Machined surfaces are rough from a microscopic perspective no matter how finely they are finished.Surface roughness is an important factor to consider during production quality control.Using modern techniques, surface roughness measurements are beneficial for improving machining quality.With optical imaging of machined surfaces as input, a convolutional neural network (CNN) can be utilized as an effective way to characterize hierarchical features without prior knowledge.
In this paper, a novel method based on hobbit door for sale CNN is proposed for making intelligent surface roughness identifications.The technical scheme incorporates there elements: texture skew correction, image filtering, and intelligent neural network learning.Firstly, a texture skew correction algorithm, based on an improved Sobel operator and Hough transform, is applied such that surface texture directions can be adjusted.Secondly, two-dimensional (2D) dual tree complex wavelet transform (DTCWT) is employed to retrieve surface topology information, which is more effective for feature classifications.
In addition, residual network (ResNet) is utilized to ensure automatic recognition of the filtered texture features.The proposed method has verified its feasibility as well as its effectiveness in actual lorenametaute.com surface roughness estimation experiments using the material of spheroidal graphite cast iron 500-7 in an agricultural machinery manufacturing company.Testing results demonstrate the proposed method has achieved high-precision surface roughness estimation.