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      실시간 골재의 입도분포 측정을 위한 비전시스템 개발 = Development of a Vision System for the Measurement of the Particle Size Distribution of Aggregates

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      https://www.riss.kr/link?id=A109414706

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      다국어 초록 (Multilingual Abstract) kakao i 다국어 번역

      The vision-based aggregate analysis system is a device that captures images of aggregates transferred to a conveyor belt and analyzes these images to measure the particle size distribution of the aggregates. While this system offers many technological advantages, it also has limitations since the size of aggregates is determined solely from images. In particular, the need to convert the size indicated in the image to actual size and the inability to recognize aggregates within the aggregate pile negatively impact measurement accuracy.
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      The vision-based aggregate analysis system is a device that captures images of aggregates transferred to a conveyor belt and analyzes these images to measure the particle size distribution of the aggregates. While this system offers many technological...

      The vision-based aggregate analysis system is a device that captures images of aggregates transferred to a conveyor belt and analyzes these images to measure the particle size distribution of the aggregates. While this system offers many technological advantages, it also has limitations since the size of aggregates is determined solely from images. In particular, the need to convert the size indicated in the image to actual size and the inability to recognize aggregates within the aggregate pile negatively impact measurement accuracy.

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      참고문헌 (Reference)

      1 N. H. Maerz, "Wipfrag Image Based Granulometry System" 91-99, 1996

      2 O. Guyot, "Visiorock, an Integrated Vision Technology for Advanced Control of Comminution Circuits" 1227 (1227): 1227-1235, 2004

      3 김대지 ; 정진태 ; 이창선 ; 송창헌, "Transfer Force and Contribution Analysis of Cone Crusher" 19 (19): 77-84, 2022

      4 송은지 ; 김태윤 ; 김효빈 ; 김경호 ; 황성호, "Real-time Speed Sign Recognition Method Using Virtual Environments and Camera Images" 20 (20): 92-99, 2023

      5 C. Y. Kuo, "Morphological Study of Coarse Aggregates using Image Analysis" 10 (10): 135-142, 1998

      6 K. H. Lee, "Gradation Curve of Coarse Aggregate by Digital Image Analysis" 2 (2): 69-78, 2011

      7 황택진 ; 조재윤 ; 이관호, "Gradation Curve of Aggregate using Digital Image Process" 10 (10): 31-37, 2010

      8 M. K. Seo, "Development of Vision System Capable of Analyzing Real-time Aggregate Size" S8 (S8): 26-28, 2019

      9 M. K. Seo, "Development of Test Bench for Verification of Performance of Vision System for Aggregate Monitering" 2316-2316, 2022

      10 서명국 ; 권진욱 ; 정황훈 ; 주정함 ; 김영진, "Development of Cutting Route Recognition Technology of a Double-Blade Road Cutter Using a Vision Sensor" 20 (20): 8-15, 2023

      1 N. H. Maerz, "Wipfrag Image Based Granulometry System" 91-99, 1996

      2 O. Guyot, "Visiorock, an Integrated Vision Technology for Advanced Control of Comminution Circuits" 1227 (1227): 1227-1235, 2004

      3 김대지 ; 정진태 ; 이창선 ; 송창헌, "Transfer Force and Contribution Analysis of Cone Crusher" 19 (19): 77-84, 2022

      4 송은지 ; 김태윤 ; 김효빈 ; 김경호 ; 황성호, "Real-time Speed Sign Recognition Method Using Virtual Environments and Camera Images" 20 (20): 92-99, 2023

      5 C. Y. Kuo, "Morphological Study of Coarse Aggregates using Image Analysis" 10 (10): 135-142, 1998

      6 K. H. Lee, "Gradation Curve of Coarse Aggregate by Digital Image Analysis" 2 (2): 69-78, 2011

      7 황택진 ; 조재윤 ; 이관호, "Gradation Curve of Aggregate using Digital Image Process" 10 (10): 31-37, 2010

      8 M. K. Seo, "Development of Vision System Capable of Analyzing Real-time Aggregate Size" S8 (S8): 26-28, 2019

      9 M. K. Seo, "Development of Test Bench for Verification of Performance of Vision System for Aggregate Monitering" 2316-2316, 2022

      10 서명국 ; 권진욱 ; 정황훈 ; 주정함 ; 김영진, "Development of Cutting Route Recognition Technology of a Double-Blade Road Cutter Using a Vision Sensor" 20 (20): 8-15, 2023

      11 서명국 ; 서명국 ; 이호연, "Development of Aggregate Recognition Algorithm for Analysis of Aggregate Size and Distribution Attributes" 19 (19): 16-22, 2022

      12 J. Yang, "Detection of Size of Manufactured Sand Particles based on Digital Image Processing" 13 (13): e0206135-, 2018

      13 N. H. Maerz, "Automated Online Optical Sizing Analysis" 250-269, 2001

      14 F. Altuhafi, "Analysis of an Image-based Method to Quantify the Size and Shape of Sand Particles" 139 (139): 1290-1307, 2013

      15 A. Tosun, "A modified Wipfrag Program for Determining Muckpile Fragmentation" 118 (118): 1113-1199, 2018

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