Sweet Pepper Harvesting Robot

    Project: EU research project

    Project Details

    Description

    In modern greenhouses there is a high demand to automate labour. The availability of a skilled workforce that accepts repetitive tasks in harsh greenhouse climate conditions is decreasing rapidly. The resulting increase in labour costs and reduced capacity puts major pressure on the competitiveness of the European greenhouse sector. Present robotization of this labour has entered an high level of technological readiness. However, a gap remains which halts the transition from science to economic and societal impact; the so called ‘Technological Innovation Gap’. In the EU-FP7-project CROPS extensive research has been performed on agricultural robotics. One of the applications was a sweet pepper harvesting robot. It was shown that such a robot is economically and technically viable. The proven hardware and software modules (TRL:6) developed in CROPS will be used as the groundwork. The successful CROPS software modules based on the Robotic-Operating-System (ROS) will be maintained and expanded in SWEEPER. Also the gripper end-effector will be retained. This patent pending module is able to grasp the sweet pepper without the need of an accurate measurement of the position and orientation of the fruit. From the CROPS project, also gained knowledge will directly be put to benefit. In several experiments, it turned out that different growers use different cropping systems ranging in crop density. In SWEEPER, the cropping system itself will be optimized to facilitate robotic harvesting. In CROPS it was concluded that instead of a 9DOF, a 4DOF robot arm is sufficient , greatly reducing costs. To improve the level of robotic cognitive abilities, plant models will be applied to approximate location of sweet peppers. This “model-based vision” will increase and speed up fruit detection. Based on the insights of CROPS, sensors will be placed onto the gripper only. Also a LightField sensor will be introduced which is able to record both colour and 3D information simultaneously.
    AcronymSWEEPER
    StatusFinished
    Effective start/end date1/02/1531/10/18

    Research Output

    Angle estimation between plant parts for grasp optimisation in harvest robots

    Barth, R., Hemming, J. & Van Henten, E. J., 1 Jul 2019, In : Biosystems Engineering. 183, p. 26-46 21 p.

    Research output: Contribution to journalArticleAcademicpeer-review

  • 3 Citations (Scopus)

    Synthetic bootstrapping of convolutional neural networks for semantic plant part segmentation

    Barth, R., IJsselmuiden, J., Hemming, J. & Van Henten, E. J., Jun 2019, In : Computers and Electronics in Agriculture. 161, p. 291-304

    Research output: Contribution to journalArticleAcademicpeer-review

    Open Access
  • 7 Citations (Scopus)

    Data synthesis methods for semantic segmentation in agriculture: A Capsicum annuum dataset

    Barth, R., IJsselmuiden, J., Hemming, J. & van Henten, E. J., 1 Jan 2018, In : Computers and Electronics in Agriculture. 144, p. 284-296

    Research output: Contribution to journalArticleAcademicpeer-review

    Open Access
  • 21 Citations (Scopus)