Effective Positioning in Cutting Area of a Harvester Using Computer Modelling

A. Makarenko
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Abstract

An improvement of methods and models for preliminary estimation of the performance of harvesters in timber production intends to support better justification of the use of certain harvester types and technologies for specific natural and production conditions. It is possible to increase the accuracy of calculation models with a more complete and realistic description of the production environment and operational processes. The article presents a modelling of the harvester’s movements across cutting areas for selecting a position with the highest number of accessible trees. The investigational process involved the creation of an algorithm along with a simulation model and the statistical processing of the results. The problem-solving process required consideration of the tree’s distribution within the cutting region. The data arrays, which were necessary for efficiency evaluation in the simulation model and its software implementation, were the following: the distance between the working stands of the machine with the maximum number of available trees, the time of cyclic processing, and the number of trees in the area. The results of the statistical analysis of the data are presented with justification from the theoretical laws of probability distribution. The choice of machine working stands, which considered the arrangement of the trees, was estimated using the productivity per hour index. The index was calculated with a constant distance parameter that is equal to the difference between the maximum and the minimum manipulator’s movement, and it was also calculated for a stand with a maximum number of accessible trees. The calculation function for the index involves random variables that characterize the working conditions of the stand. The index itself is conceded as a random variable. The values for it were found by statistical data processing. A comparison of the values determined a high probability of a significant increase in the productivity of the harvester. At the stand with the maximum number of trees, it is estimated at around 8 % with a standard deviation of 0.199. For citation: Makarenko A.V. Effective Positioning in Cutting Area of a Harvester Using Computer Modelling. Lesnoy Zhurnal = Russian Forestry Journal, 2023, no. 4, pp. 120–135. (In Russ.). https://doi.org/10.37482/0536-1036-2023-4-120-135
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利用计算机模型对收割机切割区域进行有效定位
改进初步估计采伐机在木材生产中的性能的方法和模型,目的是为了更好地说明在特定的自然和生产条件下使用某些采伐机类型和技术的理由。通过对生产环境和操作过程的更完整和真实的描述,可以提高计算模型的准确性。文章提出了一个模型的收割机的运动跨越切割区域,以选择一个位置与最高数量的可访问的树木。调查过程包括创建一个算法和一个模拟模型,并对结果进行统计处理。解决问题的过程需要考虑树木在砍伐区域内的分布。仿真模型及其软件实现中效率评价所必需的数据阵列为:机器工作架与最大可用树木数之间的距离、循环处理时间、区域内树木数。从概率分布的理论规律出发,给出了数据统计分析的结果。机器工位的选择考虑了树木的排列,使用每小时生产率指数来估计。该指标是用一个恒定的距离参数来计算的,该参数等于最大和最小机械手运动的差值,并且对于具有最大可达树木数量的林分也进行了计算。该指标的计算函数涉及表征机架工作条件的随机变量。索引本身被认为是一个随机变量。它的值是通过统计数据处理得到的。这些值的比较确定了收割机的生产率显著提高的高概率。在树木数量最多的林分,估计在8%左右,标准差为0.199。引文:Makarenko A.V.。利用计算机建模在收割机切割区域的有效定位。俄罗斯林业杂志,2023年第1期。4,第120-135页。(俄国人)。https://doi.org/10.37482/0536-1036-2023-4-120-135
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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