基于污染等级估计的多清洗机器人制造执行系统清洗区域划分方法

Q3 Mathematics

Journal of Institute of Control, Robotics and Systems Pub Date : 2023-10-31 DOI:10.5302/j.icros.2023.23.0117

Jeonghoon Kwak, Heeseok Shin, Hyewon Yoon, Jangseok Oh, Kap-Ho Seo, Kyungsook Lee

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引用次数: 0

摘要

韩国的农产品加工中心(APC)在农产品生产过程中负责预冷、分拣、包装、储存等各种工作。为了解决APC生产过程中产生的灰尘问题，使用了清洁机器人。这些机器人配备了识别APC环境并根据指定模式执行清洁任务的设备。然而，灰尘水平的变化可能导致清洁效果的差异。制造执行系统(MES)可以在生产过程中记录农产品的流动;这些信息可以用来预测尘埃的范围和水平。本研究提出了一种基于MES的高效解决APC粉尘问题的方法。通过设置APC内设备的位置和各自的污染物排放能力，并考虑原料输入量和输出量之间的差异，可以预测各个位置的粉尘水平。基于预测，可以将特定的清洁区域分配给多个清洁机器人。利用MES可以显著提高多个清洁机器人的效率，从3%到高达22%不等。

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Divide Cleaning Area Method for Multi-cleaning Robots Using Manufacturing Execution Systems Based on Contamination-level Estimation

The Agricultural Products processing Center (APC) in Korea performs various tasks such as pre-cooling, sorting, packaging, and storage during the production of agricultural goods. To address the issue of dust occurring during the production processes at the APC, cleaning robots are employed. These robots are equipped to recognize the APC environment and perform cleaning tasks according to a specified pattern. However, variations in dust levels may lead to differences in cleaning effectiveness. Manufacturing Execution Systems (MES) can record the flow of agricultural products during production processes; this information can be utilized to predict dust areas and levels. The present study proposes a method based on MES to efficiently address the issue of dust at the APC. By setting the locations of the equipment within the APC and their respective discharge capacities for contaminants, and by considering the discrepancy between the input and output quantities of raw materials, the dust levels at various locations can be predicted. Based on the prediction, specific cleaning areas can be assigned to multiple cleaning robots. The utilization of MES can thus significantly increase the efficiency of multiple cleaning robots, ranging from 3% to as high as 22%.

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来源期刊

Journal of Institute of Control, Robotics and Systems Mathematics-Applied Mathematics

CiteScore

1.50

自引率

0.00%

发文量

128