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An automatic product recommendation system in e-commerce using Flamingo Search Optimizer and Fuzzy Temporal Multi Neural Classifier 基于Flamingo搜索优化器和模糊时态多神经分类器的电子商务产品自动推荐系统
Pub Date : 2023-08-04 DOI: 10.32629/jai.v6i2.568
B. Manikandan, P. Rama, S. Chakaravarthi
In this paper, a new automatic product recommendation system (APRS) is proposed to recommend the suitable products to the customer in e-commerce by analyzing the customers’ reviews. This recommendation system applies semantic aware data preprocessing, feature selection and extraction and classification. The initial level data preprocessing including blank space and stop word removal. Moreover, we use a Flamingo Search Optimizer (FSO) for optimizing the features that are extracted in the initial level data preprocessing. In addition, a new Fuzzy Temporal Multi Neural Classification Algorithm (FTMNCA) is proposed for performing effective classification that is helpful to make effective decision on prediction process. In addition, the proposed automatic product recommendation system recommends the suitable products to the customers according to the classification result. Finally, the proposed system is evaluated by conducting various experiments and proved as superior than the available systems in terms of prediction accuracy, precision, recall and f-measure.
本文提出了一种新的自动产品推荐系统(APRS),通过分析客户的评价,在电子商务中向客户推荐合适的产品。该推荐系统应用了语义感知数据预处理、特征选择、提取和分类。初始级数据预处理包括空格和停止字删除。此外,我们使用火烈鸟搜索优化器(FSO)来优化在初始级数据预处理中提取的特征。此外,为了进行有效的分类,提出了一种新的模糊-时间多神经分类算法(FTMNCA),有助于对预测过程做出有效的决策。此外,所提出的自动产品推荐系统根据分类结果向客户推荐合适的产品。最后,通过进行各种实验对所提出的系统进行了评估,并证明该系统在预测精度、精度、召回率和f-measure方面优于现有系统。
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引用次数: 0
Challenges and solutions of Artificial Intelligence-based fault location methods in power system lines 基于人工智能的电力系统线路故障定位方法的挑战与解决方案
Pub Date : 2023-08-04 DOI: 10.32629/jai.v6i2.642
Azad Hussein Zubair, K. Younis
The accurate and efficient location of faults in power system lines is crucial for ensuring reliable and uninterrupted power supply. In recent years, Artificial Intelligence (AI) has been increasingly used in fault location methods, promising to improve the accuracy and efficiency of fault location. However, AI-based fault location methods also face challenges such as data quality, interpretability, and model robustness. Review method: This paper presents a review of the challenges and solutions of AI-based fault location methods in power system lines. The review is based on a comprehensive analysis of existing literature and research studies, focusing on the challenges associated with AI-based fault location methods and the solutions proposed to address these challenges. Content: The paper discusses the challenges associated with AI-based fault location methods in power system lines, including data quality, interpretability, and model robustness. The review presents several solutions to address these challenges, including data preprocessing techniques to improve data quality, explainable AI methods to enhance interpretability, and robustness validation techniques to improve model robustness. The accurate and efficient location of faults in power system lines is crucial for ensuring reliable and uninterrupted power supply. AI-based fault location methods have the potential to improve the accuracy and efficiency of fault location. However, these methods also face challenges such as data quality, interpretability, and model robustness. Addressing these challenges through techniques such as data preprocessing, explainable AI, and robustness validation can help to improve the accuracy and reliability of AI-based fault location methods.
