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| B/S dynamic monitoring method of coal mine comprehensive energy consumption based on immune multi-Agent technology |
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Received:May 19, 2023
Revised:May 26, 2023
Accepted:May 31, 2023
Published Online:December 22, 2023
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| DOI: |
| KeyWord:Immune multi-agent technique; Comprehensive energy consumption of coal mine; BS dynamic monitoring; Network communication; |
| Author | Institution |
| Luo Wei |
CHN Energy Group Shendong Coal Group Co.Ltd |
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| Download times: 931 |
| Abstract: |
| In order to further implement the national concept of green, low-carbon and environmental protection development, it is necessary to implement dynamic monitoring of all energy consuming equipment in coal mines. The effective analysis of coal mine production energy consumption is an important basis for putting forward energy saving optimization measures. In order to realize automatic and informationized coal mine energy consumption management, the BS dynamic monitoring method of coal mine comprehensive energy consumption based on immune multi-agent technology is studied. By integrating automatic control theory and computer technology, based on the principle of sub-station control, the equipment types generating energy consumption in coal mine are divided reasonably, and each has a programmable controller. The maximum likelihood estimation method was used to construct a linear equation to determine the location of the monitoring nodes in several unknown nodes. The B/S monitoring architecture is deployed with a variety of communication protocols, and the operation data of coal mine energy consumption equipment is obtained from the metering terminal under the three-layer network structure. The learning model is constructed based on the immune multi-agent technology, and the received data information is analyzed and reasoned to realize the dynamic monitoring of comprehensive energy consumption monitoring in coal mine and complete the method design. The results show that: with different energy consumption equipment as test objects, the proposed method can accurately obtain all the operating information, effectively realize the dynamic monitoring of energy consumption equipment, and provide theoretical basis for its later operation and management, and has application value. |
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