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Fruit Phantoms for Robotic Harvesting Trials—Mango Example

Rafael Goulart / Dennis Jarvis / Kerry B. Walsh

Experimental trials on the performance of end-effectors for the automated harvest of soft fruit are constrained by seasonal limitations on fruit availability and fruit perishability, necessitating the use of different sets of fruit across time. Consequently, the use of fruit and stalk phantoms, rather than real fruit, is an attractive proposition. In this paper, a process for the cost-effective production of stable fruit phantoms using silicone (polydimethylsiloxane, PDMS) and starch was presented. A preliminary consideration was also presented for the creation of a phantom fruit stalk, involving a wooden dowel or a magnetic latching. Mango fruit phantoms were benchmarked to mango fruit in terms of density, firmness, brittleness, etc.

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Fruit Phantoms for Robotic Harvesting Trials—Mango Example

Rafael Goulart / Dennis Jarvis / Kerry B. Walsh

Experimental trials on the performance of end-effectors for the automated harvest of soft fruit are constrained by seasonal limitations on fruit availability and fruit perishability, necessitating the use of different sets of fruit across time. Consequently, the use of fruit and stalk phantoms, rather than real fruit, is an attractive proposition. In this paper, a process for the cost-effective production of stable fruit phantoms using silicone (polydimethylsiloxane, PDMS) and starch was presented. A preliminary consideration was also presented for the creation of a phantom fruit stalk, involving a wooden dowel or a magnetic latching. Mango fruit phantoms were benchmarked to mango fruit in terms of density, firmness, brittleness, etc.

Fruit Phantoms for Robotic Harvesting Trials—Mango Example

Rafael Goulart / Dennis Jarvis / Kerry B. Walsh

Experimental trials on the performance of end-effectors for the automated harvest of soft fruit are constrained by seasonal limitations on fruit availability and fruit perishability, necessitating the use of different sets of fruit across time. Consequently, the use of fruit and stalk phantoms, rather than real fruit, is an attractive proposition. In this paper, a process for the cost-effective production of stable fruit phantoms using silicone (polydimethylsiloxane, PDMS) and starch was presented. A preliminary consideration was also presented for the creation of a phantom fruit stalk, involving a wooden dowel or a magnetic latching. Mango fruit phantoms were benchmarked to mango fruit in terms of density, firmness, brittleness, etc.

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Title:

Fruit Phantoms for Robotic Harvesting Trials—Mango Example

Contributors:

Rafael Goulart (author) / Dennis Jarvis (author) / Kerry B. Walsh (author)

Published in:

Sustainability, Vol 15, Iss 3, p 1789 (2023)

Publication date:

2023

ISSN:

DOI:

https://doi.org/10.3390/su15031789

Type of media:

Article (Journal)

Type of material:

Electronic Resource

Language:

Unknown

Keywords:

gripper testing , mango , model fruit , model stalk , PDMS , robotic harvesting , Environmental effects of industries and plants , TD194-195 , Renewable energy sources , TJ807-830 , Environmental sciences , GE1-350

Metadata by DOAJ is licensed under CC BY-SA 1.0

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