准确有效地定位电力系统线路中的故障对于确保可靠和不间断的电力供应至关重要。近年来,人工智能越来越多地应用于故障定位方法中,有望提高故障定位的准确性和效率。然而,基于人工智能的故障定位方法也面临着数据质量、可解释性和模型稳健性等挑战。综述方法:本文综述了电力系统线路中基于人工智能的故障定位方法的挑战和解决方案。该综述基于对现有文献和研究的全面分析,重点关注与基于人工智能的故障定位方法相关的挑战以及为应对这些挑战而提出的解决方案。内容:本文讨论了电力系统线路中基于人工智能的故障定位方法所面临的挑战,包括数据质量、可解释性和模型稳健性。该综述提出了解决这些挑战的几种解决方案,包括提高数据质量的数据预处理技术、提高可解释性的人工智能方法以及提高模型稳健性的稳健性验证技术。准确有效地定位电力系统线路中的故障对于确保可靠和不间断的电力供应至关重要。基于人工智能的故障定位方法有可能提高故障定位的准确性和效率。然而,这些方法也面临着数据质量、可解释性和模型稳健性等挑战。通过数据预处理、可解释人工智能和稳健性验证等技术来应对这些挑战,有助于提高基于人工智能的故障定位方法的准确性和可靠性。
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引用次数: 0
Heterogeneity issues in IoT-driven devices and services 物联网驱动的设备和服务中的异构性问题
Pub Date : 2023-08-01 DOI: 10.32629/jai.v6i2.588
S. K. Gupta, Radha Raman Chandan, Rupesh Shukla, Prabhdeep Singh, A. Pandey, Amit Kumar Jaiswal
Internet of Things (IoT), which connects billions of devices and services to the Internet, is viewed as the future industrial and intellectual revolution in technology. These connected devices are available in a variety of types. Different technologies and standards use various protocols to interact with each other. Due to these difficulties with heterogeneity, the application of IoT on a broad scale is difficult. This inspired us to identify the problems from the literature and offer solutions to solve the IoT scalability problem. This study is based on the systematic literature review (SLR) to identify the diverse problems and their solutions. We chose 81 primary sources in total. We found 14 distinct IoT heterogeneity concerns after extracting and interpreting the data. The following issues have been noted as potential obstacles: heterogeneity in data formats, heterogeneity of devices, heterogeneity in communication, and interoperability difficulty because of heterogeneity. From the perspectives of digital libraries and timeframes, the stated challenges have been addressed. Additionally, we have discovered 81 solutions in total for these problems, with at least 5 different answers for every issue. In the future, we will use a multi-criteria decision-making issue to classify the problems and evaluate the solutions.
物联网(IoT)将数十亿设备和服务连接到互联网,被视为未来的工业和知识革命。这些连接的设备有多种类型。不同的技术和标准使用各种协议来相互交互。由于这些异质性的困难,物联网的大规模应用是困难的。这启发我们从文献中找出问题,并提供解决物联网可扩展性问题的解决方案。本研究基于系统文献综述(SLR),以确定各种问题及其解决方案。我们总共选择了81个主要来源。在提取和解释数据后,我们发现了14个不同的物联网异质性问题。以下问题被认为是潜在的障碍:数据格式的异质性、设备的异质性,通信的异质性以及由于异质性而导致的互操作性困难。从数字图书馆和时间框架的角度来看,上述挑战已经得到解决。此外,我们总共发现了81个解决这些问题的方案,每个问题至少有5个不同的答案。在未来,我们将使用多准则决策问题来对问题进行分类并评估解决方案。
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引用次数: 0
A systematic review on video encryption algorithms: A future research 视频加密算法系统综述:未来研究
Pub Date : 2023-08-01 DOI: 10.32629/jai.v6i2.665
Avnish Kanungo, Ayushi Srivastava, Saniya Anklesaria, Prathamesh P. Churi
Video Encryption is widely used in many real-time applications today. Despite numerous video encryption techniques that are available today, the challenges such as time and space complexity, real time latency, scalability and vulnerability towards few attacks still exist in the research domain, however few algorithms have achieved acceptable computational complexity, but in such cases vulnerability to certain attacks (differential, statistical, plain text attack, and cipher text attacks) are still a threat to secure video transmission. To the best of our knowledge, a comprehensive but detailed systematic literature review on video encryption is needed for the researchers in the scientific community. This paper, therefore, presents a systematic literature review of 30 scientific documents extracted from platforms like scopus and web of science. The paper, comprehensively addresses, various techniques of video encryption and encoding, different evaluation parameters to testify the performance of the algorithms and discusses the challenges of the existing video encryption algorithms. After careful investigation, it has been observed the approaches which involve encryption of the video data post the same has been encoded is the most efficient and scalable approach towards video encryption. In addition, it also implies that in near future, the proposed algorithms, must be evaluated based on the various categorization of parameters illustrated in this paper.
