Showing total 1,429 results

1. Lightweight fine-grained classification for scientific paper.

Author

Yue, Tan, He, Zihang, Li, Chang, Hu, Zonghai, and Li, Yong

Subjects

*CLASSIFICATION, *SCIENTIFIC models

Abstract

The number of scientific papers has been increasing ever more rapidly. Researchers have to spend a lot of time classifying papers relevant to their study, especially into fine-grained subfields. However, almost all existing paper classification models are coarse-grained, which can not meet the needs of researchers. Observing this, we propose a lightweight fine-grained classification model for scientific paper. Dynamic weighting coefficients on feature words are incorporated into the model to improve the classification accuracy. The feature word weight is optimized by the Mean Decrease Accuracy (MDA) algorithm. Considering applicability, the lightweight processing is conducted through algorithm pruning and training sample pruning. Comparison with mainstream models shows simultaneous improvement in accuracy and time efficiency by our model. [ABSTRACT FROM AUTHOR]

Published

2022

2. An intelligent system for paper currency recognition with robust features

Author

Muhammad Sarfraz, Allah Bux Sargano, and Nuhman ul Haq

Subjects

Statistics and Probability, Artificial neural network, Computer science, business.industry, Feature extraction, General Engineering, Intelligent decision support system, Machine learning, computer.software_genre, Backpropagation, Artificial Intelligence, Order (exchange), Currency, Artificial intelligence, Data mining, business, computer

Abstract

Intelligent systems on Paper currency recognition and verification are inevitable for modern banking services. These systems are used in Auto-seller machines, vending machines etc. Extracting sufficient and reliable monetary characteristics are essential for accuracy and performance of such systems. This paper proposes a new intelligent system for paper currency recognition. Pakistani paper currency has been considered, as a case study, for intelligent recognition. This paper identifies, introduces, and extracts robust features from Pakistani banknotes. After extracting these features, the paper proposes to use three layers feed-forward Backpropagation Neural Network (BPN) for intelligent classification. The proposed technique and system are simple and comparatively less time consuming which makes it suitable for real-time applications. In order to evaluate the performance of the proposed technique, experiments have been conducted on 175 Pakistani banknotes. The results indicate that system has 100% recognition ability on properly captured images.

Published

2014

3. Research on the improvement of teachers' teaching ability based on machine learning and digital twin technology.

Author

Siyan, Chen, Tinghuai, Wang, Xiaomei, Li, Liu, Zhu, Danying, Wu, Paul, Anand, Cheung, Simon K.S., Ho, Chiung Ching, and Din, Sadia

Subjects

TEACHER development, MACHINE learning, RANDOM forest algorithms, ELECTRONIC paper, DATA scrubbing

Abstract

The qualitative analysis results of teachers' abilities are difficult to quantify, and ability problems in the teaching process are difficult to be effectively measured. In order to study methods to improve teachers' teaching abilities, this paper builds a corresponding teacher competence evaluation model based on machine learning and digital twin technology, establishes a data collection model for teachers' professional competence, and establishes a data fusion model. It includes data cleaning model based on XML information template, data integration model, multi-index screening mechanism and clustering strategy based on perturbation attributes. On this basis, this paper uses decision tree algorithm, random forest algorithm and neural network algorithm to construct three scheduling rule mining models aiming at teachers' professional ability. In addition, this paper establishes a digital twin-driven multi-knowledge model scheduling optimization architecture that uses the three scheduling rules mined. The research results show that the model constructed in this paper has good performance. [ABSTRACT FROM AUTHOR]

Published

2021

4. Power transformers fault diagnosis based on a meta-learning approach to kernel extreme learning machine with opposition-based learning sparrow search algorithm.

Author

Song Yu, Weimin Tan, Chengming Zhang, Chao Tang, Lihong Cai, and Dong Hu

Subjects

FAULT diagnosis, SEARCH algorithms, POWER transformers, MACHINE learning, OPTIMIZATION algorithms, METAHEURISTIC algorithms, GLOBAL optimization, KERNEL operating systems

Abstract

Considering the power transformers fault diagnosis model has unstable performance and prone to over-fitting, we propose a transformers fault diagnosis model based on a meta-learning approach to kernel extreme learning machine with opposition-based learning sparrow search algorithm optimization (Meta-OSSA-KELM) in this paper. Its learning proceeds in two steps. Firstly, the base-learner KELMs is trained on the disjoint training subset. Then, meta-learner KELM is trained with the hidden codes of training set in base-learner KELMs that have been trained. In this paper, chaotic mapping and opposition-based learning are integrated into Sparrow search algorithm(SSA) and used it to optimize each learner. We simulate this model with measured dissolved gas analysis(DGA) data, the results show that compared with PSO and SSA, opposition-based learning sparrow search algorithm(OSSA) has better global search-ability on the optimization for the proposed model. In addition, compared with Adaboost.M1, BPNN, SVM and KELM, Meta-OSSA-KELM has a higher average accuracy (90.9% vs 78.5%, 74.0%, 76.9%, 76.9%) and a lower standard deviation (1.56x10-2 vs 4.21x10-2, 10.5x10-2, 3.7x10-2, 2.18x10-2) in simulation tests for 30 times. It is shown that the proposed model is a stable and better performance transformers fault diagnosis method. [ABSTRACT FROM AUTHOR]

Published

2023

5. A boundary optimization model of instance segmentation combined with wavelet transform on Buildings.

Author

Shi, Chenchen, Zhang, Changlun, Deng, Lulu, He, Qiang, Wang, Hengyou, and Huo, Lianzhi

Subjects

WAVELET transforms, DISCRETE wavelet transforms, OPTIMIZATION algorithms, MACHINE learning, DRONE aircraft, DEEP learning, REMOTE sensing

Abstract

Data driven deep learning methods have become the mainstream method of building extraction from remote sensing images. In this paper, deep learning algorithm is used to classify and extract buildings from remote sensing images of rural areas around the Great Wall in the suburbs of Beijing captured by unmanned aerial vehicles. Aiming at the shortcomings of the current mainstream instance segmentation algorithm Mask R-CNN in feature fusion and poor prediction of instance mask boundaries, this paper proposes a boundary optimization algorithm for building instance segmentation based on discrete wavelet transform. Firstly, the discrete wavelet transform is introduced into the segmentation task branch of Mask R-CNN algorithm to extract the low-frequency and high-frequency information of the real mask, in which the high-frequency information includes the boundary information. Secondly, the pixel by pixel prediction of the mask turns into the learning of the low-frequency and high-frequency information of the real mask. The learning of the high-frequency information helps the segmentation network to learn the boundary features better. Finally, using the reversibility of discrete wavelet transform, the low-frequency and high-frequency information of the learned mask is inversely transformed to reconstruct the final mask. The improved algorithm is evaluated on the dataset COCO, and applied to the automatic extraction of buildings. The DWT Mask R-CNN algorithm model achieved 70.2% segmentation accuracy and 71.4% detection accuracy, which were improved by 1% and 0.7% respectively compared with the Mask R-CNN and Cascade Mask R-CNN models. The experimental results show that the instance segmentation edge optimization algorithm combined with wavelet transform has achieved better results on the segmentation boundary, improved the poor effect of mask edge detection and achieved higher detection accuracy, and can accurately extract village buildings. [ABSTRACT FROM AUTHOR]

Published

2023

6. Analysis of developments and hotspots of international research on sports AI.

Author

Li, Jian, Li, Meiyue, and Lin, Hao

Subjects

DEEP learning, ARTIFICIAL neural networks, ARTIFICIAL intelligence, SPORTS sciences, WEARABLE technology, MACHINE learning

Abstract

In this paper, 1,538 papers retrieved with the keywords "sports artificial intelligence (AI)" on the Web of Science database since 2007 were taken as the data source, and the Cite Space V software was used to visualize and analyze them. A visual knowledge graph was used to streamline the countries, institutions and authors conducting sports AI research, discipline distribution, research hotspots and development trends in the past 15 years. Subsequently, its development direction and research progress were discussed. Sports AI was widely distributed, with the US, China and the UK leading the way. The most prolific authors and teams in research on sports AI were concentrated in American universities. Their main research direction is to develop and improve smart wearable devices based on machine learning and deep learning technologies for different groups of people. Research on sports AI involved multiple disciplines, which mainly applied and referred to research methodologies and theories on engineering, computer science and sports science. It could be seen from the frequency and centrality of keywords that in the current field of sports AI, machine learning is the main direction, artificial neural networks is the main algorithm, and practical and empirical research based on data mining is the focus. The research hotspots were divided into three major clusters: physical health promotion, sports injury prevention and control, and athletic performance enhancement. How to introduce intelligent technology into sports for a perfect integration still has an arduous and long way to go. Future development requires joint efforts and participation of scientific researchers, professionals and common people. [ABSTRACT FROM AUTHOR]

Published

2022

7. Editorial.

Author

Patnaik, Srikanta

Subjects

MACHINE learning, SOFT computing, STOCK exchanges, REGRESSION analysis, INFORMATION retrieval

Published

2018

8. Better health – A comprehensive and profound research about physical strength consumption estimation methods using machine learning.

