SCORPION | Cost effective robots for smart precision spraying

Summary
Spraying in agriculture represents a societal challenge due to its negative impact in human and animal health and in environment. Increasing spraying efficiency towards the objective of “right time, right amount, right place”, involves reduction of losses and, consequently, amount of phytopharmaceuticals used, water usage, and human and animal exposure to pesticides, and the increase of the spraying system availability while reducing labor costs. Furthermore, adoption of new ecological spraying treatments to increase both yield and treatment efficiency is desirable. Agriculture in rough terrain is also challenging, due to the steepness of some terrain, lack of space to manoeuvre, difficulties of communications due to natural obstacles and harsh atmospheric conditions associated.

To cope with these challenges a consortium with complementary precision farming actors was formed for SCORPION project, bringing together steep slope vineyards associations (CERVIM, INNOVI), robotics and agricultural machinery RTD institutions (INESC, EUT, and IMAMOTER, WUR), SMEs and large company (TEYME, Deimos, SPI), and an institution devoted to innovation in the sector (IPN).

SCORPION’s solution will be a safe and autonomous precision spraying tool integrated into a modular unmanned tractor (robotics platform). It will focus on steep slope vineyards but with impact in other high-value permanent crops (olive groves and fruiticulture). SCORPION’ will consider Global Navigation Satellite System (EGNSS) receiver (triple frequency, PPP, OS-NMA, HAS) fused with other sensors, to increase the solution reliability, accuracy and safeness, and to enable autonomous ultraviolet light treatments (to eliminate partial need of phytopharmaceuticals) and to allow high precision spraying in permanent crops.

SCORPION will bring the TRL of the technologies involved from 5 to 7 and will originate a modular spraying robot. These four modules can be explored independently or together.
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More information & hyperlinks
Web resources: https://cordis.europa.eu/project/id/101004085
Start date: 01-01-2021
End date: 31-12-2023
Total budget - Public funding: 2 501 104,00 Euro - 2 270 606,00 Euro
Cordis data

Original description

Spraying in agriculture represents a societal challenge due to its negative impact in human and animal health and in environment. Increasing spraying efficiency towards the objective of “right time, right amount, right place”, involves reduction of losses and, consequently, amount of phytopharmaceuticals used, water usage, and human and animal exposure to pesticides, and the increase of the spraying system availability while reducing labor costs. Furthermore, adoption of new ecological spraying treatments to increase both yield and treatment efficiency is desirable. Agriculture in rough terrain is also challenging, due to the steepness of some terrain, lack of space to manoeuvre, difficulties of communications due to natural obstacles and harsh atmospheric conditions associated.

To cope with these challenges a consortium with complementary precision farming actors was formed for SCORPION project, bringing together steep slope vineyards associations (CERVIM, INNOVI), robotics and agricultural machinery RTD institutions (INESC, EUT, and IMAMOTER, WUR), SMEs and large company (TEYME, Deimos, SPI), and an institution devoted to innovation in the sector (IPN).

SCORPION’s solution will be a safe and autonomous precision spraying tool integrated into a modular unmanned tractor (robotics platform). It will focus on steep slope vineyards but with impact in other high-value permanent crops (olive groves and fruiticulture). SCORPION’ will consider Global Navigation Satellite System (EGNSS) receiver (triple frequency, PPP, OS-NMA, HAS) fused with other sensors, to increase the solution reliability, accuracy and safeness, and to enable autonomous ultraviolet light treatments (to eliminate partial need of phytopharmaceuticals) and to allow high precision spraying in permanent crops.

SCORPION will bring the TRL of the technologies involved from 5 to 7 and will originate a modular spraying robot. These four modules can be explored independently or together.

Status

SIGNED

Call topic

SU-SPACE-EGNSS-3-2019-2020

Update Date

27-10-2022
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Horizon 2020
H2020-EU.2. INDUSTRIAL LEADERSHIP
H2020-EU.2.1. INDUSTRIAL LEADERSHIP - Leadership in enabling and industrial technologies
H2020-EU.2.1.6. INDUSTRIAL LEADERSHIP - Leadership in enabling and industrial technologies – Space
H2020-EU.2.1.6.3. Enabling exploitation of space data
H2020-SPACE-EGNSS-2019
SU-SPACE-EGNSS-3-2019-2020 EGNSS applications fostering societal resilience and protecting the environment