Elevating Prediction Performance for Mechanical Properties of Hot-Rolled Strips by Using Semi-Supervised Regression and Deep Learning

Wu, Shijing; Yang, Jian; Cao, Guangming; Qiu, Yunlong; Cheng, Guoguang; Yao, Meiyi; Dong, Jianxin

doi:10.1109/access.2020.3010506

Cited by 9 publications

(5 citation statements)

References 44 publications

(46 reference statements)

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“…Although the results, in general, showed the superiority of SVM over the RF and CB algorithms, at certain study areas, on average, the RF and CB algorithms performed better. The better performance of the semi‐supervised algorithms compared to conventional algorithms in the face of the limited training data has also been reported in other studies (Han et al., 2018; Levatić et al., 2018; Wu et al., 2020). This can be explained by the main feature of these algorithms, which is to do with the use of the unlabeled data to capture a better representation of the data, leading to improved performance.…”

Section: Resultssupporting

confidence: 77%

“…In this study, given the limited size of the reference ground sample data, we utilized a semi‐supervised algorithm called SAFER (SAFE semi‐supervised Regression), which has specifically been designed to address regression problems with limited sample data (Li et al., 2017; Syed et al., 2021; Wu et al., 2020). The SAFER algorithm aims to mitigate the issue of the mislabeled predictions within the automated learning process of the semi‐supervised regression models (Li et al., 2017).…”

Section: Methodsmentioning

confidence: 99%

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Advancements in Individual Tree Detection and Forest Structural Attributes Estimation From LiDAR Data: MSITD and SAFER Approaches

Fallah,

Aghighi,

Matkan

2024

Earth and Space Science

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Currently, the information on the structural attributes of forests, such as the diameter at breast height (DBH) and the aboveground biomass (AGB), is being used widely in various disciplines. In this study, we first proposed a novel tree detection algorithm called multi‐scale individual tree detection (MSITD) algorithm, which combines the strengths of raster‐based and point‐based approaches in order to detect individual trees from LiDAR data accurately. After tree detection, the DBH and AGB attributes were estimated using the ground control data and metrics extracted from LiDAR data, adopting the safe semi‐supervised regression (SAFER) algorithm specifically designed for addressing regression problems with limited sample data. The performances of these algorithms were evaluated within a 10‐fold nested cross‐validation approach, utilizing the LiDAR data available in the NEWFOR project. The evaluation of the obtained results revealed that both the MSITD algorithm and the SAFER algorithm demonstrate substantial superiority compared to the benchmark algorithms in tree detection, especially for the understory trees, and forest structural attributes estimation, respectively. On average, the MSITD algorithm exhibited a 13% better performance in terms of extraction rate and an 11% better performance in terms of matching rate compared to the benchmark individual tree detection algorithms. For forest structural attributes estimation, the SAFER algorithm provided superior predictions compared to the benchmark ML algorithms, with the average RMSE of 3.38 cm, MAE of 2.84 cm, and R2 of 0.59 for DBH and the average RMSE of 75.79 kg, MAE of 70.02 kg, and R2 of 0.56 for AGB.

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Section: Resultssupporting

confidence: 77%

Section: Methodsmentioning

confidence: 99%

Advancements in Individual Tree Detection and Forest Structural Attributes Estimation From LiDAR Data: MSITD and SAFER Approaches

Fallah,

Aghighi,

Matkan

2024

Earth and Space Science

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“…Since the 1950s, physical metallurgical models have been designed to calculate the mechanical properties of steels. 6) For example, the microstructure and mechanical properties have been successfully precited and controlled in the case of C-Mn steel in the hot rolling and cooling. 7,8) Meanwhile, the equations, based on the volume fraction and the grain size of the second phase are also developed.…”

