An Optimal Algorithm for Planning Shearer Trailing Drum Cutting Path

An Optimal Algorithm for Planning Shearer Trailing Drum Cutting Path

The intelligent adaptive cutting of the shearer is one of the key technologies to realize the intelligent working face. However, since the “memory cut” technology is the mainstream technology, which cannot actively adapt to the coal seam variations, the trailing drum usually cuts at a fixed height w...

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Main Authors: Hong Zhang, Yunbing Hou, Zhenming Sun, Zhen Li, Shanjun Mao, Mei Li, Jinzheng Wang
Format: Article
Language:English
Published: Hindawi Limited 2021-01-01
Series:Shock and Vibration
Online Access:http://dx.doi.org/10.1155/2021/1354705
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spelling doaj-25897add86664e2fa7d961650f7896772021-08-30T00:01:20ZengHindawi LimitedShock and Vibration1875-92032021-01-01202110.1155/2021/1354705An Optimal Algorithm for Planning Shearer Trailing Drum Cutting PathHong Zhang0Yunbing Hou1Zhenming Sun2Zhen Li3Shanjun Mao4Mei Li5Jinzheng Wang6School of Energy and Mining EngineeringSchool of Energy and Mining EngineeringSchool of Energy and Mining EngineeringBeijing Longruan Technology Co. Ltd.Research Institute of Remote Sensing and Geographical Information SystemResearch Institute of Remote Sensing and Geographical Information SystemGuotun Coal MineThe intelligent adaptive cutting of the shearer is one of the key technologies to realize the intelligent working face. However, since the “memory cut” technology is the mainstream technology, which cannot actively adapt to the coal seam variations, the trailing drum usually cuts at a fixed height without a planned cutting path. This paper analyzes the shearer’s location characteristics before and after the advancement to propose a complete calculation method for the advancing path of the shearer, which simulates all of its possible advancing paths for subsequent n cuttings. The multitree and depth-first search algorithms are utilized to filter out the optimal advance path under different mining requirements. Simultaneously, this paper indicates that the vertical curvature of the armored face conveyor (AFC) should be considered in the calculation process of the optimal advancing path at different positions of the working face to obtain the shearer’s planned cutting path for subsequent n cuttings. The proposed algorithm in this paper has apparent advantages over the “memory cut” technology and provides a good solution for the intelligent planning of cutting and pitch steering of the shearers.http://dx.doi.org/10.1155/2021/1354705
collection DOAJ
language English
format Article
sources DOAJ
author Hong Zhang
Yunbing Hou
Zhenming Sun
Zhen Li
Shanjun Mao
Mei Li
Jinzheng Wang
spellingShingle Hong Zhang
Yunbing Hou
Zhenming Sun
Zhen Li
Shanjun Mao
Mei Li
Jinzheng Wang
An Optimal Algorithm for Planning Shearer Trailing Drum Cutting Path
Shock and Vibration
author_facet Hong Zhang
Yunbing Hou
Zhenming Sun
Zhen Li
Shanjun Mao
Mei Li
Jinzheng Wang
author_sort Hong Zhang
title An Optimal Algorithm for Planning Shearer Trailing Drum Cutting Path
title_short An Optimal Algorithm for Planning Shearer Trailing Drum Cutting Path
title_full An Optimal Algorithm for Planning Shearer Trailing Drum Cutting Path
title_fullStr An Optimal Algorithm for Planning Shearer Trailing Drum Cutting Path
title_full_unstemmed An Optimal Algorithm for Planning Shearer Trailing Drum Cutting Path
title_sort optimal algorithm for planning shearer trailing drum cutting path
publisher Hindawi Limited
series Shock and Vibration
issn 1875-9203
publishDate 2021-01-01
description The intelligent adaptive cutting of the shearer is one of the key technologies to realize the intelligent working face. However, since the “memory cut” technology is the mainstream technology, which cannot actively adapt to the coal seam variations, the trailing drum usually cuts at a fixed height without a planned cutting path. This paper analyzes the shearer’s location characteristics before and after the advancement to propose a complete calculation method for the advancing path of the shearer, which simulates all of its possible advancing paths for subsequent n cuttings. The multitree and depth-first search algorithms are utilized to filter out the optimal advance path under different mining requirements. Simultaneously, this paper indicates that the vertical curvature of the armored face conveyor (AFC) should be considered in the calculation process of the optimal advancing path at different positions of the working face to obtain the shearer’s planned cutting path for subsequent n cuttings. The proposed algorithm in this paper has apparent advantages over the “memory cut” technology and provides a good solution for the intelligent planning of cutting and pitch steering of the shearers.
url http://dx.doi.org/10.1155/2021/1354705
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