Abstract
Strawberry fruit products are of high commercial and consumption value, while difficult to harvest due to their very low mechanical strength and difficulties in identifying them within the plants. Therefore, robots harvesting strawberries should connect four subsystems: vision of detection, delivery arm (manipulator), effector (harvesting head), and finally- a platform increasing the working space adapted to the size of the farm. The presented work of the conceptual working section of a combine for harvesting strawberry fruit from crops, carried out in rows or cultivation ridge, from cultivation on field and/ or under covers will meet the requirements for: work productivity, quality of harvested fruit, reduction of the amount of pollution. To requirements have been met, the developed concept of constructions adopted the principle of operation during the first phase of the harvesting (in the natural distribution of fruit within the plants of strawberries) and the working of the work arm head (based on image analysis, initially general, and in the last phase of detailed) maneuvering in surrounded by harvested fruit and machine.
Highlights
Automated production is an important current trend and future development in the field of agriculture
Construction and use of robots for agricultural production is an important factor enabling the construction of a production environment for high-quality agricultural products
Strawberry production is heavily dependent on human work, with high work costs, especially at harvest [1]
Summary
Automated production is an important current trend and future development in the field of agriculture. Construction and use of robots for agricultural production is an important factor enabling the construction of a production environment for high-quality agricultural products. Strawberry production is heavily dependent on human work, with high work costs, especially at harvest [1]. Several types of end effectors have been developed for harvesting strawberries, such as similar to scissors [3], knives with a suction device [8], as well as grippers with adjustable gripping force [2]. Force-controlled grippers are difficult to use because it is very easy to injure (mechanically damage) delicate fruits [3]. The robot can make one set of fruit in 11.3 seconds, and the success rate (in the form of correctly harvested fruit) was 41.3%
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