiency of the proposed driving model on the public Udacity dataset compared to existing models. Experimental results show that the proposed driving model has better performances than other existing methods. Show more
Keywords: End-to-end autonomous driving, attention mechanism, multimodal, multitask
DOI: 10.3233/JIFS-211206
Citation: Journal of Intelligent & Fuzzy Systems, vol. 42, no. 4, pp. 3337-3348, 2022
Authors: Işık, Gürkan | Kaya, İhsan
Article Type: Research Article
Abstract: Although traditional acceptance sampling plans (ASPs) need certain mass quality characteristics, it is not easy to define them as crisp value in some real case problems. The fuzzy set theory (FST) is one of the popular techniques to model uncertainties of the process and therefore fuzzy ASPs have been offered in the literature. Fuzzy set extensions have been proposed recently for better modeling of the uncertainties having different sources and characteristics. One of these extensions named neutrosophic sets (NSs) can be used to increase the sensitiveness and flexibility of ASPs. The ASPs based on NSs can give ability to classify …the items as defective, non-defective and indeterminate. Since the operator can become indecisive for slightly defective items, these plans can provide a good representation of human evaluations under uncertainty. In this study, single and double ASPs are designed based on NSs by using binomial and poisson distributions that are also re-analyzed based on NSs. For this aim, some characteristics functions of ASPs such as probability of accepting a lot (P a ), average outgoing quality (AOQ ), average total inspection (ATI ) and average sample number (ASN ) have also been analyzed based on NSs. Numerical examples are presented to analyze the proposed plans. Show more
Keywords: Acceptance sampling plans, fuzzy sets, neutrosophic sets, neutrosophic poisson distribution
DOI: 10.3233/JIFS-211232
Citation: Journal of Intelligent & Fuzzy Systems, vol. 42, no. 4, pp. 3349-3366, 2022
Authors: Khalil, Ahmed Mostafa
Article Type: Research Article
Abstract: In this article, we will define the new notions (e.g., semi-θ-neighbor-hood system of point, semi-θ-closure (interior) of a set and semi-θ-closed (open) set) based on fuzzy logic (i.e., fuzzifying topology). Then, we will explain the interesting properties of above five notions in detail. Several basic results (for instance, Definition 2.3, Theorem 2.5 (iii), (v) and (vi), Theorem 2.10, Theorem 2.14 and Theorem 4.6) in classical topology are generalized to the fuzzy case based on Łukasiewicz logic. In addition to, we will show that every fuzzifying semi-θ-closed set is fuzzifying semi-closed set (by Theorem 2.5 (vi)). Further, we will study the …notion of fuzzifying semi-θ-derived set and fuzzifying semi-θ-boundary set, and discuss several of their fundamental basic relations and properties. Also, we will present a new type of fuzzifying strongly semi-θ-continuous mapping between two fuzzifying topological spaces. Finally, several characterizations of fuzzifying strongly semi-θ-continuous mapping, fuzzifying strongly semi-θ-irresolute mapping, and fuzzifying weakly semi-θ-irresolute mapping along with different conditions for their existence are obtained. Show more
Keywords: Fuzzy logic, fuzzifying topology, fuzzifying semi-θ-closure of a set, fuzzifying semi-θ-closed sets, fuzzifying strongly semi-θ-continuous mapping
DOI: 10.3233/JIFS-211301
Citation: Journal of Intelligent & Fuzzy Systems, vol. 42, no. 4, pp. 3367-3379, 2022
Authors: Gong, Zengtai | Xiao, Zhiyong
Article Type: Research Article
Abstract: This article has been retracted. A retraction notice can be found at https://doi.org/10.3233/JIFS-219433 .
DOI: 10.3233/JIFS-211306
Citation: Journal of Intelligent & Fuzzy Systems, vol. 42, no. 4, pp. 3381-3391, 2022
Authors: Cai, Qian | Xiong, Xingliang | Gong, Weiqiang | Wang, Haixian
Article Type: Research Article
Abstract: BACKGROUND: Classification of action intention understanding is extremely important for human computer interaction. Many studies on the action intention understanding classification mainly focus on binary classification, while the classification accuracy is often unsatisfactory, not to mention multi-class classification. METHOD: To complete the multi-class classification task of action intention understanding brain signals effectively, we propose a novel feature extraction procedure based on thresholding graph metric. RESULTS: Both the alpha frequency band and full-band obtained considerable classification accuracies. Compared with other methods, the novel method has better classification accuracy. CONCLUSIONS: Brain activity of action intention understanding …is closely related to the alpha band. The new feature extraction procedure is an effective method for the multi-class classification of action intention understanding brain signals. Show more
Keywords: Action intention understanding, EEG, classification, feature extraction, graph metric
DOI: 10.3233/JIFS-211333
Citation: Journal of Intelligent & Fuzzy Systems, vol. 42, no. 4, pp. 3393-3403, 2022
Authors: Jiang, Zhiwei | Wei, Guiwu | Guo, Yanfeng
Article Type: Research Article
Abstract: In the garment manufacturing industry, purchasing management is an important link. The materials of making clothes often need high cost. In addition, customers put forward a request in the quality of clothes. Thus, choosing an optimal supplier is an essential part of job. Reaching cooperation with an optimal supplier not only can help garment manufacturer improve the quality of clothes but also is benefit to reduce the cost of producing. Most importantly, it can improve the competitiveness of manufacture enterprises. So, it is important for managers to find an optimal supplier and make a cooperation with it. In this paper, …we analysis an issue about choosing an optimal supplier during four different suppliers. With analyzing this problem, we can introduce an extended method under picture fuzzy environment to evaluate and choose an optimal supplier. In this article, we describe some basic knowledges about picture fuzzy sets (PFSs) and picture fuzzy numbers (PFNs). Then, we introduce the extension of MABAC method which is on the basis of prospect theory (PT) with picture fuzzy numbers (PF-PT-MABAC) and utilize the PF-PT-MABAC model to evaluate different suppliers to choose an optimal supplier. Finally, we compare the result of PF-PT-MABAC with the result of traditional MABAC, PFWG operators and traditional TODIM method to test the efficiency of PF-PT-MABAC model. Show more
Keywords: Multiple attribute group decision making (MAGDM), picture fuzzy sets (PFSs), MABAC method, prospect theory (PT), suppliers selection
DOI: 10.3233/JIFS-211359
Citation: Journal of Intelligent & Fuzzy Systems, vol. 42, no. 4, pp. 3405-3415, 2022
Authors: Kashif, Agha | Rashid, Tabasam | Noor, Bibi | Sindhu, Muhammad Sarwar
Article Type: Research Article
Abstract: Motivated by intuitionistic fuzzy sets and soft sets, a novel concept of lattice ordered interval-valued intuitionistic fuzzy soft sets (LOIVIFSSs) is introduced in this article. Operational rules like union, intersection, complement and some properties of LOIVIFSSs are demonstrated with examples. In this regard, an algorithm is developed to solve the multiple criteria decision-making (MCDM) problems based on LOIVIFSSs. Further, a benchmark problem concerning medical diagnosis have been investigated and a comparative analysis with existing technique is furnished to strengthen our approach.