视频加密目前广泛应用于许多实时应用中。尽管目前有许多视频加密技术可用,但研究领域仍然存在时间和空间复杂性、实时延迟、可扩展性和易受攻击性等挑战,然而很少有算法达到可接受的计算复杂性,但在这种情况下,易受某些攻击(差分攻击、统计攻击、明文攻击和密文攻击)的攻击仍然是对安全视频传输的威胁。据我们所知,科学界的研究人员需要对视频加密进行全面但详细的系统文献综述。因此,本文对从scopes和web of science等平台上提取的30篇科学文献进行了系统的文献综述。本文综合论述了视频加密和编码的各种技术,不同的评估参数来验证算法的性能,并讨论了现有视频加密算法面临的挑战。经过仔细研究,已经观察到,涉及对视频数据进行编码后的视频数据进行加密的方法是实现视频加密的最有效和可扩展的方法。此外,这也意味着在不久的将来,必须基于本文所示的各种参数分类来评估所提出的算法。
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引用次数: 0
Applications of Artificial Intelligence in the field of therapies focused on orofacial cleft repair and rehabilitation 人工智能在唇腭裂修复与康复治疗领域的应用
Pub Date : 2023-07-31 DOI: 10.32629/jai.v6i2.681
Ranjith Raveendran, Sameera G Nath, P. Suresh
Orofacial clefts are common congenital malformations with genetic and environmental risk factors. The management of cleft lip and palate spreads over the course of the child’s development into adulthood. Currently Artificial Intelligence (AI) has gained much popularity in the dental field. AI is of much help in the multidisciplinary management of cleft lip and cleft palate repair starting right from the prenatal period itself. This review focuses on the available documentation in the literature that has thrown light on the recent applications of AI in cleft lip and palate cases.
口面裂是一种常见的先天性畸形,具有遗传和环境危险因素。唇腭裂的治疗贯穿于孩子成长到成年的整个过程。目前,人工智能(AI)在牙科领域得到了广泛的应用。人工智能在唇腭裂修复的多学科管理中有很大的帮助,从产前开始。这篇综述着重于文献中现有的文献,这些文献揭示了人工智能在唇腭裂病例中的最新应用。
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引用次数: 0
Hybrid Chaos Particle Swarm Optimization algorithm for smart Cloud Service System based on optimization resource scheduling and allocation 基于优化资源调度和分配的智能云服务系统混合混沌粒子群优化算法
Pub Date : 2023-07-31 DOI: 10.32629/jai.v6i2.652
V. P. Gil Jiménez, A. Al-Jumaily, A. Sali, D. Al-Jumeily
To enhance the smart Cloud Service System for diverse user requirements in 5G and other service networks, this study leverages resource utilization and multi-tenancy network slicing operation costs. Specifically, we propose a multi-tenancy network resource allocation strategy based on the Chaos Particle Swarm Optimization (CPSO) algorithm. In a multi-tenancy network (MTN), we lease the wireless spectrum resources of the infrastructure provider’s base station, construct access service slices as network slice services, and offer network access services to users. Introduce detailed formulation of the relationship between MTN and users, represented as a multi-master and multi-slave construct that defines the strategy space and profit function after MTN decision-making. Reverse induction is used to analyze the proposed model, and a distributed iterative algorithm is proposed to obtain the optimal throughput demand of users and the optimal slice cost of MTN. Simulation results demonstrate that the proposed strategy can effectively enhance resource utilization and user satisfaction while reducing energy consumption.
为了增强智能云服务系统,满足5G和其他服务网络中不同用户的需求,本研究利用了资源利用率和多租户网络切片运营成本。具体来说,我们提出了一种基于混沌粒子群优化(CPSO)算法的多租户网络资源分配策略。在多租户网络(MTN)中,我们租用基础设施提供商基站的无线频谱资源,将接入服务切片构建为网络切片服务,并向用户提供网络接入服务。详细阐述了MTN与用户之间的关系,表示为一个多主多从结构,定义了MTN决策后的战略空间和利润函数。利用反向归纳法对所提出的模型进行了分析,并提出了一种分布式迭代算法来获得用户的最优吞吐量需求和MTN的最优切片成本。仿真结果表明,该策略可以在降低能耗的同时,有效地提高资源利用率和用户满意度。
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引用次数: 0
Predication of smart building energy consumption based on deep learning algorithm 基于深度学习算法的智能建筑能耗预测
Pub Date : 2023-07-31 DOI: 10.32629/jai.v6i2.691
Suqi Wang, E. Zawawi, Qi Jie Kwong, Rui Wang, Junya Deng
Since smart cities have received extensive attention in recent years, and there is no more research data on energy consumption in smart cities. In order to improve the energy consumption prediction accuracy of intelligent buildings, a building energy consumption prediction method based on deep learning algorithm is proposed. By predicting the power consumption, we can analyze whether the energy consumption of the building is reasonable, so as to make further management actions. First of all, the specifies the overall data processing system by using the method of cloud computing, and the overall data is stored and calculated by means of cloud computing. In order to verify the effectiveness of the algorithm in this paper, the algorithm in this paper is applied to commercial buildings, and the data is compared with other algorithms. The results show that, whether compared with the data regression model or with other learning methods, the algorithm in this paper has obvious advantages in prediction accuracy and stability, and can be used to predict the energy consumption of buildings.
