Autonomous UAS-Based Agriculture Applications: General Overview and Relevant European Case Studies

Author:

Merz Mariann,Pedro DárioORCID,Skliros Vasileios,Bergenhem CarlORCID,Himanka Mikko,Houge Torbjørn,Matos-Carvalho João P.ORCID,Lundkvist Henrik,Cürüklü BaranORCID,Hamrén RasmusORCID,Ameri Afshin E.,Ahlberg CarlORCID,Johansen Gorm

Abstract

Emerging precision agriculture techniques rely on the frequent collection of high-quality data which can be acquired efficiently by unmanned aerial systems (UAS). The main obstacle for wider adoption of this technology is related to UAS operational costs. The path forward requires a high degree of autonomy and integration of the UAS and other cyber physical systems on the farm into a common Farm Management System (FMS) to facilitate the use of big data and artificial intelligence (AI) techniques for decision support. Such a solution has been implemented in the EU project AFarCloud (Aggregated Farming in the Cloud). The regulation of UAS operations is another important factor that impacts the adoption rate of agricultural UAS. An analysis of the new European UAS regulations relevant for autonomous operation is included. Autonomous UAS operation through the AFarCloud FMS solution has been demonstrated at several test farms in multiple European countries. Novel applications have been developed, such as the retrieval of data from remote field sensors using UAS and in situ measurements using dedicated UAS payloads designed for physical contact with the environment. The main findings include that (1) autonomous UAS operation in the agricultural sector is feasible once the regulations allow this; (2) the UAS should be integrated with the FMS and include autonomous data processing and charging functionality to offer a practical solution; and (3) several applications beyond just asset monitoring are relevant for the UAS and will help to justify the cost of this equipment.

Funder

European Union

Publisher

MDPI AG

Subject

Artificial Intelligence,Computer Science Applications,Aerospace Engineering,Information Systems,Control and Systems Engineering

Reference21 articles.

1. Commission Regulation (EU) 2019/945 and 2019/947 Easy Access Rules Revision from 13 January 2021 Concerning the Rules and Procedures for the Operation of Unmanned Aircraft https://www.easa.europa.eu/document-library/easy-access-rules/easy-access-rules-unmanned-aircraft-systems-regulation-eu

2. Unmanned Aerial Vehicles in Agriculture: A Survey

3. Unmanned Aircraft System (UAS) Technology and Applications in Agriculture

4. A Review on UAV-Based Applications for Precision Agriculture

5. Unmanned Aerial Vehicles in Agriculture: A Review of Perspective of Platform, Control, and Applications

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