Keywords: Fuzzy sets, intuitionistic fuzzy sets, soft sets, lattice
DOI: 10.3233/JIFS-211376
Citation: Journal of Intelligent & Fuzzy Systems, vol. 42, no. 4, pp. 3417-3430, 2022
Authors: Jiang, Tianhua | Zhu, Huiqi | Gu, Jiuchun | Liu, Lu | Song, Haicao
Article Type: Research Article
Abstract: This paper presents a discrete animal migration optimization (DAMO) to solve the dual-resource constrained energy-saving flexible job shop scheduling problem (DRCESFJSP), with the aim of minimizing the total energy consumption in the workshop. A job-resource-based two-vector encoding method is designed to represent the scheduling solution, and an energy-saving decoding approach is given based on the left-shift rule. To ensure the quality and diversity of initial scheduling solutions, a heuristic approach is employed for the resource assignment, and some dispatching rules are applied to acquire the operation permutation. In the proposed DAMO, based on the characteristics of the DRCESFJSP problem, the …search operators of the basic AMO are discretized to adapt to the problem under study. An animal migration operator is presented based on six problem-based neighborhood structures, which dynamically changes the search scale of each animal according to its solution quality. An individual updating operator based on crossover operation is designed to obtain new individuals through the crossover operation between the current individual and the best individual or a random individual. To evaluate the performance of the proposed algorithm, the Taguchi design of experiment method is first applied to obtain the best combination of parameters. Numerical experiments are carried out based on 32 instances in the existing literature. Computational data and statistical comparisons indicate that both the left-shift decoding rule and population initialization strategy are effective in enhancing the quality of the scheduling solutions. It also demonstrate that the proposed DAMO has advantages against other compared algorithms in terms of the solving accuracy for solving the DRCESFJSP. Show more
Keywords: Dual-resource constraint, energy-saving scheduling, flexible job shop, discrete animal migration optimization
DOI: 10.3233/JIFS-211399
Citation: Journal of Intelligent & Fuzzy Systems, vol. 42, no. 4, pp. 3431-3444, 2022
Authors: Joshi, Pallavi | Raghuvanshi, Ajay Singh
Article Type: Research Article
Abstract: The abrupt changes in the sensor measurements indicating the occurrence of an event are the major factors in some monitoring applications of IoT networks. The prediction-based approach for data aggregation in wireless sensor networks plays a significant role in detecting such events. This paper introduces a prediction-based aggregation model for sensor selection named the Grey prediction model and the Kalman filter-based data aggregation model with rank-based mutual information (GMKFDA-MI) that has a dual synchronization mechanism for aggregating the data and selecting the nodes based on prediction and cumulative error thresholds. Furthermore, the nodes after deployment are clustered using K-medoids clustering …along with the Salp swarm optimization algorithm to obtain an optimized aggregator position concerning the base station. An efficient clustering promises energy efficiency and better connectivity. The experiments are accomplished on real-time datasets of air pollution monitoring applications and the results for the proposed method are compared with other similar state-of-the-art techniques. The proposed method promises high prediction accuracy, low energy consumption and enhances the throughput of the network. The energy-saving is recorded to be more than 10 to 30% for the proposed model when compared with other similar approaches. Also, the proposed method achieves 97.8% accuracy as compared to other methods. The method proves its best working efficiency in the applications like event reporting, target detection, and event monitoring. Show more
Keywords: IoT, wireless sensor networks, data aggregation, grey model, kalman filter, mutual information, K-medoids clustering, salp swarm optimization
DOI: 10.3233/JIFS-211436
Citation: Journal of Intelligent & Fuzzy Systems, vol. 42, no. 4, pp. 3445-3464, 2022
Authors: Ghafour, Karzan Mahdi
Article Type: Research Article
Abstract: Demand forecasting is a fundamental element in industrial problems. Forecasts are crucial for accurately estimating intermittent demand to establish inventory measurements. The demand estimation by the Croston method gives less accurate values, which increases the standard deviation value. This increase indicates that the forecasted method is an inappropriate method of intermittent demand data because of the zero values. However, real data were adopted in an industrial sector for three years with constant lead-time. Furthermore, an integration of Bernoulli distribution and geometric distribution has been done to establish the new formulation, then extracting the mean equation and the standard deviation equation …of intermittent demand during lead-time. Relying on it, the optimal quantity of safety stock and reorder levels have been obtained. Furthermore, the proposed modified forecasting method was evaluated based on the criteria of CV and the results that obtained gives a less ratio dispersion of data thus accurate results. These procedures are very important to the industrial sectors in drawing future inventory policies. Show more
Keywords: Intermittent demand, forecasting, croston’s method, reorder level and safety stock
DOI: 10.3233/JIFS-211454
Citation: Journal of Intelligent & Fuzzy Systems, vol. 42, no. 4, pp. 3465-3475, 2022
Authors: Prajna, Yellamelli | Nath, Malaya Kumar
Article Type: Research Article
Abstract: Blood vessel segmentation is an essential element of automatic retinal disease screening systems. In particular, retinal blood vessel analysis from fundus image is vital in the identification and diagnosis of cardiovascular and ophthalmological diseases (Ex: Diabetic Retinopathy, Macular degeneration, Retinal Pigmentosa, Macular Edema, and various stages of Glaucoma, etc). Wherefore, the diagnosis of these diseases by automatic vessel segmentation has become essential, especially in disclosure of premature prognosis of vision condition. In general, blood vessel extraction is divided into vessel tracking and pixel classification. In vessel tracking a vasculature model is expanded from a seed point. In pixel classification, the …classifier classifies the pixels as either a vessel or background pixel, which is demonstrated in the proposed architecture. In this paper, deep learning based 19 layer U-Net architecture is proposed for the accurate and efficient segmentation of blood vessels. Prior to segmentation, a pre-processing block of AlexNet architecture is introduced for the classification of high-quality images from the experimented databases. This pre-classification stage helps in efficiently picking high-quality images determined by clarity, field definition, and sharpness. AlexNet classification is pivotal in enhancing the overall performance of the system by segmenting fine and tiny blood vessels. The proposed U-Net architecture has an encoder-decoder framework with 9 and 5 convolutional layers in each respectively. In order to boost the efficiency of the network as well as to reduce training and testing time, a proper choice of kernel dimension and number of filters are necessary. Our architecture was investigated on popular databases such as DRIVE, ARIA_d and MESSIDOR and various performance measures (accuracy, sensitivity, specificity, sensibility, Dice coefficient, and Jaccard coefficient) have been computed along with the Receiver Operating Characteristics. It is observed that the accuracy for DRIVE, ARIA_d and MESSIDOR are 90.60%, 87.60% and 83.42%, respectively. Area under curve in Receiver Operating Characteristics plot is found to be 98.54%, 93.28% and 88.18%, for DRIVE, ARIA_d and MESSIDOR databases, respectively. Results with the proposed architecture show remarkable improvement in the performance metrics for blood vessel segmentation. Show more