Author

Lang, Liping, Thuente, David, and Ma, Xiao

Subjects

CONVOLUTIONAL neural networks, PATTERN recognition systems, PHYSICAL activity, MACHINE learning, ENGINEERING models, ANKLE, HIP joint, MEASUREMENT errors

Abstract

In order to better evaluate and promote human health, this paper analyzes the influence of different inertial-measurement-unit signals, different sensor locations, different activity intensities and different signal fusion schemes on the accuracy of physical strength consumption estimation during walking and running activities. Different pattern recognition methods, such as the Counts-based linear regression model, the typical non-linear model based on decision tree and artificial neural network, and the end-to-end convolutional neural network model, are analyzed and compared. Our findings are as follows: 1) For the locations of sensors during walking and running activities, the physical strength consumption prediction accuracy at the ankle location is higher than that at the hip location. Therefore, wearing an inertial-measurement-unit at the ankle can improve the accuracy of the model. 2) Regarding the types of activity signals during walking and running activities, the impact of accelerometer signals on hip and ankle prediction accuracy is not significantly different, while the gyroscope model is more sensitive to the location, with higher prediction accuracy at the ankle than at the hip. In addition, the physical strength consumption prediction accuracy of accelerometer signals is higher than that of gyroscope signals, and fusion of accelerometer and gyroscope signals can improve the accuracy of physical strength consumption prediction. 3) For different data analysis models during walking and running activities, the artificial neural network model that integrates different sensor locations and inertial-measurement-unit signals with different activity intensities has the lowest mean squared error for the measurement of physical strength consumption. The non-linear models based on decision tree and artificial neural network have better physical strength consumption prediction capabilities than the Counts-based linear regression model, especially for high-intensity activity energy consumption prediction. In addition, feature engineering models are generally better than convolutional neural network model in terms of overall performance and prediction results under the three different activity intensities. Furthermore, as the activity intensity increases, the performance of all physical strength consumption calculation models decreases. We recommend using the artificial neural network model based on multi-signal fusion to estimate physical strength consumption during walking and running activities because this model exhibits strong generalization ability in cross-validation and test results, and its stability under different activity intensities is better than that of the other three models. To the best of our knowledge, this paper is the first to delve deeply and in detail into methods for estimating physical strength consumption. Undoubtedly, our paper will have an impact on research related to topics such as intelligent wearable devices and subsequent methods for estimating physical strength consumption, which are directly related to physical health. [ABSTRACT FROM AUTHOR]

Published

2023

9. Applied machine learning and management of volatility, uncertainty, complexity & ambiguity (V.U.C.A).

Author

Patnaik, Srikanta

Subjects

DEEP learning, ORGANIZATIONAL learning, MACHINE learning, FUZZY algorithms, CONVOLUTIONAL neural networks, SYSTEMS theory, RANDOM forest algorithms

Published

2020

10. Comprehensive review of computational intelligence based smart city community.

Author

Rath, Adyasha, Patnaik, Srikanta, and Panda, Ganapati

Subjects

SMART cities, COMPUTATIONAL intelligence, DECISION support systems, CITY dwellers, COMMUNITIES, POPULATION density

Abstract

The density of population in cities is growing at a faster rate to make the life of people in cities comfortable and save. The city needs to be smart. It can be mainly achieved by intelligent decision making process using computational intelligence based systems. Keeping this in view, many researchers and organizations are working to develop and implement computational intelligence decision support systems. To obtain a comprehensive overview on the current status on SI based smart city community the present investigation has been made. To achieve this objective recently published standard articles on this important sub area have been collected and reviewed. The summary of the review has been presented in systematic manner to facilitate the researchers who are currently working in the area of smart city community. The important findings of the review have been made and presented. The important performance measures in various aspects of smart city obtained by the computational intelligence methods have been listed. It is expected that the findings and the contribution of the paper will benefit the researchers, the related government and private organizations in terms of furthering their research efforts and producing different smart products pertaining to community development and improvement of comfort level of the dwellers of the smart city. [ABSTRACT FROM AUTHOR]

Published

2021

11. Research on behavior recognition based on feature fusion of automatic coder and recurrent neural network.

Author

Zheng, Bing, Yun, Dawei, Liang, Yan, and Li, Xiaolong

Subjects

BEHAVIORAL research, HUMAN activity recognition, RECURRENT neural networks, HUMAN behavior, LONG-term memory, RANDOM forest algorithms, MACHINE learning

Abstract

Under the impact of COVID-19, research on behavior recognition are highly needed. In this paper, we combine the algorithm of self-adaptive coder and recurrent neural network to realize the research of behavior pattern recognition. At present, most of the research of human behavior recognition is focused on the video data, which is based on the video number. At the same time, due to the complexity of video image data, it is easy to violate personal privacy. With the rapid development of Internet of things technology, it has attracted the attention of a large number of experts and scholars. Researchers have tried to use many machine learning methods, such as random forest, support vector machine and other shallow learning methods, which perform well in the laboratory environment, but there is still a long way to go from practical application. In this paper, a recursive neural network algorithm based on long and short term memory (LSTM) is proposed to realize the recognition of behavior patterns, so as to improve the accuracy of human activity behavior recognition. [ABSTRACT FROM AUTHOR]

Published

2020

12. A hybrid model for text classification using part-of-speech features.

Author

Zou, Wang, Zhang, Wubo, Tian, Zhuofeng, and Wu, Wenhuan

Subjects

ARTIFICIAL neural networks, MACHINE learning, FEATURE extraction

Abstract

In the field of text classification, current research ignores the role of part-of-speech features, and the multi-channel model that can learn richer text information compared to a single model. Moreover, the method based on neural network models to achieve final classification, using fully connected layer and Softmax layer can be further improved and optimized. This paper proposes a hybrid model for text classification using part-of-speech features, namely PAGNN-Stacking1. In the text representation stage of the model, introducing part-of-speech features facilitates a more accurate representation of text information. In the feature extraction stage of the model, using the multi-channel attention gated neural network model can fully learn the text information. In the text final classification stage of the model, this paper innovatively adopts Stacking algorithm to improve the fully connected layer and Softmax layer, which fuses five machine learning algorithms as base classifier and uses fully connected layer Softmax layer as meta classifier. The experiments on the IMDB, SST-2, and AG_News datasets show that the accuracy of the PAGNN-Stacking model is significantly improved compared to the benchmark models. [ABSTRACT FROM AUTHOR]

Published

2023

13. A real-time e-commerce accessories recommender system by coupling deep learning and histogram features.

Author

Bhuvanya, R. and Kavitha, M.