由于智能城市近年来受到广泛关注,目前还没有更多关于智能城市能耗的研究数据。为了提高智能建筑能耗预测的准确性,提出了一种基于深度学习算法的建筑能耗预测方法。通过预测能耗,我们可以分析建筑的能耗是否合理,从而做出进一步的管理行动。首先,使用云计算的方法指定了整个数据处理系统,并通过云计算的方式存储和计算整个数据。为了验证本文算法的有效性,将本文算法应用于商业建筑,并与其他算法进行了数据比较。结果表明,无论是与数据回归模型还是与其他学习方法相比,本文的算法在预测精度和稳定性方面都具有明显的优势,可以用于建筑能耗的预测。
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引用次数: 0
Contactless methods to acquire heart and respiratory signals—A review 非接触式获取心脏和呼吸信号的方法综述
Pub Date : 2023-07-28 DOI: 10.32629/jai.v6i1.715
Pushparaj Pal, Amod Kumar, G. Saini
The vital sign is the most important parameter for the internal health status of any subject in time. Every person is witnessed of COVID-19 global pandemic viruses. The world population has faced this problem globally. Collecting the infected person’s sample data in a contact-based approach may lead to the spreading of the disease. On the other hand, if we use a non-contact-based approach for the collection, it is somehow far better and breaks the chain of virus spreading. This radar-based technique is preferred in non-contact vital sign detection so that any person gets to their health status prior and according to that doctor can diagnose the proper treatment. The radar-based signal is targeted to the subject’s chest. Due to the chest wall displacement main vital sign parameters of the heart and respiration of the individual’s health are being captured. These captured signals are called vital signs, with this it is very helpful that the pre-diagnosis and treatment can be recommended by doctors or health service providers. Some patients due to their movement may be older or children for a long-time use skin irritation or allergy type of problems may face. On the other hand, some patients may be COVID-19 infected disease and burn patients. Hence, it is not possible to connect as both cases are unexpected for the required purpose. For constant and continuous measurement, existing contact-based methods are not fruitful hence non-contact-based approach is adopted. Non-contact-based vital sign detection is preferably due to several problems occurring. This paper presents a state-of-the-art review of recent monitoring methods and techniques for health monitoring in medical fields of operations. These methods and techniques are used as a tool to acquire, visualize and analyze the sampled data collected in any environment either indoor or outdoor.