Keywords: Fundus image, U-Net, MSRI, accuracy, ROC curve
DOI: 10.3233/JIFS-211479
Citation: Journal of Intelligent & Fuzzy Systems, vol. 42, no. 4, pp. 3477-3489, 2022
Authors: Farooq, Muhammad | Qamar-uz-zaman, | Ijaz, Muhammad
Article Type: Research Article
Abstract: The Covid-19 infections outbreak is increasing day by day and the mortality rate is increasing exponentially both in underdeveloped and developed countries. It becomes inevitable for mathematicians to develop some models that could define the rate of infections and deaths in a population. Although there exist a lot of probability models but they fail to model different structures (non-monotonic) of the hazard rate functions and also do not provide an adequate fit to lifetime data. In this paper, a new probability model (FEW) is suggested which is designed to evaluate the death rates in a Population. Various statistical properties of …FEW have been screened out in addition to the parameter estimation by using the maximum likelihood method (MLE). Furthermore, to delineate the significance of the parameters, a simulation study is conducted. Using death data from Pakistan due to Covid-19 outbreak, the proposed model applications is studied and compared to that of other existing probability models such as Ex-W, W, Ex, AIFW, and GAPW. The results show that the proposed model FEW provides a much better fit while modeling these data sets rather than Ex-W, W, Ex, AIFW, and GAPW. Show more
Keywords: FEW, MLE, statistical properties, applications, and simulation
DOI: 10.3233/JIFS-211519
Citation: Journal of Intelligent & Fuzzy Systems, vol. 42, no. 4, pp. 3491-3499, 2022
Authors: Tripathy, Santosh Kumar | Sudhamsh, Repala | Srivastava, Subodh | Srivastava, Rajeev
Article Type: Research Article
Abstract: Crowd panic detection (CPD) is crucial to control crowd disasters. The recent CPD approaches fail to address crowd shape change due to perspective distortion in the frame and across the frames. To this end, we are motivated to design a simple but most effective model known as multiscale spatial-temporal atrous-net and principal component analysis (PCA) guided one-class support vector machine (OC-SVM), i.e., MuST-POS for the CPD. The proposed model utilizes two multiscale atrous-net to extract multiscale spatial and multiscale temporal features to model crowd scenes. Then we adopted PCA to reduce the dimension of the extracted multiscale features and fed …them into an OC-SVM for modeling normal crowd scenes. The outliers of the OC-SVM are treated as crowd panic behavior. Three publicly available datasets: the UMN, the MED, and the Pets-2009, are used to show the effectiveness of the proposed MuST-POS. The MuST-POS achieves the detection accuracy of 99.40%, 97.61%, and 98.37% on the UMN, the MED, and the Pets-2009 datasets, respectively, and performs better to recent state-of-the-art approaches. Show more
Keywords: Atrous (Dilated)-CNN, multiscale spatial-temporal features, dimension reduction, PCA, OC-SVM
DOI: 10.3233/JIFS-211556
Citation: Journal of Intelligent & Fuzzy Systems, vol. 42, no. 4, pp. 3501-3516, 2022
Authors: Khan, Izaz Ullah | Aftab, Muhammad
Article Type: Research Article
Abstract: This research is about the development of a dynamic programming model for solving fuzzy linear programming problems. Initially, fuzzy dynamic linear programming model FDLP is developed. This research revises the established dynamic programming model for solving linear programming problems in a crisp environment. The mentioned approach is upgraded to address the problem in an uncertain environment. Dynamic programming model can either be passing forward or backward. In the proposed approach backward dynamic programming approach is adopted to address the problem. It is then followed by implementing the proposed method on the education system of Pakistan. The education system of Pakistan …comprises of the Primary, Middle, Secondary, and Tertiary education stages. The problem is to maximize the efficiency of the education system while achieving the targets with minimum usage of the constrained resources. Likewise the model tries to maximize the enrollment in the Primary, Middle, Secondary and Tertiary educational categories, subject to the total available resources in a fuzzy uncertain environment. The solution proposes that the enrollment can be increased by an amount 9997130, by increasing the enrollment in the Middle and Tertiary educational categories. Thus the proposed method contributes to increase the objective function value by 30%. Moreover, the proposed solutions violate none of the constraints. In other words, the problem of resources allocation in education system is efficiently managed to increase efficiency while remaining in the available constrained resources. The motivation behind using the dynamic programming methodology is that it always possesses a numerical solution, unlike the other approaches having no solution at certain times. The proposed fuzzy model takes into account uncertainty in the linear programming modeling process and is more robust, flexible and practicable. Show more
Keywords: Fuzzy Linear Programming (FLP), fuzzy mathematical programming, dynamic programming, education, fuzzy sets and fuzzy modeling, resource allocation
DOI: 10.3233/JIFS-211577
Citation: Journal of Intelligent & Fuzzy Systems, vol. 42, no. 4, pp. 3517-3535, 2022
Authors: Sun, Quan | Yu, Xianghai | Li, Hongsheng | Peng, Fei | Sun, Guodong
Article Type: Research Article
Abstract: With the rapid development of new energy vehicles, the reliability and safety of Brushless DC motor drive system, the core component of new energy vehicles, has been widely concerned. The traditional open circuit fault detection method of power electronic converters have the problem of poor feature extraction ability because of inadequate signal processing means, which lead to low recognition accuracy. Therefore, a fault recognition method based on continuous wavelet transform and convolutional neural network (CWT-CNN) is proposed. It can not only adaptively extract features, but also avoid the complexity and uncertainty of artificial feature extraction. The three-phase current signal is …converted into time-frequency spectrum by continuous wavelet transform as the input data of AlexNet. At the same time, the changes of time domain and frequency domain under different fault modes are analyzed. Finally, the softmax classifier with Adam optimizer is used to classify the fault features extracted by CNN to realize the state recognition of different fault modes of power electronic converter. The experimental results show that the CWT-CNN model achieves satisfactory fault detection accuracy under different working conditions and different fault modes. The effectiveness and superiority of the proposed method are verified by comparing with other networks. Show more