Subjects

DEEP learning, RECOMMENDER systems, RECURRENT neural networks, MACHINE learning, HISTOGRAMS, RANDOM forest algorithms

Abstract

Online shopping is a form of electronic commerce that enables customers to purchase products directly from the seller over the internet using a web browser or a mobile application. With the growing number of research papers on Deep Learning (DL)-based recommendations, DL models have proven to be effective in Recommender systems. Hence in this paper, relevant product accessories recommendation is proposed using deep learning and histogram features. The proposed recommendation describes the novel way of content-based filtering which divides the work into two phases. In phase 1, the implemented approach determines the color and category of the product. In phase 2, the recommendation system retrieves the matching accessories for the chosen product. For phase 1, Decision Tree, Linear Regression, Logistic Regression, Naïve Bayes, Long Short-Term Memory (LSTM), and a novel method of Stack dense Recurrent Neural Network (RNN) along with the color histogram is applied to identify the category and color of the product. It is justified that the proposed technique of stack dense RNN achieves 98% accuracy. In phase 2, from the Machine Learning (ML) perspective, Random Forest (RF) is employed for the recommendation. The RF model finds the matching accessories for the chosen product and retrieves the top relevant items. [ABSTRACT FROM AUTHOR]

Published

2023

14. Interpretable web service recommendation based on disentangled representation learning.

Author

Huang, Ying, Cao, Zhiying, Chen, Siyuan, Zhang, Xiuguo, Wang, Peipeng, and Cao, Qilei

Subjects

MACHINE learning, CONVOLUTIONAL neural networks, LANGUAGE models, WEB services, ROUTING algorithms

Abstract

Most existing Web service recommendation models based on machine learning do not fully consider the high-order features interaction between users and services and with poor interpretability. In this paper, an Interpretable Web Service Recommendation model based on Disentangled Representation Learning (WSR-DRL) is proposed. First of all, to make full use of the service description information to improve the accuracy of Web service recommendation, the features representation of service name is obtained by using BERT model, and the local and global features representation of service description information is further obtained by combining 2-D CNN and Bi-LSTM. Then the disentangled convolution neural network is used to generate the high-order interaction features between users and services, and the neighborhood routing algorithm is used to mine the latent factors in these features. That improves the accuracy of Web service recommendation and make it interpretable. Finally, in order to verify the effectiveness of the model, several groups of experiments are carried out on real data sets. The experimental results show that compared with latest models such as DMF, DeepFM, DKN, GCMC, NDCG model and WSR-MGAT model, the WSR-DRL model proposed in this paper shows better performance on Precision@10, Recall@10, F1@10 and NDCG@10 evaluation metrics. [ABSTRACT FROM AUTHOR]

Published

2023

15. Multichannel cross-fusional convolutional neural networks.

Author

Shan, Chuanhui, Ou, Jun, and Chen, Xiumei

Subjects

DEEP learning, CONVOLUTIONAL neural networks, MACHINE learning, ARTIFICIAL intelligence, REMOTE-sensing images, REMOTE sensing

Abstract

As one of the main methods of information fusion, artificial intelligence class fusion algorithm not only inherits the powerful skills of artificial intelligence, but also inherits many advantages of information fusion. Similarly, as an important sub-field of artificial intelligence class fusion algorithm, deep learning class fusion algorithm also inherits advantages of deep learning and information fusion. Hence, deep learning fusion algorithm has become one of the research hotspots of many scholars. To solve the problem that the existing neural networks are input into multiple channels as a whole and cannot fully learn information of multichannel images, Shan et al. proposed multichannel concat-fusional convolutional neural networks. To mine more multichannel images' information and further explore the performance of different fusion types, the paper proposes new fusional neural networks called multichannel cross-fusion convolutional neural networks (McCfCNNs) with fusion types of "R+G+B/R+G+B/R+G+B" and "R+G/G+B/B+R" based on the tremendous strengths of information fusion. Experiments show that McCfCNNs obtain 0.07-6.09% relative performance improvement in comparison with their corresponding non-fusion convolutional neural networks (CNNs) on diverse datasets (such as CIFAR100, SVHN, CALTECH256, and IMAGENET) under a certain computational complexity. Hence, McCfCNNs with fusion types of "R+G+B/R+G+B/R+G+B" and "R+G/G+B/B+R" can learn more fully multichannel images' information, which provide a method and idea for processing multichannel information fusion, for example, remote sensing satellite images. [ABSTRACT FROM AUTHOR]

Published

2023

16. The research of clinical temporal knowledge graph based on deep learning.

Author

Diao, Lijuan, Yang, Wei, Zhu, Penghua, Cao, Gaofang, Song, Shoujun, and Kong, Yang

Subjects

KNOWLEDGE graphs, DEEP learning, MEDICAL research, KNOWLEDGE base, MACHINE learning, SEQUENTIAL learning

Abstract

Temporal knowledge base exists on various fields. Take medical medicine field as example, diabetes is a typical chronic disease which evolves slowly. This paper starts from actual EMR data of hospitals by combination of experience and knowledge of clinical doctors. Link prediction on clinical knowledge base such as diabetic complication requires the analysis on temporal characteristic of temporal knowledge base, which is a great challenge for traditional link prediction models. This paper proposes temporal knowledge graph link prediction model based on deep learning. This model selects the TransR transformation model suitable for big data and makes entity projection in relation space containing different semantic meanings, so as to vector the entities and complex semantic relations in graph. Then it adopts LSTM recursive neural network and adds the top-bottom relational information of the graph for sequential learning. Finally it constantly carries out deep learning through incremental calculation and LSTM recursive network to improve the accuracy of prediction. The incremental LSTM model highlights the hidden semantic and clinical temporal information and effectively utilizes sequential learning to mining forward-backward dependent information. It compensates the deficiency of lower prediction accuracy on timely knowledge graph caused by the traditional link prediction models. Finally, it is proved that the new model has better performance over temporal knowledge graph link prediction. [ABSTRACT FROM AUTHOR]

Published

2021

17. Exploring measure of uncertainty via a discernibility relation for partially labeled real-valued data.

Author

Zhang, Baishun and Su, Xue

Subjects

ENTROPY (Information theory), INFORMATION storage & retrieval systems, MACHINE learning

Abstract

In practical applications of machine learning, only part of data is labeled because the cost of assessing class label is relatively high. Measure of uncertainty is abbreviated as MU. This paper explores MU for partially labeled real-valued data via a discernibility relation. First, a decision information system with partially labeled real-valued data (p-RVDIS) is separated into two decision information systems: one is the decision information system with labeled real-valued data (l-RVDIS) and the other is the decision information system with unlabeled real-valued data (u-RVDIS). Then, based on a discernibility relation, dependence function, conditional information entropy and conditional information amount, four degrees of importance on an attribute subset in a p-RVDIS are defined. They are calculated by taking the weighted sum of l-RVDIS and u-RVDIS based on the missing rate, which can be considered as four MUs for a p-RVDIS. Combining l-RVDIS and u-RVDIS provides a more accurate assessment of the importance and classification ability of attribute subsets in a p-RVDIS. This is precisely the novelty of this paper. Finally, experimental analysis on several datasets verify the effectiveness of these MUs. These findings will contribute to the comprehension of the essence of the uncertainty in a p-RVDIS. [ABSTRACT FROM AUTHOR]

Published

2024

18. Bayesian network structure learning based on HC-PSO algorithm.

Author

Gao, Wenlong, Zhi, Minqian, Ke, Yongsong, Wang, Xiaolong, Zhuo, Yun, Liu, Anping, and Yang, Yi

Subjects

BAYESIAN analysis, PARTICLE swarm optimization, MACHINE learning, HAMMING distance, ALGORITHMS, HEURISTIC algorithms, FUZZY graphs, GENETIC algorithms

Abstract

Structure learning is the core of graph model Bayesian Network learning, and the current mainstream single search algorithm has problems such as poor learning effect, fuzzy initial network, and easy falling into local optimum. In this paper, we propose a heuristic learning algorithm HC-PSO combining the HC (Hill Climbing) algorithm and PSO (Particle Swarm Optimization) algorithm, which firstly uses HC algorithm to search for locally optimal network structures, takes these networks as the initial networks, then introduces mutation operator and crossover operator, and uses PSO algorithm for global search. Meanwhile, we use the DE (Differential Evolution) strategy to select the mutation operator and crossover operator. Finally, experiments are conducted in four different datasets to calculate BIC (Bayesian Information Criterion) and HD (Hamming Distance), and comparative analysis is made with other algorithms, the structure shows that the HC-PSO algorithm is superior in feasibility and accuracy. [ABSTRACT FROM AUTHOR]

Published

2024

19. Z-number based fuzzy neural network for system identification.

Author

Abiyev, Rahib H., Aliev, Rafik, and Kaynak, Okyay

Subjects

FUZZY neural networks, SYSTEM identification, MACHINE learning, APPROXIMATE reasoning, FUZZY integrals, NONLINEAR systems

Abstract

In this paper, a novel Z-number based Fuzzy Neural Network (Z-FNN) based on the integration of Z-valued fuzzy logic and neural networks is proposed. Z-valued fuzzy rule base is presented and its inference process is described using interpolative approximate reasoning. Accordingly, the structure of the Z-FNN is proposed using a distance measure and interpolative approximate reasoning scheme. Based on presented architecture the learning algorithm of Z-FNN is designed. The updating of the unknown parameters of the network is carried out using Genetic Algorithms (GA). The proposed Z-FNN system is utilized for dynamic plant identification. The effectiveness of Z-FNN has been tested by comparing its performance with the performances of other fuzzy systems available in the literature. The proposed approach has been proven to be a suitable alternative for the identification of nonlinear systems characterized by uncertain and imprecise information. [ABSTRACT FROM AUTHOR]

Published

2023

20. Cognitive physiological data analysis based on the XGBoost algorithm to realize positive perceptual sample classification.

