Robotic Tree-Fruit Harvesting With Telescoping Arms: A Study of Linear Fruit Reachability Under Geometric Constraints

Arikapudi, Rajkishan; Vougioukas, Stavros

doi:10.1109/access.2021.3053490

Cited by 14 publications

(7 citation statements)

References 27 publications

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“…For the last one more specifically the RRT-Connect implementation from the Open Motion Planning Library was mentioned (Botterill et al, 2017). Other than solving the path planning problem studies also focused on the reachability of fruits and how this can be affected by the size of a gripper (Arikapudi & Vougioukas, 2021).…”

Section: Methods For Approaching Of Fruit/targetmentioning

confidence: 99%

Literature study on robotic tree harvesting and pruning : The Next Fruit 4.0 - Multifunctional robot deliverable 1

Blok¹,

Hemming

Nishikawa³

et al. 2022

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This report contains three literature studies. In the literature study on pear detection methods the most relevant and recent publications on deep-learning based image analysis methods for fruit detection have been studied. Four software methods are popular: instance segmentation + 3D vertex normal estimation; extremely accurate instance segmentation; key-point detection and panoptic segmentation. The literature study robotic tree fruit harvesting groups the literature in methods for approaching the fruit/target, gripper requirements and manipulation patterns. For the literature study on machine vision systems for robotic pruning, a closer look is taken to literature describing the sensing system (mainly 2D or 3D cameras), data pre-processing (to create a high quality point clouds and to improve the accuracy) and key-point detection (to define pruning locations).

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Section: Methods For Approaching Of Fruit/targetmentioning

confidence: 99%

Literature study on robotic tree harvesting and pruning : The Next Fruit 4.0 - Multifunctional robot deliverable 1

Blok¹,

Hemming

Nishikawa³

et al. 2022

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“…Fruits can grow both above and below the ground, with above-ground growth including ground-level, vine, and tree growth. The height of the fruits has a significant impact on the design of the driving method and structure of the end-effector [ 40 ].…”

Section: Soft End-effectormentioning

confidence: 99%

Perceptual Soft End-Effectors for Future Unmanned Agriculture

Ye,

Zhao,

Luo

et al. 2023

Sensors

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As consumers demand ever-higher quality standards for agricultural products, the inspection of such goods has become an integral component of the agricultural production process. Unfortunately, traditional testing methods necessitate the deployment of numerous bulky machines and cannot accurately determine the quality of produce prior to harvest. In recent years, with the advancement of soft robot technology, stretchable electronic technology, and material science, integrating flexible plant wearable sensors on soft end-effectors has been considered an attractive solution to these problems. This paper critically reviews soft end-effectors, selecting the appropriate drive mode according to the challenges and application scenarios in agriculture: electrically driven, fluid power, and smart material actuators. In addition, a presentation of various sensors installed on soft end-effectors specifically designed for agricultural applications is provided. These sensors include strain, temperature, humidity, and chemical sensors. Lastly, an in-depth analysis is conducted on the significance of implementing soft end-effectors in agriculture as well as the potential opportunities and challenges that will arise in the future.

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“…The development of agricultural harvesting robots provides a material basis for improving production efficiency, changing the mode of development and enhancing the comprehensive agricultural production capacity [6][7][8][9] . As an important part of agricultural harvesting robots, the harvesting performance of harvesting endeffectors has an important influence on the overall efficiency and performance of harvesting robots [10][11][12] . Therefore, the development and design of an end-effector is of great significance to broccoli harvesting robots.…”

Section: Introductionmentioning

confidence: 99%

Design and experimental study of the end-effector for broccoli harvesting

Zhao,

Xu,

Zhang

et al. 2024

International Journal of Agricultural and Biological Engineering

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The end-effector is an important part of the broccoli harvesting robot. Aiming at the physical characteristics of a large broccoli head and thick stem, a spherical cutting tool broccoli harvesting end-effector was designed in this study. First, the physical characteristics of broccoli were tested, and physical parameters such as the broccoli head diameter and stem diameter of broccoli were measured. The maximum cutting force of broccoli stems under different cutting angles was tested. Second, according to the physical characteristics and harvesting process of broccoli, the end-effector was designed, and the mathematical model of kinematics and dynamics was established. Based on the results of dynamic analysis, the end-effector rod was optimized, and the unilateral width of the slider was 40 mm, the length of the connecting rod was 120 mm, and the length of the crank was 42 mm. The mechanism needed an external driving force of 140.54 N to cut the broccoli stem. Therefore, a 32 mm cylinder with a load rate of 50% was selected as the power source. Finally, the feasibility of the broccoli harvesting endeffector was verified by the harvesting test. Experiments showed that the overall harvesting success rate of the end-effector is 93.3%, and the smoothness rate of the stem section is 83.3%. The harvesting performance of the broccoli end-effector was verified. This lays a foundation for agricultural robots to harvest broccoli.

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Robotic Tree-Fruit Harvesting With Telescoping Arms: A Study of Linear Fruit Reachability Under Geometric Constraints

Cited by 14 publications

References 27 publications

Literature study on robotic tree harvesting and pruning : The Next Fruit 4.0 - Multifunctional robot deliverable 1

Literature study on robotic tree harvesting and pruning : The Next Fruit 4.0 - Multifunctional robot deliverable 1

Perceptual Soft End-Effectors for Future Unmanned Agriculture

Design and experimental study of the end-effector for broccoli harvesting

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