Keywords: Continuous wavelet transform, convolution neural network, fault detection, power electronic converter
DOI: 10.3233/JIFS-211632
Citation: Journal of Intelligent & Fuzzy Systems, vol. 42, no. 4, pp. 3537-3549, 2022
Authors: Jin, LeSheng | Mesiar, Radko | Yager, Ronald | Kaya, Sema Kayapinar
Article Type: Research Article
Abstract: The recently proposed basic uncertain information can directly present numerical uncertainties for given real values, but it cannot handle given interval values which themselves also have uncertainties. Against this background, this work proposes the concept of interval basic uncertain information which serves as a generalization of basic uncertain information and involves two types of uncertainties. We analyze some basic operations, weighted arithmetic mean and preference transformation for interval basic uncertain information. The Rule-based decisions and the comprehensive certainty of interval basic uncertain information are also discussed. An illustrative example of multi-source multi-criteria evaluation under interval basic uncertain information environment is …presented. Show more
Keywords: Aggregation operators, basic uncertain information, decision making, interval basic uncertain information, preference aggregation
DOI: 10.3233/JIFS-211635
Citation: Journal of Intelligent & Fuzzy Systems, vol. 42, no. 4, pp. 3551-3558, 2022
Authors: Li, Feng
Article Type: Research Article
Abstract: Many experts and scholars focus on the Maclaurin symmetric mean (MSM) equation, which can reflect the interrelationship among the multi-input arguments. It has been generalized to different fuzzy environments and put into use in various actual decision problems. The fuzzy data intuitionistic fuzzy numbers (FNIFNs) could well depict the uncertainties and fuzziness during the security evaluation of Wireless Sensor Network (WSN). And the WSN security evaluation is frequently viewed as the multiple attribute decision-making (MADM) issue. In this paper, we expand the generalized Maclaurin symmetric mean (GMSM) equation with FNIFNs to propose the fuzzy number intuitionistic fuzzy generalized MSM (FNIFGMSM) …equation and fuzzy number intuitionistic fuzzy weighted generalized MSM (FNIFWGMSM) equation in this study. A few MADM tools are developed with FNIFWGMSM equation. Finally, taking WSN security evaluation as an example, this paper illustrates effectiveness of the depicted approach. Moreover, by comparing and analyzing the existing methods, the effectiveness and superiority of the FNIFWGMSM method are further certified. Show more
Keywords: Multiple attribute decision making (MADM), fuzzy number intuitionistic fuzzy sets (FNIFSs), fuzzy number intuitionistic fuzzy GMSM (FNIFGMSM) equation, fuzzy number intuitionistic fuzzy weighted GMSM (FNIFWGMSM) equation, Wireless Sensor Network (WSN)
DOI: 10.3233/JIFS-211731
Citation: Journal of Intelligent & Fuzzy Systems, vol. 42, no. 4, pp. 3559-3573, 2022
Authors: Varatharaj, Nagaraj | Ramalingam, Sumithira Thulasimani
Article Type: Research Article
Abstract: Most revolutionary applications extending far beyond smartphones and high configured mobile device use to the future generation wireless networks’ are high potential capabilities in recent days. One of the advanced wireless networks and mobile technology is 5G, where it provides high speed, better reliability, and amended capacity. 5 G offers complete coverage, which is accommodates any IoT device, connectivity, and intelligent edge algorithms. So that 5 G has a high demand in a wide range of commercial applications. Ambrosus is a commercial company that integrates block-chain security, IoT network, and supply chain management for medical and food enterprises. This paper proposed a …novel framework that integrates 5 G technology, Machine Learning (ML) algorithms, and block-chain security. The main idea of this work is to incorporate the 5 G technology into Machine learning architectures for the Ambrosus application. 5 G technology provides continuous connection among the network user/nodes, where choosing the right user, base station, and the controller is obtained by using for ML architecture. The proposed framework comprises 5 G technology incorporate, a novel network orchestration, Radio Access Network, and a centralized distributor, and a radio unit layer. The radio unit layer is used for integrating all the components of the framework. The ML algorithm is evaluated the dynamic condition of the base station, like as IoT nodes, Ambrosus users, channels, and the route to enhance the efficiency of the communication. The performance of the proposed framework is evaluated in terms of prediction by simulating the model in MATLAB software. From the performance comparison, it is noticed that the proposed unified architecture obtained 98.6% of accuracy which is higher than the accuracy of the existing decision tree algorithm 97.1%. Show more
Keywords: 5 G Technology, internet of things, block-chain security, wireless communication, machine learning models
DOI: 10.3233/JIFS-211745
Citation: Journal of Intelligent & Fuzzy Systems, vol. 42, no. 4, pp. 3575-3590, 2022
Authors: Garg, Harish | Alodhaibi, Sultan S. | Khalifa, Hamiden Abd El-Wahed
Article Type: Research Article
Abstract: Rough set theory, introduced by Pawlak in 1981, is one of the important theories to express the vagueness not by means of membership but employing a boundary region of a set, i.e., an object is approximately determined based on some knowledge. In our real-life, there exists several parameters which impact simultaneously on each other and hence dealing with such different parameters and their conflictness create a multi-objective nonlinear programming problem (MONLPP). The objective of the paper is to deal with a MONLPP with rough parameters in the constraint set. The considered MONLPP with rough parameters are converted into the two-single …objective problems namely, lower and upper approximate problems by using the weighted averaging and the ɛ - constraints methods and hence discussed their efficient solutions. The Karush-Kuhn-Tucker’s optimality conditions are applied to solve these two lower and upper approximate problems. In addition, the rough weights and the rough parameter ɛ are determined by the lower and upper the approximations corresponding each efficient solution. Finally, two numerical examples are considered to demonstrate the stated approach and discuss their advantages over the existing ones. Show more
Keywords: Multiobjective nonlinear programming, rough set, lower approximation programming problem, upper approximation programming problem, weighting method, ɛ- constraints method, parametric analysis
DOI: 10.3233/JIFS-211747
Citation: Journal of Intelligent & Fuzzy Systems, vol. 42, no. 4, pp. 3591-3604, 2022
Authors: Zhou, Wei | Jiang, Xing | Guo, Bingli | Meng, Lingyu
Article Type: Research Article