Author

Guo, Zhuen and Lin, Li

Subjects

DATA analysis, NEW product development, SATISFACTION, CLASSIFICATION, ALGORITHMS

Abstract

Designers refer to existing product cases and innovate products to develop new products. However, when designers screen product cases, there is no user participation, which leads to the lack of user-side knowledge and emotional drive that is very important for design. Therefore, it is necessary to play the role of user emotional knowledge in promoting the whole design process. This paper proposes the concept of the positive perceptual sample, which applies the knowledge emotion integration of designers and users to the screening sample case stage at the beginning of the design process. This study is based on the lack of user-side knowledge and emotional drive of reference cases and integrates user emotion into the reference case screening process. Then, in the emotion measurement process, users' cognitive data in the screening process are obtained through the eye-brain fusion cognitive experiment. Finally, the XGBoost algorithm is used to process feature index data to realize the classification and recognition of cognitive data and applied to the positive perceptual classification of products. The results show that the classification accuracy of physiological cognitive data with user emotional representation by the XGBoost algorithm is 90.87%. The results of cognitive data classification are applied to the screening of positive perceptual samples, and the satisfaction rate is 98.35%. The results show that the method proposed in this paper provides a new source of ideas for obtaining positive perceptual samples and can be applied to new product development. [ABSTRACT FROM AUTHOR]

Published

2023

21. Application of DeepForest-CQP multi-factor model in quantitative stock selection.

Author

Tang, Chen, Yu, Qiancheng, Li, Xiaoning, Lu, Zekun, and Yang, Yufan

Subjects

STOCKS (Finance), MACHINE learning, ORTHOGONALIZATION, HETEROSCEDASTICITY

Abstract

The stock market is a chaotic system, and stock forecasting has been the research focus. This paper proposes a multi-factor model based on DeepForest-CQP to make it more applicable to the stock domain. A t-test is used for selecting factors, and orthogonalization and heteroskedasticity tests are performed for the combined factors, which are particularly important in stock forecasting. DeepForest-CQP was combined with the multi-factor model to construct a stock selection model that can achieve higher returns. The obtained multi-factor quantitative stock selection model is used to study stock selection strategies, and simulated trading is used to evaluate the multi-factor model and stock selection strategies and compare them with various machine learning multi-factor models. The experimental results show that the DeepForest-CQP-based multi-factor stock selection model achieves significant performance advantages in all backtesting metrics. [ABSTRACT FROM AUTHOR]

Published

2023

22. Urban green economic planning based on improved genetic algorithm and machine learning.

Author

Liu, Tao, Xin, Baogui, Wu, Fan, Paul, Anand, Cheung, Simon K.S., Ho, Chiung Ching, and Din, Sadia

Subjects

CENTRAL economic planning, GENETIC algorithms, MACHINE learning, URBAN planning, SUSTAINABLE development, GREEN roofs

Abstract

There are many factors that need to be considered when planning a city's green economy, so it is difficult to simulate the planning effect through manual models. In order to improve the effect of urban green economic planning, this paper improves the traditional algorithm and combines the principle of machine learning algorithm to build a model that can be used in urban green economic planning. Moreover, this paper considers the measurement of green economic efficiency from the perspective of input, expected output and undesired output. In addition, this paper compares and analyzes the green efficiency calculated by the SE-SBM model, including horizontal comparison analysis and vertical comparison analysis, and conducts model simulation analysis in combination with data simulation research. Finally, this paper sets the simulation area, combines the data to perform model performance analysis, summarizes the data with statistical analysis methods, and draws charts. The research results show that the model constructed in this paper has a certain effect and can be applied to the design stage of urban green planning. [ABSTRACT FROM AUTHOR]

Published

2021

23. Intelligent English translation system based on evolutionary multi-objective optimization algorithm.

Author

Song, Xin, Satapathy, Suresh Chandra, Agrawal, Rashmi, and García Díaz, Vicente

Subjects

TRANSLATING & interpreting, MATHEMATICAL optimization, MACHINE translating, MACHINE learning, ELECTRONIC data processing, DATA distribution

Abstract

The difficulty of obtaining the characteristics of the corpus database of neural machine translation is a factor hindering its development. In order to improve the effect of English intelligent translation, based on the machine learning algorithm, this paper improves the multi-objective optimization algorithm to construct a model based on the English intelligent translation system. Moreover, this paper uses parallel corpus and monolingual corpus for model training and uses semi-supervised neural machine translation method to analyze the data processing path in detail and focuses on the analysis of node distribution and data processing flow. In addition, this paper introduces data-related regularization items through the probabilistic nature of the neural machine translation model and applies it to the monolingual corpus to help the training of the neural machine translation model. Finally, this paper designs experiments to verify the performance of this model. The research results show that the translation model constructed in this paper is highly intelligent and can meet actual translation needs. [ABSTRACT FROM AUTHOR]

Published

2021

24. CAMGAN: Combining attention mechanism generative adversarial networks for cartoon face style transfer.

Author

Zhang, Tao, Yu, Long, and Tian, Shengwei

Subjects

GENERATIVE adversarial networks, FACE, MACHINE learning

Abstract

In this paper, we presents an apporch for real-world human face close-up images cartoonization. We use generative adversarial network combined with an attention mechanism to convert real-world face pictures and cartoon-style images as unpaired data sets. At present, the image-to-image translation model has been able to successfully transfer style and content. However, some problems still exist in the task of cartoonizing human faces:Hunman face has many details, and the content of the image is easy to lose details after the image is translated. the quality of the image generated by the model is defective. The model in this paper uses the generative adversarial network combined with the attention mechanism, and proposes a new generative adversarial network combined with the attention mechanism to deal with these problems. The channel attention mechanism is embedded between the upper and lower sampling layers of the generator network, to avoid increasing the complexity of the model while conveying the complete details of the underlying information. After comparing the experimental results of FID, PSNR, MSE three indicators and the size of the model parameters, the new model network proposed in this paper avoids the complexity of the model while achieving a good balance in the conversion task of style and content. [ABSTRACT FROM AUTHOR]

Published

2022

25. A comprehensive survey on sentiment analysis: Challenges and future insights.

Author

Shukla, Diksha, Chandra, Ganesh, Pandey, Babita, and Dwivedi, Sanjay K.

Subjects

SENTIMENT analysis, TASK analysis, SOCIAL networks, SOCIAL media, USER-generated content

Abstract

With the rise of social networks, people now express their sentiments more frequently and comfortably through their social media activities on different events, person, and every little thing surrounding them. This generates a lot of unstructured data; billions of users post tweets every day as a daily regime on Twitter itself. This has given rise to many texts classification and analysis tasks, Sentiment Analysis (SA) being one of them. Through SA, it is conferred whether the users have negative or positive orientations in their opinions; the results of this task are significantly useful for decision-makers in various fields. This paper presents various facets of SA, like the process followed in SA, levels, approaches, and sentences considered in SA. Aspects such as growth, techniques, the share of various platforms, and SA pipeline are also covered in this paper. At last, we have highlighted some major challenges in order to define future directions. [ABSTRACT FROM AUTHOR]

Published

2022

26. A unified semantic description and user's permissions knowledge reasoning for multiple domain cyberspace based on knowledge graph.