生命体征是及时反映受试者内部健康状况的最重要参数。每个人都见证了新冠肺炎全球大流行病毒。世界人口在全球范围内都面临着这个问题。以接触为基础的方法收集感染者的样本数据可能会导致疾病的传播。另一方面,如果我们使用非接触式的收集方法,它在某种程度上要好得多,并打破了病毒传播链。这种基于雷达的技术在非接触式生命体征检测中是首选,这样任何人都可以提前了解自己的健康状况,并根据医生的判断诊断出正确的治疗方法。基于雷达的信号以受试者的胸部为目标。由于胸壁位移,正在捕捉心脏的主要生命体征参数和个体健康的呼吸。这些捕捉到的信号被称为生命体征,因此,医生或卫生服务提供者可以推荐预诊断和治疗非常有帮助。一些患者由于运动可能是老年人或儿童长期使用,可能会面临皮肤刺激或过敏类型的问题。另一方面,一些患者可能是新冠肺炎感染的疾病和烧伤患者。因此,不可能连接,因为这两种情况对于所需的目的来说都是出乎意料的。对于恒定和连续的测量,现有的基于接触的方法并不富有成效,因此采用了非接触的方法。基于非接触的生命体征检测优选是由于出现了几个问题。本文综述了近年来医疗手术领域健康监测的监测方法和技术。这些方法和技术被用作获取、可视化和分析在室内或室外任何环境中收集的采样数据的工具。
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引用次数: 1
Artificial neural networks algorithms for prediction of human hair loss related autoimmune disorder problem 人工神经网络算法预测人类脱发相关的自身免疫性疾病问题
Pub Date : 2023-07-28 DOI: 10.32629/jai.v6i2.606
Shabnam Sayyad, Farook Sayyad
In this study, artificial neural networks (ANNs) are being used to diagnose hair loss in patients. An autoimmune condition known as Alopecia Areata (AA) results in hair loss in the affected area. The most recent figures from throughout the world show that AA affects 1 in 1000 persons and has a 2% incidence rate. Based on the look of photographs with healthy hair in the dataset, machine learning techniques were employed to classify the conditions. Before making predictions, each of these ANNs algorithms creates a prediction model using pictures of healthy hair. The aim of this study is to evaluate the accuracy of neural networks for alopecia detection in human subjects. The study presents a classification framework for distinguishing between healthy hairs (HHs) and Alopecia Areata (AA). The framework incorporates Contrast Limited Adaptive Histogram Equalization (CLAHE) enhancement and segmentation techniques to enhance the quality of the images. Additionally, Data Augmentation (DA) is employed to generate additional data and improve the precision of the proposed framework. To extract features from the images, two powerful techniques are utilized. The Visual Geometry Group (VGG), which consists of very deep convolutional networks designed for large-scale image recognition, is employed. VGG networks have proven to be effective in learning complex features directly from data, eliminating the need for manual feature extraction. Additionally, a Convolutional Neural Network (CNN), a deep learning network architecture specifically designed for image processing tasks, is employed. To create a machine learning model for classification, the Support Vector Machine (SVM) approach is utilized. SVM is a widely used algorithm in supervised learning, capable of solving both classification and regression problems. Its versatility and effectiveness make it a suitable choice for the classification task in this study. By combining the CLAHE enhancement, segmentation, data augmentation, feature extraction using VGG and CNN, and classification using SVM, the proposed framework aims to accurately classify HHs and AA cases.
在这项研究中,人工神经网络被用于诊断患者的脱发。一种被称为斑秃(AA)的自身免疫性疾病会导致患处脱发。来自世界各地的最新数据显示,每1000人中就有1人患有AA,发病率为2%。根据数据集中健康头发的照片外观,采用机器学习技术对条件进行分类。在进行预测之前,每个Ann算法都会使用健康头发的图片创建一个预测模型。本研究的目的是评估神经网络在人类受试者脱发检测中的准确性。该研究提出了一个区分健康头发(HHs)和斑秃(AA)的分类框架。该框架结合了对比度有限自适应直方图均衡(CLAHE)增强和分割技术,以提高图像的质量。此外,数据增强(DA)被用于生成额外的数据并提高所提出的框架的精度。为了从图像中提取特征,使用了两种强大的技术。视觉几何组(VGG)由设计用于大规模图像识别的非常深的卷积网络组成。VGG网络已被证明在直接从数据中学习复杂特征方面是有效的,无需手动提取特征。此外,还采用了卷积神经网络(CNN),这是一种专门为图像处理任务设计的深度学习网络架构。为了创建用于分类的机器学习模型,使用了支持向量机(SVM)方法。SVM是一种在监督学习中广泛使用的算法,能够同时解决分类和回归问题。它的通用性和有效性使其成为本研究分类任务的合适选择。通过结合CLAHE增强、分割、数据增强、使用VGG和CNN的特征提取以及使用SVM的分类,该框架旨在准确地对HHs和AA病例进行分类。
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引用次数: 0
Multidisciplinary research approach in advancement of science & technology 采用多学科研究方法促进科技进步
Pub Date : 2023-07-27 DOI: 10.32629/jai.v6i2.742
Pushparaj Pal, Amod Kumar, G. Saini

N/A

N/A
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引用次数: 0
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