Abstract: Currently, Quality-of-Service (QoS)-aware routing is one of the crucial challenges in Software Defined Network (SDN). The QoS performances, e.g. latency, packet loss ratio and throughput, must be optimized to improve the performance of network. Traditional static routing algorithms based on Open Shortest Path First (OSPF) could not adapt to traffic fluctuation, which may cause severe network congestion and service degradation. Central intelligence of SDN controller and recent breakthroughs of Deep Reinforcement Learning (DRL) pose a promising solution to tackle this challenge. Thus, we propose an on-policy DRL mechanism, namely the PPO-based (Proximal Policy Optimization) QoS-aware Routing Optimization Mechanism (PQROM), to …achieve a general and re-customizable routing optimization. PQROM can dynamically update the routing calculation by adjusting the reward function according to different optimization objectives, and it is independent of any specific network pattern. Additionally, as a black-box one-step optimization, PQROM is qualified for both continuous and discrete action space with high-dimensional input and output. The OMNeT ++ simulation experiment results show that PQROM not only has good convergence, but also has better stability compared with OSPF, less training time and simpler hyper-parameters adjustment than Deep Deterministic Policy Gradient (DDPG) and less hardware consumption than Asynchronous Advantage Actor-Critic (A3C). Show more
Keywords: PQROM, SDN, QoS-aware routing
DOI: 10.3233/JIFS-211787
Citation: Journal of Intelligent & Fuzzy Systems, vol. 42, no. 4, pp. 3605-3614, 2022
Authors: Chen, Lijun | Luo, Damei | Wang, Pei | Li, Zhaowen | Xie, Ningxin
Article Type: Research Article
Abstract: An approximation space (A -space) is the base of rough set theory and a fuzzy approximation space (FA -space) can be seen as an A -space under the fuzzy environment. A fuzzy probability approximation space (FPA -space) is obtained by putting probability distribution into an FA -space. In this way, it combines three types of uncertainty (i.e., fuzziness, probability and roughness). This article is devoted to measuring the uncertainty for an FPA -space. A fuzzy relation matrix is first proposed by introducing the probability into a given fuzzy relation matrix, and on this basis, it is expanded to an FA …-space. Then, granularity measurement for an FPA -space is investigated. Next, information entropy measurement and rough entropy measurement for an FPA -space are proposed. Moreover, information amount in an FPA -space is considered. Finally, a numerical example is given to verify the feasibility of the proposed measures, and the effectiveness analysis is carried out from the point of view of statistics. Since three types of important theories (i.e., fuzzy set theory, probability theory and rough set theory) are clustered in an FPA -space, the obtained results may be useful for dealing with practice problems with a sort of uncertainty. Show more
Keywords: FPA-space, fuzzy relation, uncertainty, measure, information granulation, entropy, effectiveness
DOI: 10.3233/JIFS-211790
Citation: Journal of Intelligent & Fuzzy Systems, vol. 42, no. 4, pp. 3615-3638, 2022
Authors: Zhao, Mujie | Zhang, Tao | Wang, Di
Article Type: Research Article
Abstract: Aiming at the nonlinear filter problem in Ultra Wide Band (UWB) navigation and position, a high-order Unscented Kalman Filter (UKF) position method is proposed. On the one hand, the position and velocity are used as state variables to establish a nonlinear filtering model based on UWB position system. On the other hand, based on the fifth order cubature transform (CT), the analytical solution of the high-order unscented Kalman filter is obtained by introducing a free parameter δ . To verify the effectiveness of the proposed method, the Time of Arrival (TOA) location method, the least square method and fifth order …CKF method are introduced as comparison methods. The simulation and experimental results show that the proposed high-order UKF method has good positioning accuracy in both static and dynamic UWB positioning methods. Show more
Keywords: UWB positioning, UKF, TOA, least square method
DOI: 10.3233/JIFS-211810
Citation: Journal of Intelligent & Fuzzy Systems, vol. 42, no. 4, pp. 3639-3652, 2022
Authors: Ali, Zeeshan | Mahmood, Tahir | Ullah, Kifayat | Chinram, Ronnason
Article Type: Research Article
Abstract: The major contribution of this analysis is to analyze the confidence complex q-rung orthopair fuzzy weighted averaging (CCQROFWA) operator, confidence complex q-rung orthopair fuzzy ordered weighted averaging (CCQROFOWA) operator, confidence complex q-rung orthopair fuzzy weighted geometric (CCQROFWG) operator, and confidence complex q-rung orthopair fuzzy ordered weighted geometric (CCQROFOWG) operator and invented their feasible properties and related results. Future more, under the invented operators, we diagnosed the best crystalline solid from the family of crystalline solids with the help of the opinion of different experts in the environment of decision-making strategy. Finally, to demonstrate the feasibility and flexibility of the invented …works, we explored the sensitivity analysis and graphically shown of the initiated works. Show more
Keywords: Complex q-rung orthopair fuzzy sets, aggregation operators, confidence levels, decision-making methods
DOI: 10.3233/JIFS-211840
Citation: Journal of Intelligent & Fuzzy Systems, vol. 42, no. 4, pp. 3653-3675, 2022
Authors: Gupta, Punit | Bhagat, Sanjit | Rawat, Pradeep
Article Type: Research Article
Abstract: The evolution of cloud computing is increasing exponentially which provides everything as a service. Clouds made it possible to move a huge amount of data over the networks on-demand. It removed the physical necessity of resources as resources are available virtually over the networks. Emerge of new technologies improvising the cloud system and trying to overcome cloud computing challenges like resource optimization, securities etc. Proper utilization of resources is still a primary target for the cloud system as it will increase the cost and time efficiency. Cloud is a pay-per-uses basis model which needs to perform in a flexible manner …with the increase and decrease in demand on every level. In general, cloud is assumed to be non-faulty but faulty is a part of any system. This article focuses on the hybridization of Neural networks with the harmony Search Algorithm (HSA). The hybrid approach achieves a better optimal solution in a feasible time duration in the faulty environment to improve the task failure and improve reliability. The harmony Search approach is inspired from the music improvisation technique, where notes are adjusted until perfect harmony is matched. HS (Harmony search) is chosen, as it is capable to provide an optimal solution in a feasible time, even for complex optimization problems. An ANN-HS model is introduced to achieve optimal resource allocation. The presented model is inspired by Harmony Search and ANN. The proposed model considers multi-objective criteria. The performance criteria include execution time, task failure count and power consumption(Kwh). Show more
Keywords: Cloud infrastructure, HS (Harmony Search), metaheuristic, neural network, task scheduling
DOI: 10.3233/JIFS-211846
Citation: Journal of Intelligent & Fuzzy Systems, vol. 42, no. 4, pp. 3677-3689, 2022
Authors: Chen, Junying | Liu, Shipeng | Zhao, Liang | Chen, Dengfeng | Zhang, Weihua
Article Type: Research Article
Abstract: Since small objects occupy less pixels in the image and are difficult to recognize. Small object detection has always been a research difficulty in the field of computer vision. Aiming at the problems of low sensitivity and poor detection performance of YOLOv3 for small objects. AFYOLO, which is more sensitive to small objects detection was proposed in this paper. Firstly, the DenseNet module is introduced into the low-level layers of backbone to enhance the transmission ability of objects information. At the same time, a new mechanism combining channel attention and spatial attention is introduced to improve the feature extraction ability …of the backbone. Secondly, a new feature pyramid network (FPN) is proposed to better obtain the features of small objects. Finally, ablation studies on ImageNet classification task and MS-COCO object detection task verify the effectiveness of the proposed attention module and FPN. The results on Wider Face datasets show that the AP of the proposed method is 11.89%higher than that of YOLOv3 and 8.59%higher than that of YOLOv4. All of results show that AFYOLO has better ability for small object detection. Show more