Author

Lei Zhang, Wei Bai, Shize Guo, Youwei Xu, Kaolin Jiang, Yu Pan, Qibin Zheng, Jun Chen, and Zhisong Pan

Subjects

KNOWLEDGE graphs, CYBERSPACE, MACHINE learning

Abstract

Because multiple domain cyberspace joint attacks are becoming more widespread, establishing a multiple domain cyberspace defensive paradigm is becoming more vital. However, although some physical domain and social domain information is incorporated in present approaches, total modeling of cyberspace is absent, therefore thorough modeling of cyberspace is becoming increasingly necessary. This paper proposed a knowledge graph based multiple domain cyberspace modeling approach. A knowledge graph of multiple domain cyberspace is produced by extracting multiple domain entity information and entity relations such as physical domain, social domain, network domain, and information domain, so that semantic information of multiple domain cyberspace may be described consistently. At the same time, this paper proposed a user's permissions reasoning method based on multiple domain cyberspace knowledge graph to address the user's permissions reasoning that relies on artificial reasoning principles. Through the model learning knowledge graph triples characteristics and rules, and implementing automatic reasoning of user's permissions, this proposed method can abandon the artificial model of writing reasoning rules, allowing the machine to learn the reasoning rules using machine learning and other methods. Experimental results showed that the proposed method can learn relevant reasoning rules and accomplish automated reasoning of user's permissions, and that the method's accuracy and recall rates are higher than those of path ranking and translating embeddings. [ABSTRACT FROM AUTHOR]

Published

2022

27. Sentiment classification using hybrid feature selection and ensemble classifier.

Author

Jain, Achin, Jain, Vanita, Malik, Hasmat, Chaudhary, Gopal, and Srivastava, Smriti

Subjects

FEATURE selection, SUPPORT vector machines, GENETIC algorithms, RESTAURANT reviews, T-test (Statistics), ERROR rates

Abstract

This paper presents a Hybrid Feature Selection Technique for Sentiment Classification. We have used a Genetic Algorithm and a combination of existing Feature Selection methods, namely: Information Gain (IG), CHI Square (CHI), and GINI Index (GINI). First, we have obtained features from three different selection approaches as mentioned above and then performed the UNION SET Operation to extract the reduced feature set. Then, Genetic Algorithm is applied to optimize the feature set further. This paper also presents an Ensemble Approach based on the error rate obtained different domain datasets. To test our proposed Hybrid Feature Selection and Ensemble Classification approach, we have considered four Support Vector Machine (SVM) classifier variants. We have used UCI ML Datasets of three domains namely: IMDB Movie Review, Amazon Product Review and Yelp Restaurant Reviews. The experimental results show that our proposed approach performed best in all three domain datasets. Further, we also presented T-Test for Statistical Significance between classifiers and comparison is also done based on Precision, Recall, F1-Score, AUC and model execution time. [ABSTRACT FROM AUTHOR]

Published

2022

28. Machine learning based accident prediction in secure IoT enable transportation system.

Author

Mohanta, Bhabendu Kumar, Jena, Debasish, Mohapatra, Niva, Ramasubbareddy, Somula, Rawal, Bharat S., Malik, Hasmat, Chaudhary, Gopal, and Srivastava, Smriti

Subjects

MACHINE learning, SMART cities, ARTIFICIAL neural networks, ARTIFICIAL intelligence, INTELLIGENT transportation systems, INTERNET of things

Abstract

Smart city has come a long way since the development of emerging technology like Information and communications technology (ICT), Internet of Things (IoT), Machine Learning (ML), Block chain and Artificial Intelligence. The Intelligent Transportation System (ITS) is an important application in a rapidly growing smart city. Prediction of the automotive accident severity plays a very crucial role in the smart transportation system. The main motive behind this research is to determine the specific features which could affect vehicle accident severity. In this paper, some of the classification models, specifically Logistic Regression, Artificial Neural network, Decision Tree, K-Nearest Neighbors, and Random Forest have been implemented for predicting the accident severity. All the models have been verified, and the experimental results prove that these classification models have attained considerable accuracy. The paper also explained a secure communication architecture model for secure information exchange among all the components associated with the ITS. Finally paper implemented web base Message alert system which will be used for alert the users through smart IoT devices. [ABSTRACT FROM AUTHOR]

Published

2022

29. Deep context interaction network based on attention mechanism for click-through rate prediction.

Author

Yuan, Ling, Pan, Zhuwen, Sun, Ping, Wei, Yinzhen, and Yu, Haiping

Subjects

INTERNET advertising, FORECASTING, MACHINE learning

Abstract

Click-through rate (CTR) prediction, which aims to predict the probability of a user clicking on an ad, is a critical task in online advertising systems. The problem is very challenging since(1) an effective prediction relies on high-order combinatorial features, and(2)the relationship to auxiliary ads that may impact the CTR. In this paper, we propose Deep Context Interaction Network on Attention Mechanism(DCIN-Attention) to process feature interaction and context at the same time. The context includes other ads in the current search page, historically clicked and unclicked ads of the user. Specifically, we use the attention mechanism to learn the interactions between the target ad and each type of auxiliary ad. The residual network is used to model the feature interactions in the low-dimensional space, and with the multi-head self-attention neural network, high-order feature interactions can be modeled. Experimental results on Avito dataset show that DCIN outperform several existing methods for CTR prediction. [ABSTRACT FROM AUTHOR]

Published

2021

30. Improving sleeping quality and health under CPS: An analysis based on EEG data and support vector machine algorithm.

Author

Subhashini, R., Hemalakshmi, G.R., Rajalakshmi, R., and Chen, Chuang

Subjects

SLEEP quality, SUPPORT vector machines, ELECTROENCEPHALOGRAPHY, VECTOR data, WAKEFULNESS, ALGORITHMS, MACHINE learning

Abstract

The quality of sleep plays a crucial role in physical well-being, and individuals are becoming increasingly concerned about sleep quality and its associated health issues. Although various sleep monitoring devices exist, there remains a need for a highly accurate sleep state identification algorithm. To address this, we present a paper that utilizes machine learning techniques to identify human sleep states based on electroencephalogram (EEG) signals collected by an EEG instrument. We propose a model that incorporates two nonlinear characteristic parameters, MSE and PSE, extracted from artificially designed EEG signals as input. Additionally, we employ a Support Vector Machine (SVM) classifier algorithm to accurately identify sleep states, eliminating uncertainties associated with manually designed feature parameters. Experimental results demonstrate the superior accuracy of our proposed model for sleep state analysis, offering valuable insights for improving sleep quality and addressing related health concerns. [ABSTRACT FROM AUTHOR]

Published

2023

31. Energy time series forecasting-analytical and empirical assessment of conventional and machine learning models.

Author

Hamdoun, Hala, Sagheer, Alaa, and Youness, Hassan

Subjects

DEEP learning, MACHINE learning, ARTIFICIAL intelligence, ELECTRIC power consumption, TIME series analysis, ENERGY management

Abstract

Machine learning methods have been adopted in the literature as contenders to conventional methods to solve the energy time series forecasting (TSF) problems. Recently, deep learning methods have been emerged in the artificial intelligence field attaining astonishing performance in a wide range of applications. Yet, the evidence about their performance in to solve the energy TSF problems, in terms of accuracy and computational requirements, is scanty. Most of the review articles that handle the energy TSF problem are systematic reviews, however, a qualitative and quantitative study for the energy TSF problem is not yet available in the literature. The purpose of this paper is twofold, first it provides a comprehensive analytical assessment for conventional, machine learning, and deep learning methods that can be utilized to solve various energy TSF problems. Second, the paper carries out an empirical assessment for many selected methods through three real-world datasets. These datasets related to electrical energy consumption problem, natural gas problem, and electric power consumption of an individual household problem. The first two problems are univariate TSF and the third problem is a multivariate TSF. Compared to both conventional and machine learning contenders, the deep learning methods attain a significant improvement in terms of accuracy and forecasting horizons examined. In the meantime, their computational requirements are notably greater than other contenders. Eventually, the paper identifies a number of challenges, potential research directions, and recommendations to the research community may serve as a basis for further research in the energy forecasting domain. [ABSTRACT FROM AUTHOR]

Published

2021

32. Research on health monitoring and damage recognition algorithm of building structures based on image processing.

Author

Tang, Sicong and Wang, Hailong

Subjects

*IMAGE processing, *MACHINE learning, *PARAMETER identification, *NOISE control, *ALGORITHMS, *IMAGE encryption, *DIGITAL images

Abstract

With the continuous deepening of the urbanization process and the progress of science and technology, people transform nature and develop nature on a larger and larger scale, among which the most iconic transformation is a variety of building structures built by people. And with the passage of time, the building structure in the perennial wind and sun, there will be signs of "illness", if not timely treatment, it will have a huge impact on the stability and safety of the building structure. Based on this, in this paper, according to the characteristics of crack identification on the surface of concrete structure, background subtraction algorithm is selected for image noise reduction processing. Through three steps of digital image noise reduction, crack extraction and crack parameter identification, the quantitative recognition of cracks is completed and a complete system of crack parameter identification is formed. The experimental results show that the machine learning model of building structure health monitoring and damage recognition algorithm proposed in this paper has excellent statistical performance, and the relative error accuracy of recognition can be controlled within 10%. [ABSTRACT FROM AUTHOR]

Published

2024

33. Classification of high-dimensional imbalanced biomedical data based on spectral clustering SMOTE and marine predators algorithm.

