Ore scale measurement method based on deep learning and application system

A technology of deep learning and measurement methods, applied in measurement devices, optical devices, image data processing, etc., can solve problems such as low accuracy, low overlap, low contrast, etc., to improve efficiency and accuracy, and enhance detection capabilities. , the effect of improving the accuracy

Inactive Publication Date: 2019-10-29
合肥合工安驰智能科技有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, there are many problems in the ore segmentation algorithm. Most of the methods are only for the ore image with low ore accumulation and overlap, high contrast between the ore and the background, and better imaging quality.
For ore images with low signal-to-noise ratio, low contrast and serious ore accumulation, the existing segmentation methods cannot effectively segment them correctly
The mineral processing site is in a complex environment su

Method used

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  • Ore scale measurement method based on deep learning and application system
  • Ore scale measurement method based on deep learning and application system
  • Ore scale measurement method based on deep learning and application system

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Experimental program
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Embodiment 1

[0084] refer to Figure 1-2 , a method of ore scale measurement based on deep learning, including:

[0085] S1. Obtain the image of the ore block, and convert the frame of the video into a picture according to a certain time interval;

[0086] S2. Preprocessing the ore block image into a marked image, dividing the processed marked image into a training sample and a test sample;

[0087] S3. Excluding abnormal marked image data;

[0088] S4, using the processed training samples to train the preset RetinaNet target recognition network;

[0089] S5. Input the test sample to the target recognition network to obtain a target recognition result and calculate the ore size.

[0090] refer to image 3 , the step of obtaining the ore block image in the step S1 includes:

[0091] S11, installing a camera at a position where the vertical distance above the belt is h, the focal length of the camera is f, and the camera can be installed at multiple angles to achieve multi-directional m...

Embodiment 2

[0131] refer to Figure 8-9 , a deep learning-based ore scale measurement application system based on embodiment 1, comprising: a video acquisition system, a detection and recognition system, a business system and a background production management system; the video acquisition system collects belt images through a camera, and passes the images The queue is sent to the detection and identification system; the detection and identification system receives the video frames collected by the video acquisition system, and the trained RetinaNet target recognition network outputs the size of the ore block, and notifies the business of the ore block of abnormal size through the message queue system, the detection and identification system is connected with the video acquisition system 11; the business system provides functions such as operator interface, real-time status monitoring and log management, and the business system is connected with the detection and recognition system; the ba...

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Abstract

The invention discloses an ore scale measurement method based on deep learning and an application system. The method comprises the following steps: obtaining an ore block image; image preprocessing: processing the implemented ore block image into a marked image, and dividing the marked image subjected to processing into training sample boxes and test samples; removing the abnormal marked image data; training a preset RetinaNet target recognition network by using the processed training sample; inputting the test sample to a target identification network to obtain a target identification result,and calculating the size of the ore; the invention discloses an ore scale measurement method based on deep learning and an application system. The RetinaNet target recognition network is trained by adopting a labeled ore image sample; the trained network model is obtained to be used for classifying and positioning the ore blocks, the real sizes of the ore blocks are calculated, complex features do not need to be extracted manually, the detection efficiency is high, and the problem that efficiency is low in traditional ore scale measurement is solved.

Description

technical field [0001] The invention relates to the technical field of ore size image detection, in particular to an ore size measurement method and application system based on deep learning. Background technique [0002] Non-ferrous metals are an important part of contemporary energy, information technology and modern materials, and an important foundation for the development of modern social economy and high technology. At present, the scale of mining and dressing of non-ferrous metal mines in my country is small, and the degree of automation and informatization is low, resulting in low utilization rate of mineral resources, serious energy consumption in the production process, resulting in a large waste of mineral resources, and also makes mining enterprises lack Sufficient international competitiveness. Most of the ores mined by mines are lean ores containing a large amount of gangue, except for a few rich in useful ores. For the metallurgical industry, due to the low c...

Claims

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Application Information

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IPC IPC(8): G06T7/60G01B11/00G06K9/62G06F9/54
CPCG06T7/60G01B11/00G06F9/546G06T2207/10016G06T2207/20081G06T2207/20084G06T2207/30184G06F2209/548G06F18/241
Inventor 段章领金柳颀刘邵凡
Owner 合肥合工安驰智能科技有限公司
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