Keywords: Small object detection, YOLOv3, DenseNet, attention mechanism, FPN
DOI: 10.3233/JIFS-211905
Citation: Journal of Intelligent & Fuzzy Systems, vol. 42, no. 4, pp. 3691-3703, 2022
Authors: Talebi, A.A. | Muhiuddin, G. | Sadati, S.H. | Rashmanlou, Hossein
Article Type: Research Article
Abstract: Fuzzy graphs have a prominent place in the mathematical modelling of the problems due to the simplicity of representing the relationships between topics. Gradually, with the development of science and in encountering with complex problems and the existence of multiple relationships between variables, the need to consider fuzzy graphs with multiple relationships was felt. With the introduction of the graph structures, there was better flexibility than the graph in dealing with problems. By combining a graph structure with a fuzzy graph, a fuzzy graph structure was introduced that increased the decision-making power of complex problems based on uncertainties. The previous …definitions restrictions in fuzzy graphs have made us present new definitions in the fuzzy graph structure. The domination of fuzzy graphs has many applications in other sciences including computer science, intelligent systems, psychology, and medical sciences. Hence, in this paper, first we study the dominating set in a fuzzy graph structure from the perspective of the domination number of its fuzzy relationships. Likewise, we determine the domination in terms of neighborhood, degree, and capacity of vertices with some examples. Finally, applications of domination are introduced in fuzzy graph structure. Show more
Keywords: Fuzzy graph structure, μi-dominating set, μi-neighborhood, full-dominating set
DOI: 10.3233/JIFS-211923
Citation: Journal of Intelligent & Fuzzy Systems, vol. 42, no. 4, pp. 3705-3718, 2022
Authors: Yang, Luting | Li, Yan
Article Type: Research Article
Abstract: Online shopping has gradually become an important way of consumption, and consumers are paying more and more attention to negative reviews. In order to avoid the massive amount of negative review information leading to loss of useful information, this paper proposes a method for evaluating the usefulness of negative online reviews. Firstly, the method constructs an evaluation index system for the usefulness of negative online reviews from three aspects: the form feature, text feature, and reviewer feature of negative reviews, and uses a combination weighting method based on fuzzy analytic hierarchy process (FAHP) and entropy method to determine the weight …of each index. Secondly, the usefulness ranking results of negative online reviews are obtained through the improved TOPSIS method based on the combined weighting method. Finally, the empirical analysis of the proposed model is carried out by crawling the negative online reviews of JD.com Fresh Food platform, and the improved model is compared with the traditional TOPSIS model, which proves the feasibility and effectiveness of the model. Show more
Keywords: Negative reviews, usefulness ranking, FAHP, entropy method, improved TOPSIS
DOI: 10.3233/JIFS-211928
Citation: Journal of Intelligent & Fuzzy Systems, vol. 42, no. 4, pp. 3719-3736, 2022
Authors: Cui, ChunSheng | Cao, YanLi
Article Type: Research Article
Abstract: In order to solve the problems of weight solving and information aggregation in the Vague multi-attribute group decision-making, this paper first solves the weight of Vague evaluation value, and then fuses the information of Vague sets through evidence theory, and obtains an information aggregation algorithm for Vague multi-attribute group decision-making. Firstly, The algorithm draws on the idea of solving the weight of evidence in the improved evidence theory algorithm, and calculates the weight of Vague evaluation value, and revises the original evaluation information after obtaining the weight of each Vague evaluation value. Secondly, this algorithm analyzes the mathematical relationship between …the Vague sets and the evidence theory, and uses the evidence theory to fuse the evaluation information to obtain the final Vague evaluation value of each alternative. Finally, this algorithm uses a score function to calculate the score of each alternative to determine the best alternative. The algorithm given in the paper enables decision-makers to make rational decisions in uncertain environments, and then select the best alternative. Show more
Keywords: Vague sets, evidence theory, multi-attribute group decision-making, score function
DOI: 10.3233/JIFS-211937
Citation: Journal of Intelligent & Fuzzy Systems, vol. 42, no. 4, pp. 3737-3747, 2022
Authors: Yang, Zuoxi | Dong, Shoubin
Article Type: Research Article
Abstract: Modeling user’s fine-grained preferences and dynamic preference evolution from their chronological behaviors are challenging and crucial for sequential recommendation. In this paper, we develop a Hierarchical Self-Attention Incorporating Knowledge Graph for Sequential Recommendation (HSRec). HSRec models not only the user’s intrinsic preferences but also the user’s external potential interests to capture the user’s fine-grained preferences. Specifically, the intrinsic interest module and potential interest module are designed to capture these two preferences respectively. In the intrinsic interest module, user’s sequential patterns are characterized from their behaviors via the self-attention mechanism. As for the potential interest module, high-order paths can be generated …with the help of the knowledge graph. Therefore, a hierarchical self-attention mechanism is designed to aggregate the semantic information of user interaction from these paths. Specifically, an entity-level self-attention mechanism is applied to capture the sequential patterns contained in the high-order paths while an interaction-level self-attention mechanism is designed to further capture the semantic information from user interactions. Moreover, according to the high-order semantic relevance, HSRec can explore the user’s dynamic preferences at each time, thus describing the user’s dynamic preference evolution. Finally, experiments conducted on three real world datasets demonstrate the state-of-the-art performance of the HSRec. Show more
Keywords: Sequential recommendation, knowledge graph, hierarchical self-attention, fine-grained preferences, dynamic preference evolution
DOI: 10.3233/JIFS-211953
Citation: Journal of Intelligent & Fuzzy Systems, vol. 42, no. 4, pp. 3749-3760, 2022
Authors: Lu, Fengli | Fu, Chengcai | Zhang, Guoying | Shi, Jie
Article Type: Research Article
