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Description

PRecision Sprayer Ground Robot

Steep slope vineyards account for 10% - 12% of European viticulture land area and produce some of the highest value wines. Row sizes are quite narrow, typically 90 – 150cm. Currently, where possible, treatments are applied from a small tractor-based system that considers an air-blast based system. Losses are high and ground compaction is a problem.
Inspired by this problem, this project develops a modular and precision terrestrial sprayer robot – the Precision Robotic Sprayer (PRySM) - capable of operating autonomously on rugged terrain with steep slopes and under the most diverse ground conditions. A robotic platform will be adapted to work on hard terrain conditions and whose dimensions and locomotion mechanism allow tight manoeuvring in the context of mountain vineyards with very narrow rows. To this robot will be added advanced algorithms for self-localization and navigating using LiDAR and GNSS receiver data to support precision spraying tasks. The project will develop and integrate a novel precision autonomous spray tool into the developed robotic platform.
The PRYSM robot will be tested and validated in a steep slope vineyard and perform an autonomous precision spraying operation during the first demonstration.
This project has received funding from the ESMERA EU Funded project which belongs to the European Union’s Horizon 2020 research and innovation programme under grant agreement No 780265
Pulverizadores Rocha

Details

Details

  • Acronym

    PRySM
  • Start

    01st May 2020
  • Global Budget

    190.750,00 €
  • State

    Closed
  • Effective End

    10th February 2022
  • End

    10th February 2022
  • Responsible

    Filipe Neves Santos
  • Financing

    93.250,00 €
  • Funded by

Team
001

Associated Centres

CRIIS

Centre

Robotics in Industry and Intelligent Systems