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AGRICULTURE NUMERIQUE |
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Article
D. Urdu ; A.J. Berre ; H. Sundmaeker ; S. Rilling ; I. Roussaki ; A. Marguglio ; K. Doolin ; P. Zaborowski ; R. Atkinson ; R. Palma ; M. Faraldi ; S. Wolfert |Interoperability is a critical challenge in Agri-food digitalisation, aligning with European data strategies and fostering pan-European cooperation, innovation, cost reduction, and market competition. Within the last years, the European Commissi[...]Article
Agriculture 4.0 technologies like Artificial Intelligence (AI), the Internet of Things, Computer Vision, and Robotics, have revolutionized the agricultural sector. But the adoption of digital technologies has arguably created new or exacerbated [...]Article
The past decade has witnessed the rapid development and adoption of machine and deep learning (ML & DL) methodologies in agricultural systems, showcased by great successes in applications such as smart crop management, smart plant breeding, smar[...]Article
L'enjeu est de comprendre dans quelle mesure la digitalisation des exploitations peut rééquilibrer la dépendance des agriculteurs à la filière. Les auteures considèrent la théorie de la dépendance aux ressources et examinent si le numérique est [...]Article
V. Erokhin ; K. Mouloudj ; A.C. Bouarar ; S. Mouloudj ; T. Gao |The scarcity of water resources, climate change, and water-wasting behavior have contributed to a worsening water crisis in many countries. This has raised concerns among farmers and increased pressure on governments. Digital technologies provid[...]Article
M. Ben Jaballah ; M. Ghali ; N. Ben Arfa ; K. Daniel ; G. Kleftodimos ; A. Ridier |Farm-level investment in digital tools is often viewed as a necessary part of the agroecological transition. However, its actual relevance remains unclear due to currently ambiguous definitions of farm investments in general and equipment invest[...]Article
H. Shahab ; M. Iqbal ; A. Sohaib ; F. Ullah Khan ; M. Waqas |The sustainable development goals (SDGs) of the United Nations seek to promote an agriculture sector that can lead change on both a local and global scale. By helping farmers to produce more food sustainably, Internet of Things (IoT)-based agric[...]Article
V. Tascione ; A. Raggi ; L. Petti ; G. Manca |This study aimed to assess the environmental effectiveness of vineyards utilising on-site weather stations integrated with a decision support system (DSS), and to identify the critical hotspots in smart farms that have already obtained integrate[...]Article
This study delves into the intricate interplay between digitalization and sustainability in agriculture, seeking to uncover how digital technologies can be harnessed to elevate and actualize smart agricultural (SA) practices. The research addres[...]Article
With the increasing concern about climate change and its impacts on agriculture, understanding the dynamics of greenhouse gas (GHG) emissions in the European Union (EU) agricultural sector is essential for devising effective mitigation strategie[...]Article
A. Kasimati ; G. Papadopoulos ; V. Manstretta ; M. Giannakopoulou ; G. Adamides ; D. Neocleous ; V. Vassiliou ; S. Savvides ; A. Stylianou |Addressing the urgent sustainability challenges in the wine industry, this study explores the efficacy of sustainability-oriented innovations (SOIs) and smart farming technologies (SFTs) across wine value chains in Cyprus and Italy. Utilising a [...]Article
Amidst the rapid evolution of digital technologies and their prospective implications for agricultural productivity, farmers are increasingly turning to Agriculture 4.0. As digitization permeates every facet of agriculture, the potential for boo[...]Article
A.J. Romera ; M. Sharifi ; S. Charters |Farm systems around the world have become less complex, dominated by monocultures, but at the same time much more complicated due to the increasing demands from society, leading to ever increasing compliance and regulatory requirements. Digital [...]Article
The role of living labs in cultivating inclusive and responsible innovation in precision agriculture
M. Gardezi ; H. Abuayyash ; P.R. Adler ; J.P. Alvez ; R. Anjum ; A.R. Badireddy ; S. Brugler ; P. Carcamo ; D. Clay ; A. Dadkhah ; M. Emery ; J.W. Faulkner ; B. Joshi ; D.R. Joshi ; A.H. Khan ; C. Koliba ; S. Kumari ; J. McMaine ; S. Merrill ; S. Mitra ; S. Musayev ; P.D. Oikonomou ; G. Pinder ; E. Prutzer ; J. Rathore ; T. Ricketts ; D.M. Rizzo ; B.E.K. Ryan ; M. Sahraei ; A.W. Schroth ; S. Turnbull ; A. Zia |Context The emergence of precision agriculture technologies has brought forward new opportunities and challenges in the agricultural sector. Objective We delve into the role of living labs as dynamic platforms for fostering responsible innovatio[...]Article
In the modern era, the imperative of digitalisation to enhance competitiveness spans various sectors, with agriculture being no exception. Agriculture 4.0, strategically positioned to address challenges like climate change, food security, and re[...]Article
This study investigates the impact of ex-ante policy scenarios on conventional farmers intentions to adopt smart farming applications and identifies influential factors. Through survey data collected from 117 conventional farmers, three scenari[...]Article
Agriculture has undergone progressive transformations using ever-evolving technologies to increase productivity and profitability. A new approach to agricultural management based on concepts from the fourth industrial revolution is being gradual[...]