Abstract: Accurate segmentation of fractures in coal rock CT images is important for the development of coalbed methane. However, due to the large variation of fracture scale and the similarity of gray values between weak fractures and the surrounding matrix, it remains a challenging task. And there is no published dataset of coal rock, which make the task even harder. In this paper, a novel adaptive multi-scale feature fusion method based on U-net (AMSFF-U-net) is proposed for fracture segmentation in coal rock CT images. Specifically, encoder and decoder path consist of residual blocks (ReBlock), respectively. The attention skip concatenation (ASC) module …is proposed to capture more representative and distinguishing features by combining the high-level and low-level features of adjacent layers. The adaptive multi-scale feature fusion (AMSFF) module is presented to adaptively fuse different scale feature maps of encoder path; it can effectively capture rich multi-scale features. In response to the lack of coal rock fractures training data, we applied a set of comprehensive data augmentation operations to increase the diversity of training samples. These extensive experiments are conducted via seven state-of-the-art methods (i.e., FCEM, U-net, Res-Unet, Unet++, MSN-Net, WRAU-Net and ours). The experiment results demonstrate that the proposed AMSFF-U-net can achieve better segmentation performance in our works, particularly for weak fractures and tiny scale fractures. Show more
Keywords: Multi-scale feature fusion, U-net, fracture segmentation in coal rock CT image, dilation convolutions, residual U-net
DOI: 10.3233/JIFS-211968
Citation: Journal of Intelligent & Fuzzy Systems, vol. 42, no. 4, pp. 3761-3774, 2022
Authors: Liu, Yicong | Chu, Junfeng | Wang, Yanyan | Wang, Yingming
Article Type: Research Article
Abstract: To obtain the suitable alternative(s) for the organization, this paper proposes a more practical method to solve the decision-making problems in society. That is combined with the TODIM (TOmada de decisão interativa multicrit e ´ rio). The maximizing dominance degree model to reach consensus is proposed with two following components: (1) constructing the complete trust relationships network; (2) the maximizing dominance degree feedback mechanism to reach group consensus. Therefore, firstly owing to the complexity of the trust relationships network, judging the direct and indirect trust propagation paths among the decision makers (DMs) to construct …the complete trust relationships network and identifying the highest value of Trust Score (TS) as the leader is possible. Then identify the inconsistent DM based on the established consensus index. During the feedback process, inconsistent DMs adopt the feedback mechanism based on the dominance degree of the leader until the group consensus is reached. Later, the corresponding ranking result is calculated by the TODIM method. Finally, a numerical example is applied to illustrate the effectiveness and feasibility of the optimal model. Show more
Keywords: Trust relationship, leader, TODIM, dominance degree, deviation degree
DOI: 10.3233/JIFS-211979
Citation: Journal of Intelligent & Fuzzy Systems, vol. 42, no. 4, pp. 3775-3788, 2022
Authors: Zhang, Huaige | Bai, Xuyang | Hong, Xianpei
Article Type: Research Article
Abstract: With the rise in the global aging population, selecting sites for nursing homes for old-age care has become critical and challenging. The site selection of a nursing home can be considered as a multicriteria decision-making. Because of the increasing complexity and uncertainty of the socioeconomic environment, standard assessments cannot handle this multicriteria decision-making. Therefore, this study provides a multi-criteria decision-making method based on Interval 2 Fuzzy Sets (IT2FS). It obtains comprehensive weights through the AHP method and the CRITIC method. Compared with the traditional TOPSIS, the improved TOPSIS method reduces the difference between the evaluation results. This method is suitable …for the site selection of nursing homes in a certain area. We use the data of nursing homes to show the application of these methods. By comparing with traditional methods, we find that the integrated approach can consider more uncertainties. Show more
Keywords: Multicriteria decision-making, nursing home, site selection, interval type-2 fuzzy sets, AHP method, improved TOPSIS method
DOI: 10.3233/JIFS-212010
Citation: Journal of Intelligent & Fuzzy Systems, vol. 42, no. 4, pp. 3789-3804, 2022
Authors: Huang, Xin | Chen, Hong-zhuan
Article Type: Research Article
Abstract: Combine complex equipment collaborative development in military-civilian integration context not only fulfils actual development requirement, but also beneficial to the national economy. Design procedure as first stage of complex equipment military-civilian collaborative development process, select suitable design supplier is significant to whole development process of complex equipment. In order to select suitable design supplier for complex equipment, two aspects done in this paper. One is comprehensive analysis of evaluated influencing factors that affect complex equipment military-civilian collaborative design process, corresponding evaluation indicator constructed and a combination of grey correlation, entropy, DEMATEL (Decision-making Trial and Evaluation Laboratory) and VIKOR analysis theory …to obtain grey entropy-DEMATEL-VIKOR, then the combined method is utilized to acquire matching attributes for followed research content. Meanwhile, satisfaction degree for matching side obtained with the help of information aggregation based on power generalized Heronian mean which on the basis of fuzzy preference information. Then, through constructed matching model, suitable design supplier obtained. Finally, a corresponding illustrative example given. Show more
Keywords: Complex equipment, military-civilian collaborative design, power generalized Heronian mean, matching model, design supplier
DOI: 10.3233/JIFS-212025
Citation: Journal of Intelligent & Fuzzy Systems, vol. 42, no. 4, pp. 3805-3825, 2022
Authors: Jiang, Bin | Wang, Xinyu | Huang, Li | Xiao, Jian
Article Type: Research Article
Abstract: Graph Convolutional Networks are able to characterize non-Euclidean spaces effectively compared with traditional Convolutional Neural Networks, which can extract the local features of the point cloud using deep neural networks, but it cannot make full use of the global features of the point cloud for semantic segmentation. To solve this problem, this paper proposes a novel network structure called DeepGCNs-Att that enables deep Graph Convolutional Network to aggregate global context features efficiently. Moreover, to speed up the computation, we add an Attention layer after the Graph Convolutional Network Backbone Block to mutually enhance the connection between the distant points of …the non-Euclidean space. Our model is tested on the standard benchmark S3DIS. By comparing with other deep Graph Convolutional Networks, our DeepGCNs-Att’s mIoU has at least two percent higher than that of all other models and even shows excellent results in space complexity and computational complexity under the same number of Graph Convolutional Network layers. Show more
Keywords: Point cloud processing, semantic segmentation, graph convolutional network, attention module, deep learning
DOI: 10.3233/JIFS-212030
Citation: Journal of Intelligent & Fuzzy Systems, vol. 42, no. 4, pp. 3827-3836, 2022
Authors: Yan, Bing | Wang, Yanjun | Xia, Wei | Hu, Xiaoxuan | Ma, Huawei | Jin, Peng
Article Type: Research Article
