本書內(nèi)容講述: 智能感知技術(shù)是智能制造落地應(yīng)用及生產(chǎn)過程控制、預(yù)報及工藝優(yōu)化的基礎(chǔ), 近年來隨著機(jī)器視覺及人工智能技術(shù)的快速發(fā)展, 在鋼鐵領(lǐng)域已有大量基于機(jī)器視覺的典型應(yīng)用, 比如溫度檢測、表面缺陷檢測、尺寸檢測、廢鋼識別、輔助定位、物流號識別等, 對提高鋼鐵行業(yè)質(zhì)量檢測智能化、推動智能制造生根落地、提高生產(chǎn)效率及產(chǎn)品質(zhì)量起到了良好的推動作用。
1 Temperature Detection Methods Based on Machine Vision
1.1 Colorimetric thermometric model
1.1.1 Basic assumptions
1.1.2 The relationship of image grayscale and radiant temperature
1.1.3 Colorimetric temperature measurement model
1.2 Blackbody furnace calibration process
1.3 Image noise filtering method
1.3.1 Adaptive smooth filter denoising method
1.3.2 Adaptive median filter denoising method
1.3.3 Geometric mean filtering denoising method
1.3.4 Over-limit neighborhood filtering denoising method
1.3.5 Bilateral filter denoising method
1.3.6 Wavelet filter denoising method
1.4 Image edge detection method
1.4.1 Roberts operator
1.4.2 Sobel operator
1.4.3 Prewitt operator
1.4.4 Log operator
1.4.5 Canny operator
1.4.6 Morphological edge detection method
2 Temperature Detection in the Raceway Zone of Blast Furnace
2.1 Introduction
2.2 Theory and experiments
2.3 Methods to improve the temperature detection accuracy
2.3.1 Blackbody calibration for digital imaging system
2.3.2 Denoising for tuyere images
2.3.3 Edge detection for tuyere images
2.4 Combustion behavior and temperature in tuyere zone of BF
2.5 PCI process on the temperature variation in raceway zone of BF
2.5.1 Flame image temperature calculation
2.5.2 PCI rates
2.5.3 PCI cease processes
2.5.4 None PCI process
References
3 Uniformity and Activity of Blast Furnace Hearth
3.1 Introduction
3.2 Definitions of uniformity index and activity index
3.3 Experiments and temperature calculation
3.4 Uniformity index and activity index
3.4.1 Local uniformity index and local activity index
3.4.2 Ul and AI
References
4 Tuyere Coke Size and Temperature Distribution of BF
4.1 Introduction
4.2 Theory
4.2.1 Tuyere coke size detection
4.2.2 Temperature distribution calculation
4.3 Experiments
4.4 Results of tuyere coke size and temperature distribution
4.4.1 Calculation of tuyere coke size and temperature distribution of raceway zone
4.4.2 Results analyze
4.4.3 Calculation of coke belt length (CBL) in raceway zone of BF
References
5 Surface Temperature of Rail Steel Plates
5.1 Introduction
5.2 Emissivity calculation model
5.3 Theory
5.4 Experiments
5.4.1 Digital imaging system
5.4.2 Calibration for digital imaging system
5.4.3 Surface temperature variation during the rolling process
5.5 Temperature calculation results
5.5.1 Noise filtering results
5.5.2 Temperature detection results during rolling passes
References
6 Surface Defect Recognition of Aluminum Strips
6.1 Introduction
6.2 Aluminum strips images
6.3 NSST-KLPP model
6.4 Experiment and discussions
6.4.1 Experimental procedure
6.4.2 Experiment results
6.4.3 Comparison with common methods
6.4.4 Comparison of NSST,contourlet and DST
References
7 Surface Inspection of Continuous Casting Slabs
7.1 Introduction
7.2 Surface defects
7.3 DNST-GLCM-KSR model
7.4 Defect recognition algorithm
7.5 Defect recognition results
References
8 Surface Defect Recognition of Metals
8.1 Introduction
8.2 Construction of ICT
8.3 Defect recognition algorithms
8.4 Defect recognition results
References
9 Edge Detection of Retinal OCT Image
9.1 Introduction
9.2 Complex shearlet transform
9.3 Construction of detection formula
9.4 Numerical and visual experiments
9.5 Retinal OCT experiment
References
10 Detection of Character and Surface Defect in Steel Rail
10.1 Introduction
10.2 Experimental platform and experimental method
10.3 Methods
10.3.1 Photometric stereoscopic 3D reconstruction method
10.3.2 Character recognition method based on deep learning
10.4 Detection results
10.4.1 Defect detection result