Abstract
Abstract
Purpose of Review
The world-wide demand for agricultural products is rapidly growing. However, despite the growing population, labor shortage becomes a limiting factor for agricultural production. Further automation of agriculture is an important solution to tackle these challenges.
Recent Findings
Selective harvesting of high-value crops, such as apples, tomatoes, and broccoli, is currently mainly performed by humans, rendering it one of the most labor-intensive and expensive agricultural tasks. This explains the large interest in the development of selective harvesting robots. Selective harvesting, however, is a challenging task for a robot, due to the high levels of variation and incomplete information, as well as safety.
Summary
This review paper provides an overview of the state of the art in selective harvesting robotics in three different production systems; greenhouse, orchard, and open field. The limitations of current systems are discussed, and future research directions are proposed.
Publisher
Springer Science and Business Media LLC
Reference53 articles.
1. UN: World population prospects: the 2017 revision, key findings and ad-vance tables. ESA/P/WP/248.https://esa.un.org/unpd/wpp/Publications/Files/WPP2017_KeyFindings.pdf (2017).
2. Kootstra G, Bender A, Perez T, van Henten EJ: Robotics in agriculture. In: M., A., O., K., B., S. (eds.) Encyclopedia of robotics. Springer, Berlin, Heidelberg (2020).
3. van Henten EJ. Greenhouse mechanization: state of the art and future perspective. Acta Hortic. 2006;710:55–69.
4. van Henten EJ, Bac CW, Hemming J, Edan Y: Robotics in protected cultivation. Paper presented at the Proceedings ofthe 4th IFAC conference on modelling and control inagriculture, Espoo, 27–30 Aug 2013.
5. Bac CW, van Henten EJ, Hemming J, Edan Y. Harvesting robots for high-value crops: state-of-the-art review and challenges ahead. J Field Robot. 2014;31(6):888–911.
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