Abstract: Satellite emergency mission scheduling scheme group decision making (SEMSSGDM) is a key part of satellite mission scheduling research. An appropriate evaluation model can provide a dependable and sustainable improvement and guide the functioning of emergency mission scheduling. Consequently, this research is devoted to proposing a novel decision-making method that employs a novel consensus model with hesitant fuzzy 2-tuple linguistic sets (HF2TLSs) to eliminate disagreements among satellite dispatchers and reach consensus in scheme decision-making. Within the novel method, it proposes a distance measurement function based on Hausdorff distance with HF2TLS to gauge the fit and similarity across satellite dispatchers. Additionally, a …consensus reaching process (CRP) is designed to adjust the judgement of satellite dispatchers taking into account the trust degree to improve consensus. Within the selection process, a combination of the particle swarm optimization (PSO) algorithm and the MULTIplicative MOORA (MULTIMOORA) method is applied, where PSO is performed to improve the accuracy of information aggregation, and the MULTIMOORA method is used to develop the robustness of the selection results. Lastly, an applicative example validates the effectiveness of the method based on a mission scheduling intelligent decision simulation system. Show more
Keywords: Satellite emergency mission scheduling scheme group decision-making, hesitant fuzzy 2-tuple linguistic set, consensus reaching processes(CRPs), particle swarm optimization(PSO), MULTIplicative MOORA (MULTIMOORA)
DOI: 10.3233/JIFS-212034
Citation: Journal of Intelligent & Fuzzy Systems, vol. 42, no. 4, pp. 3837-3853, 2022
Authors: Khababa, Ghizlane | Seghir, Fateh | Bessou, Sadik
Article Type: Research Article
Abstract: In this paper, we introduce an extended version of artificial bee colony with a local search method (EABC) for solving the QoS uncertainty-aware web service composition (IQSC) problem, where the ambiguity of the QoS properties are represented using the interval-number model. At first, we formulate the addressed problem as an interval constrained single-objective optimization model. Then, we use the skyline operator to prune the redundant and dominated web services from their sets of functionally equivalent ones. Whereas, EABC is employed to solve the IQSC problem in a reduced search space more effectively and more efficiently. For the purpose of validation …of the performance and the efficiency of the proposed approach, we present the experimental comparisons to an existing skyline-based PSO, an efficient discrete gbest-guided artificial bee colony and a recently provided Harris Hawks optimization with an elite evolutionary strategy algorithms on an interval extended version of the public QWS dataset. Show more
Keywords: Web service composition, Quality of Service (QoS), interval number, skyline operator, artificial bee colony
DOI: 10.3233/JIFS-212045
Citation: Journal of Intelligent & Fuzzy Systems, vol. 42, no. 4, pp. 3855-3870, 2022
Authors: Nguyen, Binh | Le, Binh | Nguyen, Long H.B. | Dinh, Dien
Article Type: Research Article
Abstract: Word representation plays a vital role in most Natural Language Processing systems, especially for Neural Machine Translation. It tends to capture semantic and similarity between individual words well, but struggle to represent the meaning of phrases or multi-word expressions. In this paper, we investigate a method to generate and use phrase information in a translation model. To generate phrase representations, a Primary Phrase Capsule network is first employed, then iteratively enhancing with a Slot Attention mechanism. Experiments on the IWSLT English to Vietnamese, French, and German datasets show that our proposed method consistently outperforms the baseline Transformer, and attains competitive …results over the scaled Transformer with two times lower parameters. Show more
Keywords: Neural Machine Translation, Phrase Representation, Capsule Network
DOI: 10.3233/JIFS-212101
Citation: Journal of Intelligent & Fuzzy Systems, vol. 42, no. 4, pp. 3871-3878, 2022
Authors: Varghese, Prathibha | Arockia Selva Saroja, G.
Article Type: Research Article
Abstract: Nature-inspired computing has been a real source of motivation for the development of many meta-heuristic algorithms. The biological optic system can be patterned as a cascade of sub-filters from the photoreceptors over the ganglion cells in the fovea to some simple cells in the visual cortex. This spark has inspired many researchers to examine the biological retina in order to learn more about information processing capabilities. The photoreceptor cones and rods in the human fovea resemble hexagon more than a rectangular structure. However, the hexagonal meshes provide higher packing density, consistent neighborhood connectivity, and better angular correction compared to the …rectilinear square mesh. In this paper, a novel 2-D interpolation hexagonal lattice conversion algorithm has been proposed to develop an efficient hexagonal mesh framework for computer vision applications. The proposed algorithm comprises effective pseudo-hexagonal structures which guarantee to keep align with our human visual system. It provides the hexagonal simulated images to visually verify without using any hexagonal capture or display device. The simulation results manifest that the proposed algorithm achieves a higher Peak Signal-to-Noise Ratio of 98.45 and offers a high-resolution image with a lesser mean square error of 0.59. Show more
Keywords: Computer vision, Nature Inspired Computing, hexagonal image, color image, Human Visual System
DOI: 10.3233/JIFS-212111
Citation: Journal of Intelligent & Fuzzy Systems, vol. 42, no. 4, pp. 3879-3892, 2022
Authors: Peng, Zhenxing | He, Lina | Xie, Yushi | Song, Wenyan | Liu, Jue | Ming, Xinguo | Goh, Mark
Article Type: Research Article
Abstract: A sustainable supply chain (SSC) is vital for company’s sustainability success, so it is imperative to identify and prioritize SSC’s design requirements (DRs) for better SSC planning. For customer-centric markets, the customer requirements (CRs) need to be integrated into SSC’s DRs. This paper thus proposes a customer-centric approach based on Analytic Network Process (ANP), Quality Function Deployment (QFD), Grey Relational Analysis (GRA), and Pythagorean Fuzzy Set (PFS) to rank SSC’s DRs, considering CRs and information ambiguity. The PFS is combined with ANP, QFD, and GRA to better handle uncertainty in the SSC. The Pythagorean fuzzy ANP is applied to analyze …the correlations among the sustainable CRs and determine the corresponding weights. The sustainable CRs are transformed into the DRs using the Pythagorean fuzzy QFD. The relationships among the resulting DRs are analyzed through Pythagorean fuzzy GRA to prioritize DRs. The approach is validated through a case study. The results obtained in this paper shows that the proposed method is efficient to prioritize DRs of SSC with the consideration of sustainable CRs under uncertain environment. The novelties of proposed method are that it not only offers a customer-oriented SSC planning method through the integration of ANP, QFD and GRA, but also can reflect the uncertain information with a broader membership representation space via PFSs. Based on the proposed method, the decision-maker can conduct comprehensive analysis to prioritize DRs and design appropriate SSC to fulfill CRs under uncertain environment. Show more
Keywords: Sustainable supply chain, design requirements, analytic network process, pythagorean fuzzy set, quality function deployment, grey relational analysis
DOI: 10.3233/JIFS-212131
Citation: Journal of Intelligent & Fuzzy Systems, vol. 42, no. 4, pp. 3893-3907, 2022
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