Section: Online Prediction Of Mechanical Properties Of the Hot Rolled...mentioning

confidence: 99%

“…Among them, the deep neural networks method is capable to map highly complex nonlinear correlated data 11) and offers the alternative to predict the mechanical properties of hot-rolled products with higher prediction accuracy than that of classical physical metallurgical models. 6) Several ML methods have been implemented in steel production, such as the support vector machine, artificial neural networks, separate artificial neural networks, and deep neural networks. The common prediction scenarios include (1) optimizing the production parameters of hot-rolled 510L steel, 12) (2) mechanical properties of hotrolled plain carbon steel Q235B, 13) (3) toughness, hardness, and thermal strength of different steel grades, 14) (4) UTS, YS, and EL of hot rolled mild steel coils and implemented in a hot rolling mill, 15) (5) mechanical property of hot-rolled sheets based on large sample size (11 101 data), which has been applied in the actual production in steel mills.…”

Section: Online Prediction Of Mechanical Properties Of the Hot Rolled...mentioning

confidence: 99%

Online Prediction of Mechanical Properties of the Hot Rolled Steel Plate Using Time-series Deep Neural Network

Yang

Wang

et al. 2023

ISIJ Int.

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The prediction of steel's properties by the process parameters has been of great interest because they can effectively reduce production costs and improve product quality. At present, the extensively used artificial neural network (ANN) can only reveal the correlation between parameters and mechanical properties from the perspective of statistics but loses the critical information on time-series correlation in the steel production process. In this work, time-series neural networks based on long short-term memory (LSTM) were established to predict the steel plate's yield strength (YS), ultimate tensile strength (UTS), and elongation (EL). The results verified that the proposed LSTM model exhibited sufficient accuracy and outperformed the classical algorithms (SVM, random forest, ANN), with mean squared error reduced by 30% when compared with ANN. Also, the sensitivity analysis proved that LSTM was more capable to make full use of the information contained in input parameters and achieved better generalization performance. Notably, the interpretation of the results was more consistent with the real physical metallurgical process of a hot-rolled steel plate and can provide a better understanding of the physical metallurgical process.

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“…It is mainly divided into encoding and decoding structure and expansion of convolution structure; The network representatives of encoding and decoding structure include U-net [ 18 ], Seg Net [ 19 ], Refinet [ 20 ], etc., where an encoder is used to extract image features and dimension reduction, and a decoder is used to recover image dimension and spatial information. The representative networks of expansive convolution are Deep Labv1 [ 21 ], V2 [ 22 ], V3 [ 23 ], V3+ [ 24 ],and PSPNet [ 25 ] which can increase the size of the input image even if no pooling layer is used so that each convolution can contain more information when outputting. In addition, the networks with good effect in the field of target detection have also been applied to the field of instance segmentation, and achieved good segmentation results, such as regional convolution network (R–CNN) [ 26 ], FAST R–CNN [ 27 ], Faster R–CNN [ 28 ], Maskr-CNN [ 29 ], and so on.…”

Section: Deep Learning Algorithm and Its Application In Crop Yield Pr...mentioning

confidence: 99%

Research on Rice Yield Prediction Model Based on Deep Learning

Han

Liu

He³

et al. 2022

Computational Intelligence and Neuroscience

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Food is the paramount necessity of the people. With the progress of society and the improvement of social welfare system, the living standards of people all over the world are constantly improving. The development of medical industry improves people’s health level constantly, and the world population is constantly climbing to a new peak. With the continuous development of deep learning in recent years, its advantages are constantly displayed, especially in the aspect of image recognition and processing, it drives into the distance. Thanks to the superiority of deep learning in image processing, the combination of remote sensing images and deep learning has attracted more attention. To simulate the four key factors of rice yield, this article tries a regression model with a combination of various characteristic independent variables. In this article, the selection of the best linear and nonlinear regression models is discussed, the prediction performance and significance of each regression model are analyzed, and some thoughts are given on estimation of actual rice yield.

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Elevating Prediction Performance for Mechanical Properties of Hot-Rolled Strips by Using Semi-Supervised Regression and Deep Learning

Cited by 9 publications

References 44 publications

Advancements in Individual Tree Detection and Forest Structural Attributes Estimation From LiDAR Data: MSITD and SAFER Approaches

Advancements in Individual Tree Detection and Forest Structural Attributes Estimation From LiDAR Data: MSITD and SAFER Approaches

Online Prediction of Mechanical Properties of the Hot Rolled Steel Plate Using Time-series Deep Neural Network

Research on Rice Yield Prediction Model Based on Deep Learning

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