Author

Qin, Xiwen, Zhang, Siqi, Dong, Xiaogang, Shi, Hongyu, and Yuan, Liping

Subjects

*LINEAR operators, *CLASSIFICATION, *ALGORITHMS, *LEARNING strategies, *FEATURE selection, *LOTKA-Volterra equations, *MACHINE learning, *RANDOM forest algorithms

Abstract

The research of biomedical data is crucial for disease diagnosis, health management, and medicine development. However, biomedical data are usually characterized by high dimensionality and class imbalance, which increase computational cost and affect the classification performance of minority class, making accurate classification difficult. In this paper, we propose a biomedical data classification method based on feature selection and data resampling. First, use the minimal-redundancy maximal-relevance (mRMR) method to select biomedical data features, reduce the feature dimension, reduce the computational cost, and improve the generalization ability; then, a new SMOTE oversampling method (Spectral-SMOTE) is proposed, which solves the noise sensitivity problem of SMOTE by an improved spectral clustering method; finally, the marine predators algorithm is improved using piecewise linear chaotic maps and random opposition-based learning strategy to improve the algorithm's optimization seeking ability and convergence speed, and the key parameters of the spectral-SMOTE are optimized using the improved marine predators algorithm, which effectively improves the performance of the over-sampling approach. In this paper, five real biomedical datasets are selected to test and evaluate the proposed method using four classifiers, and three evaluation metrics are used to compare with seven data resampling methods. The experimental results show that the method effectively improves the classification performance of biomedical data. Statistical test results also show that the proposed PRMPA-Spectral-SMOTE method outperforms other data resampling methods. [ABSTRACT FROM AUTHOR]

Published

2024

34. Agricultural price prediction based on data mining and attention-based gated recurrent unit: a case study on China's hog.

Author

Guo, Yan, Tang, Dezhao, Cai, Qiqi, Tang, Wei, Wu, Jinghua, and Tang, Qichao

Subjects

*FARM produce prices, *AGRICULTURAL prices, *BOX-Jenkins forecasting, *DATA mining, *RECURRENT neural networks, *AGRICULTURAL forecasts, *SUSTAINABLE agriculture, *FORECASTING

Abstract

Under the influence of the coronavirus disease and other factors, agricultural product prices show non-stationary and non-linear characteristics, making it increasingly difficult to forecast accurately. This paper proposes an innovative combinatorial model for Chinese hog price forecasting. First, the price is decomposed using the Seasonal and Trend decomposition using the Loess (STL) model. Next, the decomposed data are trained with the Long Short-term Memory (LSTM) and Seasonal Autoregressive Integrated Moving Average (SARIMA) models. Finally, the prepared data and the multivariate influence factors after Factor analysis are predicted using the gated recurrent neural network and attention mechanisms (AttGRU) to obtain the final prediction values. Compared with other models, the STL-FA-AttGRU model produced the lowest errors and achieved more accurate forecasts of hog prices. Therefore, the model proposed in this paper has the potential for other price forecasting, contributing to the development of precision and sustainable agriculture. [ABSTRACT FROM AUTHOR]

Published

2024

35. A new approach to solving target coverage problem in wireless sensor networks using an effective hybrid genetic algorithm and tabu search.

Author

Ajam, Leila, Nodehi, Ali, and Mohamadi, Hosein

Subjects

WIRELESS sensor networks, GENETIC algorithms, TABU search algorithm, SEARCH algorithms, SENSOR networks, MACHINE learning, PROBLEM solving

Abstract

Literature in recent years has introduced several studies conducted to solve the target coverage problem in wireless sensor networks (WSNs). Sensors are conventionally assumed as devices with only a single power level. However, real applications may involve sensors with multiple power levels (i.e., multiple sensing ranges each of which possesses a unique power consumption). Consequently, one of the key problems in WSNs is how to provide a full coverage on all targets distributed in a network containing sensors with multiple power levels and simultaneously prolong the network lifetime as much as possible. This problem is known as Maximum Network Lifetime With Adjustable Ranges (MNLAR) and its NP-completeness has been already proved. To solve this problem, we proposed an efficient hybrid algorithm containing Genetic Algorithm (GA) and Tabu Search (TS) aiming at constructing cover sets that consist of sensors with appropriate sensing ranges to provide a desirable coverage for all the targets in the network. In our hybrid model, GA as a robust global searching algorithm is used for exploration purposes, while TS with its already-proved local searching ability is utilized for exploitation purposes. As a result, the proposed algorithm is capable of creating a balance between intensification and diversification. To solve the MNLR problem in an efficient way, the proposed model was also enriched with an effective encoding method, genetic operators, and neighboring structure. In the present paper, different experiments were performed for the purpose of evaluating how the proposed algorithm performs the tasks defined. The results clearly confirmed the superiority of the proposed algorithm over the greedy-based algorithm and learning automata-based algorithm in terms of extending the network lifetime. Moreover, it was found that the use of multiple power levels altogether caused the extension of the network lifetime. [ABSTRACT FROM AUTHOR]

Published

2022

36. Intelligence system for sentiment classification with deep topic embedding using N-gram based topic modeling.

Author

Smitha, E.S., Sendhilkumar, S., and Mahalakshmi, G.S.

Subjects

DEEP learning, MACHINE learning, CONVOLUTIONAL neural networks, TRANSFORMER models, RECURRENT neural networks, CLASSIFICATION algorithms, SUPPORT vector machines, NAIVE Bayes classification

Abstract

Multi-modal information outbreak is consistently increasing in social media. Classification of tweet sentiments using various information modalities will help the recommender systems to achieve success in digital marketing. Moreover, aspect-level sentiment analysis categorizes a target's sentiment polarity in a specific environment. Using topic modelling in aspect-level sentiment analysis enables the identification of more accurate aspect-based tweet sentiments. The existing sentiment classification techniques used for the development of recommendation systems do not focus on the aspect-based approach modelled using deep learning classifier with temporal analysis on the social media data. Hence, this paper proposes an efficient sentiment classification model that highlights the impact of topic modelling-based word feature embedding for improvising the classification of Twitter sentiments and product reviews based on temporal reasoning and analysis for performing predictive analysis. For tweets context analysis, Latent Dirichlet Allocation based topic modelling is used in this work which generates the topics. For each topic, the sentiment is calculated separately and the topic guided feature expansion is done using Senti-wordnet. Moreover, an extended deep learning classification algorithm called Long Short-Term Memory (LSTM) with word embedding and temporal reasoning(LSTMWTR) is proposed in this paper for improving the classification accuracy. Finally, the labelled data are classified using the existing machine learning algorithms namely Naïve Bayes, Support Vector Machines and also using the deep learning models such as Convolution Neural Network(CNN),LSTM, Recurrent Neural Networks (RNN) and the transformer model namelyBi-directional Encoder Representation from Transformers (BERT),Convolution Bi-directional Recurrent Neural Network (CBRNN) and the proposed deep learning algorithm namelyLSTMWTR. These sentiment classification algorithms have been evaluated with word embedding for tweet sentiment classification and product review classification. The results obtained from this work show that the proposed LSTMWTR algorithm emerges as the highly accurate model for tweet sentiment and product review classification. [ABSTRACT FROM AUTHOR]

