Development of a Robotic Harvesting Mechanism for Button Mushrooms

IF 1.4 4区 农林科学 Q3 AGRICULTURAL ENGINEERING Transactions of the ASABE Pub Date : 2021-01-01 DOI:10.13031/TRANS.14194
Mingsen Huang, Xiaohu Jiang, Long He, D. Choi, J. Pecchia, Yaoming Li
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引用次数: 5

Abstract

HighlightsA robotic mushroom picking mechanism was developed, including positioning, picking, and stipe trimming.The picking end-effector was designed based on a bending motion around the stipe-substrate joint.The overall success rate of the developed picking mechanism reached 91.4%.Acting time and air pressure for the suction cup were studied in mushroom bruise level tests.Abstract. Button mushroom (Agaricus bisporus) harvesting mainly relies on costly manpower, which is time-consuming and labor-intensive. Robotic harvesting is an alternative method to address this challenge. In this study, a robotic mushroom picking mechanism was designed, including a picking end-effector based on a bending motion, a four degree-of-freedom (DoF) positioning end-effector for moving the picking end-effector, a mushroom stipe trimming end-effector, and an electro-pneumatic control system. A laboratory-scale prototype was fabricated to validate the performance of the mechanism. Bruise tests on the mushroom caps were also conducted to analyze the influence of air pressure and acting time of the suction cup on bruise level. The test results showed that the picking end-effector was successfully positioned to the target locations. The success rate of the picking end-effector was 90% at first pick and increased to 94.2% after second pick. The main reason for the failures was inclined growing condition of those mushrooms, resulting in difficulties in engaging the mushroom cap with the suction cup facing straight downward. The trimming end-effector achieved a success rate of 97% overall. The bruise tests indicated that the air pressure was the main factor affecting the bruise level, compared to the suction cup acting time, and an optimized suction cup may help to alleviate the bruise damage. The laboratory test results indicated that the developed picking mechanism has potential to be implemented in automatic mushroom harvesting. Keywords: Bruise test, End-effector, Mushroom, Robotic harvesting.
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纽扣菇机器人采收机构的研制
开发了一种蘑菇采摘机器人机构,包括定位、采摘和修剪。基于杆-基板结合部的弯曲运动设计了拾取末端执行器。开发的采摘机制总体成功率达到91.4%。研究了蘑菇挫伤水平试验中吸盘的作用时间和空气压力。钮扣菇(Agaricus bisporus)的采收主要依靠昂贵的人力,费时费力。机器人收割是解决这一挑战的另一种方法。设计了一种蘑菇采摘机器人机构,包括基于弯曲运动的采摘末端执行器、用于移动采摘末端的四自由度定位末端执行器、蘑菇柄修剪末端执行器和电-气控制系统。制作了实验室规模的原型来验证机构的性能。对蘑菇帽进行了擦伤试验,分析了空气压力和吸盘作用时间对擦伤程度的影响。试验结果表明,拾取末端执行器成功定位到目标位置。拾取末端执行器第一次拾取的成功率为90%,第二次拾取的成功率为94.2%。失败的主要原因是蘑菇生长条件倾斜,导致蘑菇帽与吸盘垂直向下啮合困难。修整末端执行器总体成功率为97%。瘀伤试验结果表明,空气压力是影响瘀伤程度的主要因素,而吸盘的作用时间是影响瘀伤程度的主要因素,优化吸盘有助于减轻瘀伤损伤。实验室试验结果表明,所研制的采摘机构具有实现香菇自动采收的潜力。关键词:瘀伤试验;末端执行器;蘑菇;
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来源期刊
Transactions of the ASABE
Transactions of the ASABE AGRICULTURAL ENGINEERING-
CiteScore
2.30
自引率
0.00%
发文量
0
审稿时长
6 months
期刊介绍: This peer-reviewed journal publishes research that advances the engineering of agricultural, food, and biological systems. Submissions must include original data, analysis or design, or synthesis of existing information; research information for the improvement of education, design, construction, or manufacturing practice; or significant and convincing evidence that confirms and strengthens the findings of others or that revises ideas or challenges accepted theory.
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