Abstract
The automatic detection of the thread roll’s margin is one of the kernel problems in the textile field. As the traditional detection method based on the thread’s tension has the disadvantages of high cost and low reliability, this paper proposes a technology that installs a camera on a mobile robot and uses computer vision to detect the thread roll‘s margin. Before starting, we define a thread roll‘s margin as follows: The difference between the thread roll‘s radius and the bobbin’s radius. Firstly, we capture images of the thread roll‘s end surface. Secondly, we obtain the bobbin’s image coordinates by calculating the image’s convolutions with a Circle Gradient Operator. Thirdly, we fit the thread roll and bobbin’s contours into ellipses, and then delete false detections according to the bobbin’s image coordinates. Finally, we restore every sub-image of the thread roll by a perspective transformation method, and establish the conversion relationship between the actual size and pixel size. The difference value of the two concentric circles’ radii is the thread roll’s margin. However, there are false detections and these errors may be more than 19.4 mm when the margin is small. In order to improve the precision and delete false detections, we use deep learning to detect thread roll and bobbin’s radii and then can calculate the thread roll’s margin. After that, we fuse the two results. However, the deep learning method also has some false detections. As such, in order to eliminate the false detections completely, we estimate the thread roll‘s margin according to thread consumption speed. Lastly, we use a Kalman Filter to fuse the measured value and estimated value; the average error is less than 5.7 mm.
Highlights
We develop a low-cost and high-precision method to detect a thread roll’s margin.This method mainly uses a camera which is installed in a mobile robot to obtain images.we calculate the margin of the thread roll by computer vision
This paper provides a low-cost and high-precision thread roll margin detected system; when the detected margin is less than a certain value we can prepare to replace the bobbin in advance
The first method based on contours may have some false detection, and the result is not accurate when the thread roll’s margin is small
Summary
We develop a low-cost and high-precision method to detect a thread roll’s margin.This method mainly uses a camera which is installed in a mobile robot to obtain images.we calculate the margin of the thread roll by computer vision. We develop a low-cost and high-precision method to detect a thread roll’s margin. This method mainly uses a camera which is installed in a mobile robot to obtain images. We calculate the margin of the thread roll by computer vision This method can replace workers, which has great practical significance. We are facing the problems of low productivity and high labor costs [1]. According to the Ministry of Industry and Information Technology of the People’s Republic of China, the digitization rate of equipment in the textile industry is 36.06%. With rising labor costs, the automation rate of China’s textile enterprises needs to be further improved, especially for small and medium-sized enterprises [1,2,3]. We propose a method which can help to improve productivity and safety, and reduce dependence on skilled workers
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