Published

2023

37. Evolutionary algorithms based on oversampling techniques for enhancing the imbalanced credit card fraud detection.

Author

Korkoman, Malak Jalwi and Abdullah, Monir

Subjects

CREDIT card fraud, FRAUD investigation, PARTICLE swarm optimization, MACHINE learning, GENETIC algorithms, SOCIAL media, EVOLUTIONARY algorithms

Abstract

Online services have advanced to the point where they have made our lives much easier, but many problems should be solved to make these services safer for consumers. Numerous transactions are conducted daily, and much personal information is published and shared on e-commerce and social media platforms. This makes security, privacy, and problematic reliability barriers to overcome. One of these problems is detecting credit card fraud because thieves aim to make all transactions legitimate by stealing credit card information. Imbalanced data is a potential problem in machine learning that impairs the performance of the classifiers used in real-world systems. For example, anomaly detection and fraudulent transactions. The term "data imbalance" refers to the problem in which the sample distribution is skewed or skewed towards a particular class. Due to its inherent nature, the software failure prediction dataset falls into the same category as non-defective software modules. The main objective of this paper is to solve the problem of the imbalanced fraud credit card dataset for enhancing the detection accuracy of using machine learning algorithms. This paper provides a unique fraud detection model using the Particle Swarm Optimization (PSO) based on oversampling technique of the minority class to solve the imbalanced dataset problem compared with the Genetic Algorithm (GA) technique. Random Forest (RF) algorithm shows up with sensitivity, specificity, and accuracy. The experimental results achieved 99.3% and 99.4% for GA and PSO within seconds, respectively. Experiments show that the proposed methods outperform other methods, evidenced by the higher classification accuracy obtained. [ABSTRACT FROM AUTHOR]

Published

2023

38. A hybrid evolutionary learning classification for robot ground pattern recognition.

Author

Zuo, Jiankai and Zhang, Yaying

Subjects

PATTERN recognition systems, BIONICS, SUPPORT vector machines, RANDOM forest algorithms, ROBOTS, DECISION trees, NAIVE Bayes classification

Abstract

In the field of intelligent robot engineering, whether it is humanoid, bionic or vehicle robots, the driving forms of standing, moving and walking, and the consciousness discrimination of the environment in which they are located have always been the focus and difficulty of research. Based on such problems, Naive Bayes Classifier (NBC), Support Vector Machine(SVM), k-Nearest-Neighbor (KNN), Decision Tree (DT), Random Forest (RF) and eXtreme Gradient Boosting (XGBoost) were introduced to conduct experiments. The six individual classifiers have an obvious effect on a particular type of ground, but the overall performance is poor. Therefore, the paper proposes a "Novel Hybrid Evolutionary Learning" method (NHEL) which combines every single classifier by means of weighted voting and adopts an improved genetic algorithm (GA) to obtain the optimal weight. According to the fitness function and evolution times, this paper designs the adaptively changing crossover and mutation rate and applies the conjugate gradient (CG) to enhance GA. By making full use of the global search capabilities of GA and the fast local search ability of CG, the convergence speed is accelerated and the search precision is upgraded. The experimental results show that the performance of the proposed model is significantly better than individual machine learning and ensemble classifiers. [ABSTRACT FROM AUTHOR]

Published

2021

39. Comprehensive evaluation of logistics enterprise competitiveness based on SEM model.

Author

Yaxu, Yang

Subjects

LATENT variables, UTILITY functions, LOGISTICS, FACTOR analysis, MACHINE learning

Abstract

The loose logistics market, the weak value-added service capabilities of enterprises, and the backward construction and operation of logistics networks have led to high logistics costs and low efficiency in some enterprises. In order to improve the comprehensive evaluation effect of enterprise logistics enterprise competitiveness, this paper builds a comprehensive evaluation model of logistics enterprise competitiveness based on SEM model based on machine learning technology. Moreover, in order to more accurately grasp the law of customer logistics mode selection behavior, this paper adds the adaptive value of the latent variables of the logistics mode service characteristics obtained through the SEM model to the utility function of the logistics mode to obtain the SEM-NL integrated model. In addition, starting from the analysis of the key factors affecting the competitiveness of enterprise logistics, this paper constructs an evaluation model of enterprise logistics competitiveness, and analyzes and studies the comprehensive competitiveness of enterprise logistics through two aspects of logistics actual competitiveness and logistics future development potential. The research results show that the model constructed in this paper is suitable for the comprehensive evaluation of the competitiveness of logistics enterprises. [ABSTRACT FROM AUTHOR]

Published

2021

40. Evaluation of English online teaching based on remote supervision algorithms and deep learning.

Author

Han, Yongqing, Paul, Anand, Cheung, Simon K.S., Ho, Chiung Ching, and Din, Sadia

Subjects

DEEP learning, MACHINE learning, STUDENT evaluation of teachers, SUPERVISION

Abstract

The English online teaching automatic evaluation system is unstable in actual teaching evaluation. Therefore, how the automatic evaluation system can better adapt to high school teaching also needs a more in-depth theoretical and practical discussion. According to the actual needs of English online teaching, this article combines remote supervision and deep learning algorithms, builds a system structure for the English online teaching evaluation process, and simulates and analyzes the application of supervision algorithms in the teaching process. Moreover, this article evaluates the actions and status of the student's learning process from the aspects of teacher evaluation and student evaluation, and also scores the teacher's teaching process. In order to study the practical effect of this system in English online teaching, this paper designs experiments to evaluate the model online English teaching effect. The research results show that the model constructed in this paper has good performance. [ABSTRACT FROM AUTHOR]

Published

2021

41. Intelligent traffic control system based on open IoT and machine learning.

Author

Chen, Jiaona, Liu, Hailong, Paul, Anand, Cheung, Simon K.S., Ho, Chiung Ching, and Din, Sadia

Subjects

INTELLIGENT control systems, MACHINE learning, TRAFFIC engineering, INTERNET of things, CELLULAR automata

Abstract

Smart transportation relies on data collection, transmission, processing, and release, involving various terminal devices, control systems, central platforms, and communication links, so its control process is more complicated. In order to improve the operation efficiency of the intelligent traffic control system, based on the open Internet of Things and machine learning, this paper builds an intelligent three-way intelligent traffic control system, sets various parameters, and builds a simulation model using cellular automata as a platform. Moreover, in order to study the performance of the model, the model constructed in this paper is compared with the model of the traditional road traffic control system. In addition, this paper analyzes the model constructed in this paper through the statistics of the highest vehicle flow on the road and the relationship between road occupancy and vehicle speed. The research results show that the model constructed in this paper has good performance and can be applied to intelligent traffic control. [ABSTRACT FROM AUTHOR]

Published

2021

42. Performance evaluation of English learning through computer mode using neural network and AI techniques.

Author

Nianfan, Peng

Subjects

ARTIFICIAL intelligence, ARTIFICIAL neural networks, COMPUTERS, MATHEMATICAL statistics, MACHINE learning

Abstract

Learning performance evaluation is an important part of computer English teaching. Through evaluation, students can understand whether they have reached the learning goals of a lesson, and what are their shortcomings, so that they can continuously improve and improve themselves against these shortcomings. Combining actual needs, based on neural network and artificial intelligence technology, this paper constructs a computer English learning performance evaluation model based on machine learning. The computer English learning performance evaluation system in this paper is constructed on the basis of auditory characteristics and introduces a wavelet entropy feature based on the best tree wavelet packet decomposition, and it is applied to the establishment of an adaptive model. Moreover, this paper uses controlled experiments to analyze the model performance and combines mathematical statistics to visually display the model effect. From the research results, it can be seen that the performance of the model constructed in this paper basically meets the expected requirements and actual needs. [ABSTRACT FROM AUTHOR]

Published

2021

43. Recognition of teaching method effects based on grid model simplification and artificial intelligence.

Author

Yunfeng, Guo and Jing, Li

Subjects

ARTIFICIAL intelligence, TEACHING methods, ALGORITHMS, OBJECT recognition (Computer vision), MACHINE learning

