A Prototype for Automated Delimitation of Work Cycles from Machine Sensor Data in Cable Yarding Operations

IF 2.7 2区 农林科学 Q1 FORESTRY
Thomas Varch, Dennis Malle, Gernot Erber, Christoph Gollob, R. Spinelli, R. Visser, A. Holzinger, K. Stampfer
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引用次数: 0

Abstract

The demand for increased efficiency in timber harvesting has traditionally been met by continuous technical improvements in machines and an increase in mechanisation. The use of active and passive sensors on machines enables improvements in aspects such as operational efficiency, fuel consumption and worker safety. Timber harvesting machine manufacturers have used these technologies to improve the maintenance and control of their machines, to select and optimise harvesting techniques and fuel consumption. To a more limited extent, it has also been used to evaluate the time taken to complete tasks. The systematic use of machine sensor data, in a central database or cloud solution is a more recent trend.Machine data is recorded over long periods of time and at high resolution. This data therefore has considerable potential for scientific investigations. For mechanised timber harvesting operations, this could include a better understanding of the interaction between productivity and operational parameters, which first of all requires an efficient determination of cycle time.This study was the first to automatically delimitate tower yarder cycle times from machine sensor data. In addition to machine sensor data, cycle times were collected through a traditional manual time and motion study, and cycle times from both studies were compared to a reference cycle time determined from video footage of the yarder in operation.Based on three days of detailed time study, the total cycle time in the classic manual time (–1.3%) and in the machine sensor data (–1.2%) was only slightly shorter than in the reference study, and the average cycle time did not differ significantly (classic manual time study: –0.08±0.94 min, p=0.997; machine sensor data study: –0.08±0.26 min, p=0.997). However, the accuracy of the machine sensor approach (RMSE=0.92) was more than three times higher than that of the classic manual time study (RMSE=0.27).With the integration of sensors on forestry machines now being commonplace, this study shows that machine sensor data can be reliably interpreted for time study purposes such as machine or system optimisation. This eliminates the need for manual time study, which can be both cumbersome and dependent on the experience of the observer, and allows long term data sets to be obtained and analysed with comparatively little effort. However, a truly automated time study needs to be supplemented with automated determination of and linkage to other operational parameters, such as yarding and lateral yarding distance or load volume.
电缆分段作业中从机器传感器数据自动划分工作周期的原型
提高木材采伐效率的要求传统上是通过不断改进机器技术和提高机械化程度来满足的。在机器上使用主动和被动传感器可以改善操作效率,燃料消耗和工人安全等方面。木材采伐机制造商已经使用这些技术来改善机器的维护和控制,选择和优化采伐技术和燃料消耗。在更有限的范围内,它也被用来评估完成任务所花费的时间。在中央数据库或云解决方案中系统地使用机器传感器数据是最近的趋势。机器数据记录了很长一段时间和高分辨率。因此,这些数据具有相当大的科学研究潜力。对于机械化木材采伐作业,这可能包括更好地了解生产力和操作参数之间的相互作用,这首先需要有效地确定周期时间。这项研究首次从机器传感器数据中自动划分塔码周期时间。除了机器传感器数据外,还通过传统的手动时间和运动研究收集了周期时间,并将这两项研究的周期时间与从运行中的船厂视频片段中确定的参考周期时间进行了比较。在3天的详细时间研究中,经典手工时间(-1.3%)和机器传感器数据(-1.2%)的总周期时间仅略短于参考研究,平均周期时间差异不显著(经典手工时间研究:-0.08±0.94 min, p=0.997;机器传感器数据研究:-0.08±0.26 min, p=0.997)。然而,机器传感器方法的准确性(RMSE=0.92)比经典的人工时间研究(RMSE=0.27)高出三倍以上。随着林业机械上传感器集成的普及,这项研究表明,机器传感器数据可以可靠地解释为时间研究目的,如机器或系统优化。这消除了人工时间研究的需要,这既麻烦又依赖于观察者的经验,并且允许以相对较少的努力获得和分析长期数据集。然而,真正的自动化时间研究需要辅以其他操作参数的自动确定和联动,如码垛和横向码垛距离或载重量。
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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来源期刊
CiteScore
5.20
自引率
12.50%
发文量
23
审稿时长
>12 weeks
期刊介绍: Croatian Journal of Forest Engineering (CROJFE) is a refereed journal distributed internationally, publishing original research articles concerning forest engineering, both theoretical and empirical. The journal covers all aspects of forest engineering research, ranging from basic to applied subjects. In addition to research articles, preliminary research notes and subject reviews are published. Journal Subjects and Fields: -Harvesting systems and technologies- Forest biomass and carbon sequestration- Forest road network planning, management and construction- System organization and forest operations- IT technologies and remote sensing- Engineering in urban forestry- Vehicle/machine design and evaluation- Modelling and sustainable management- Eco-efficient technologies in forestry- Ergonomics and work safety
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