INFLUENCE OF WILD BLUEBERRY FRUIT YIELD, PLANT HEIGHT, AND GROUND SLOPE ON PICKING PERFORMANCE OF A MECHANICAL HARVESTER: BASIS FOR AUTOMATION

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INFLUENCE OF WILD BLUEBERRY FRUIT YIELD, PLANT HEIGHT, AND GROUND SLOPE ON PICKING PERFORMANCE OF A MECHANICAL HARVESTER: BASIS FOR AUTOMATION

机译：野生蓝莓果实产量，植物高度和地面坡对机械收割机采摘性能的影响：自动化基础

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Spatial variability in fruit losses in relation to fruit yield, plant height, and ground slope can help to automate the wild blueberry harvester to improve picking performance. Currently, harvester operators adjust harvester's head height, ground speed, and revolutions per minute (rpm) manually. This is not only laborious but also stressful for operators, as they encounter spatial variability during harvesting. The goal of this work was to identify the automation potential of the harvester to improve harvestable yield and reduce operator's stress, keeping in view the spatial variability. Two fields were selected and test plots were constructed to examine the performance of the harvester in five zones of plant height, fruit yield, and ground slope. Fruit yield plant height and ground slope were recorded from each plot manually to examine their impact on total fruit loss.

机译：果实产量，植物高度和地面坡面有关果实损失的空间变异可以帮助自动化野生蓝莓收割机提高采摘性能。目前，收割机运营商手动调整收割机的头部高度，地面速度和每分钟转速（RPM）。这不仅是艰苦的，而且对运营商的压力很大，因为它们在收获期间遇到空间变异性。这项工作的目标是确定收割机的自动化潜力，以提高收获的产量，减少操作员的压力，保持空间变异性。选择了两个领域并建造了测试图，以检查Harvester在植物高度，水果产量和地面坡的五区的性能。每种绘图手动记录水果产量植物高度和地面斜率，以检查它们对总果实损失的影响。

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《Applied Engineering in Agriculture》 |2017年第5期|共12页
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正文语种 eng
中图分类农业工程;
关键词
Automation; Fruit losses; Spatial variability; Wild blueberry; Zonal analysis;

机译：自动化;水果损失;空间变异性;野生蓝莓;区间分析;

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专利

1. INFLUENCE OF WILD BLUEBERRY FRUIT YIELD, PLANT HEIGHT, AND GROUND SLOPE ON PICKING PERFORMANCE OF A MECHANICAL HARVESTER: BASIS FOR AUTOMATION [J] . Applied Engineering in Agriculture . 2017,第5期

机译：野生蓝莓果实产量，植物高度和地面坡对机械收割机采摘性能的影响：自动化基础
2. Performance evaluation of multiple ground based sensors mounted on a commercial wild blueberry harvester to sense plant height, fruit yield and topographic features in real-time. [J] . Farooque A. A., Chang Y. K., Zaman Q. U., Computers and Electronics in Agriculture . 2013,第Null期

机译：安装在商用野生蓝莓收割机上的多个地面传感器的性能评估，可实时感测植物高度，水果产量和地形特征。
3. IMPACT OF WILD BLUEBERRY FRUIT CHARACTERISTICS AND MACHINE PARAMETERS ON PERFORMANCE OF A MECHANICAL HARVESTER: BASIS FOR AUTOMATION [J] . Applied Engineering in Agriculture . 2020,第3期

机译：野生蓝莓果实特性和机器参数对机械收割机性能的影响：自动化基础
4. Relationship of Plant Density and Plant Height with Wild Blueberry Fruit Yield [C] . Hassan Chattha, Qamar Zamana, Aitazaz Farooque Annual International Meeting of the American Society of Agricultural and Biological Enginners . 2015

机译：植物密度与植物高度与野生蓝莓水果产量的关系
5. Influence of Tomato (Solanum lycopersicum L.) Seedling Grafting on Plant Growth, Fruit Yield and Quality, and Disease Tolerance [D] . Parajuli, Suman 2019

机译：番茄（Solanum lycopersicum L.）幼苗嫁接对植物生长，果实产量和品质以及抗病性的影响
6. DTH8 Suppresses Flowering in Rice Influencing Plant Height and Yield Potential Simultaneously [O] . Xiangjin Wei, Junfeng Xu, Hongnian Guo, 2010

机译：DTH8抑制水稻开花同时影响株高和产量潜力
7. A Reevaluation of Mechanical Harvester vs. Hand-raking for Wild Blueberries [O] . David E. Yarborough 1995

机译：对野生蓝莓的机械收割机与手工耙重新评估
8. Soil, Slope, and Rainfall Affect Height and Yield in 15-Year-Old Southern Pine Plantations [R] . Shoulders, E. , Walker, F. V. 1979

机译：土壤，坡度和降雨影响15年生南方松人工林的高度和产量

INFLUENCE OF WILD BLUEBERRY FRUIT YIELD, PLANT HEIGHT, AND GROUND SLOPE ON PICKING PERFORMANCE OF A MECHANICAL HARVESTER: BASIS FOR AUTOMATION

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