Abstract

In order to improve the effect of the teaching method evaluation model, based on the grid model, this paper constructs an artificial intelligence model based on the grid model. Moreover, this paper proposes a hexahedral grid structure simplification method based on weighted sorting, which comprehensively sorts the elimination order of candidate base complexes in the grid with three sets of sorting items of width, deformation and price improvement. At the same time, for the elimination order of basic complex strings, this paper also proposes a corresponding priority sorting algorithm. In addition, this paper proposes a smoothing regularization method based on the local parameterization method of the improved SLIM algorithm, which uses the regularized unit as the reference unit in the local mapping in the SLIM algorithm. Furthermore, this paper proposes an adaptive refinement method that maintains the uniformity of the grid and reduces the surface error, which can better slow down the occurrence of geometric constraints caused by insufficient number of elements in the process of grid simplification. Finally, this paper designs experiments to study the performance of the model. The research results show that the model constructed in this paper is effective. [ABSTRACT FROM AUTHOR]

Published

2021

44. Efficiency improvement of English online teaching system based on bagging learning flow feature selection.

Author

Fen, Zhou

Subjects

FEATURE selection, ARTIFICIAL intelligence, MACHINE learning, ALGORITHMS, BOOTSTRAP aggregation (Algorithms), DIGITAL learning

Abstract

In the era of artificial intelligence, the traditional English teaching model can no longer meet the needs of society, and online English teaching has become the main development direction of English teaching in the future. In order to study the efficiency of English online teaching system, based on machine learning algorithms, this paper constructs an efficiency improvement model of English online teaching system. Moreover, in view of the shortcomings of current situation estimation algorithms that cannot coexist in terms of flexibility, causal interpretability and complexity, this paper proposes a biological immune algorithm framework that uses GBDT algorithm coding, which objectively and accurately shows the spread of the situation. In addition, for the problem that redundant information between features will reduce the accuracy of the framework, this paper proposes a streaming feature selection algorithm based on bagging learning. Finally, this paper designs a control experiment to analyze the performance of the model. The research results show that the model constructed in this paper is highly reliable. [ABSTRACT FROM AUTHOR]

Published

2021

45. Regional effect of monetary policy based on GVAR model and machine learning.

Author

Zhao, Zengming and Chen, Wenting

Subjects

MONETARY policy, MACHINE learning, CREDIT risk, BURST noise, IMPULSE response

Abstract

Monetary policy is an important means for a country to regulate macroeconomic operations and achieve established economic goals. Moreover, a reasonable monetary policy improves the efficiency of financial operations on a global scale and effectively resolves the financial crisis. At present, scholars from various countries have begun to pay attention to the issue of differentiated formulation of monetary policy among regions. This paper combines machine learning to construct a monetary policy differentiation effect analysis model based on the GVAR model. Moreover, this paper uses the gray correlation analysis method to obtain the gray correlation matrix between industries, and then introduces the industry's own characteristics, industry relevance and macroeconomic factors into the macro stress test of credit risk. In addition, this paper constructs a conduction model based on the industry GVAR model, and uses the first-order difference sequence of GDP growth rate, CPI growth rate and M2 growth rate of each economic region to construct a GVAR model to test the impulse response function. The results of the test show that the monetary policy shocks of various economic regions are significantly different. All in all, the research results show that the performance of the model constructed in this paper is good. [ABSTRACT FROM AUTHOR]

Published

2021

46. Financial risk analysis of real estate bubble based on machine learning and factor analysis model.

Author

Zhang, Chengyuan, Li, Mingliang, and Li, Yongqiang

Subjects

REAL estate bubbles, FINANCIAL risk, MACHINE learning, CORPORATE finance, RISK assessment

Abstract

The regional real estate price bubble regulation policy is an external factor for the real estate industry. The effect of real estate regulation is difficult to determine, which is a typical problem of uncertain system analysis and forecasting, and the gray Bayesian network forecasting model is to solve the forecasting problem of economic system subject to external regulation. Based on machine learning and factor analysis models, this paper constructs a real estate bubble financial risk analysis model based on machine learning and factor analysis models. Moreover, starting from the real estate price bubble, which is a hot and difficult issue of the social economy, this paper discusses the causes of the formation of real estate price bubbles and the mechanism of the formation of real estate price bubbles, looks for the importance of policy regulation of real estate price bubbles, and clarifies the functional game model of policy regulation of real estate price bubbles. In addition, this paper uses examples to study the model constructed in this paper. The results show that the model constructed in this paper has a certain effect. [ABSTRACT FROM AUTHOR]

Published

2021

47. Consumer behavior analysis model based on machine learning.

Author

Li, Zhou

Subjects

CONSUMER behavior, BEHAVIORAL assessment, MACHINE learning, HUMAN behavior models, INTERNET searching, INVENTORY control

Abstract

The accurate mastery of demand information enables retailers to better respond to consumers and effectively manage inventory. However, the precise connection and interaction between this information collection and inventory management is more difficult to measure. In view of this, this paper proposes a research on inventory model based on consumer web search. Moreover, centering on the two main actors in the online search environment, consumers and retailers, this paper fully considers their characteristics and situations to construct an inventory model in the online search environment, and analyzes the ordering strategy. Moreover, based on the digital traces left by consumers in the decision-making process, this paper uses general search indicators and specific search indicators to measure consumer web search to explore the relationship between consumer web search indicators and the demand conversion rate proposed in the model. Moreover, this paper analyzes the model with examples. The research results are in line with model construction expectations. [ABSTRACT FROM AUTHOR]

Published

2021

48. Virtual design of urban planning based on GIS big data and machine learning.

Author

Zhu, Bin, Zhou, Jie, Satapathy, Suresh Chandra, Agrawal, Rashmi, and García Díaz, Vicente

Subjects

MACHINE learning, BIG data, VIRTUAL design, URBAN planning, CLASSIFICATION algorithms, FLOOR plans

Abstract

In order to build a virtual urban planning model and improve the effect of urban planning, this paper builds a virtual urban planning design model based on GIS big data technology and machine learning algorithms, and proposes a solution that combines multiple features. With the development of polarized SAR in the direction of high resolution, a single feature often cannot fully express the detailed information of ground objects, resulting in poor classification results and low accuracy. The combination of multiple features can express feature information well. In addition, this paper uses the ELM method to plan SAR ground object classification, uses an extreme learning machine classification algorithm with fast learning speed and good classification effect, and uses ELM as a classifier. Finally, this paper designs experiments to explore the performance of the model constructed in this paper from two aspects: detection accuracy and planning score. The research results show that the model constructed in this paper meets the expected goals. [ABSTRACT FROM AUTHOR]

Published

2021

49. Review of entity relation extraction.

Author

Tuo, Meimei and Yang, Wenzhong

Subjects

NATURAL language processing, DATA mining, KNOWLEDGE graphs, DEEP learning, BIG data

Abstract

In today's big data era, there are a large number of unstructured information resources on the web. Natural language processing researchers have been working hard to figure out how to extract useful information from them. Entity Relation Extraction is a crucial step in Information Extraction and provides technical support for Knowledge Graphs, Intelligent Q&A systems and Intelligent Retrieval. In this paper, we present a comprehensive history of entity relation extraction and introduce the relation extraction methods based on Machine Mearning, the relation extraction methods based on Deep Learning and the relation extraction methods for open domains. Then we summarize the characteristics and representative results of each type of method and introduce the common datasets and evaluation systems for entity relation extraction. Finally, we summarize current entity relation extraction methods and look forward to future technologies. [ABSTRACT FROM AUTHOR]

Published

2023

50. Trade filtering method for trend following strategy based on LSTM-extracted feature and machine learning.

Author

Liang, Jun, Huang, Keyi, Qiu, Shaojian, Lin, Hai, and Lian, Keng

Subjects

MACHINE learning, GOLD futures, COMMODITY futures, STATISTICAL learning, FUTURES market, PHYTOSANITATION

Abstract

Trend following strategies have a wide-ranging role in quantitative trading fields, which can capture important unilateral market trends for large gains, while this is vulnerable to losses in the period of consolidation. In this paper, we explored the trend trading system in the Chinese futures market based on machine learning techniques and statistical methods. This research utilized the Long-Short-Term Memory network to extract features of time series then predicted the price movements by Machine Learning classifiers. Moreover, based on rebar futures data, the results reveal that the annualized return improved from 6.39% to 15.68% after the trading signals generated in the trading strategy were filtered using the XGBoost model. Also, futures on gold and soybean were used to further test the integrated strategy and the results of the experiment show the effectiveness of the model in filtering false trading signals. [ABSTRACT FROM AUTHOR]

Published

2023