论文信息 - Dual-arm Robot Design and Testing for Harvesting Tomato in Greenhouse

Dual-arm Robot Design and Testing for Harvesting Tomato in Greenhouse

Abstract: In order to improve the efficiency of robotic harvesting in unstructured environment, a modular concept of dual-arm robot for harvesting tomatoes is proposed in this paper. The objective to develop a modular robotic system which works based on human-robot collaboration is reached. Due to the complexity of working environment, an artificial recognition approach conducted by operator through marking the tomato object on the graphic user interface is used for tomato recognition and localization. A dual-arm frame equipped with two 3 DoF manipulators and two different type end-effectors used to pick tomatoes is designed and tested respectively. The cooperation of two end-effectors could improve the harvesting efficiency significantly. The EtherCAT bus based control and communication system is adopted to increases the reliability and speed of motion control and data communication. Concerning control software, a graphic user interface was designed to exchange the operator’s commands and display the state information of robot. The performances of field test showed the efficiency of the developed robot system, some shortcomings of the robot were also found for future work.

[1] Heon Hwang,et al. Development of multi-functional tele-operative modular robotic system for greenhouse watermelon , 2003, Proceedings 2003 IEEE/ASME International Conference on Advanced Intelligent Mechatronics (AIM 2003).

[2] Q. Zhang,et al. Sensors and systems for fruit detection and localization: A review , 2015, Comput. Electron. Agric..

[3] Jose L Pons,et al. Design and implementation of an aided fruit‐harvesting robot (Agribot) , 1998 .

[4] Noboru Noguchi,et al. Development of a master-slave robot system for farm operations , 2004 .

[5] Yuanshen Zhao,et al. A Stereo Visual Interface for Manipulating the Grasping Operation of a Fruit-Harvesting Robot , 2014, ICIRA.

[6] Yael Edan. Food and Agriculture Robotics , 2007 .

[7] Yael Edan,et al. Systems Engineering of Agricultural Robot Design , 1994, IEEE Trans. Syst. Man Cybern. Syst..

[8] Zhao Dean,et al. System Design and Control of an Apple Harvesting Robot , 2020, ArXiv.

[9] Ting Yuan,et al. Research on Key Technology of Truss Tomato Harvesting Robot in Greenhouse , 2013 .

[10] Moshe P. Mann,et al. Harvest-order planning for a multiarm robotic harvester , 2014 .

[11] C. E. Schertz,et al. Basic Considerations in Mechanizing Citrus Harvest , 1968 .

[12] Yael Edan,et al. Performance analysis of a human-robot collaborative target recognition system , 2012, Robotica.