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Thésaurus IAMM > ECONOMIE > ECONOMIE AGRICOLE > SYSTEME DE PRODUCTION > AGRICULTURE NUMERIQUE > AGRICULTURE DE PRECISION
AGRICULTURE DE PRECISION |
Documents disponibles dans cette catégorie (36)
Article
V. Sharma ; A.K. Tripathi ; H. Mittal |With increasing population, the demand for agricultural productivity is rising to meet the goal of 'Zero Hunger'. Consequently, farmers have optimized the agricultural activities in a sustainable way with the modern technologies. This integratio[...]Article
A. Casson ; B. Ortuani ; V. Giovenzana ; L. Brancadoro ; S. Corsi ; O. Gharsallah ; R. Guidetti ; A. Facchi |Viticulture is gradually shifting to more sustainable production systems and a fair number of studies aim at assessing the environmental impacts of different technologies and techniques adopted in the wine production through the Life Cycle Asses[...]Article
Y. Vecchio ; J. Di Pasquale ; T. Del Giudice ; G. Pauselli ; M. Masi ; F. Adinolfi |CONTEXT Precision farming (PF) is a term that is now widespread throughout agricultural systems worldwide. It is studied in many ways, from its strictly technical connotation of a farm management strategy that uses information technology to sup[...]Article
J. Zscheischler ; R. Brunsch ; S. Rogga ; R.W. Scholz |The digitalization of agricultural production and the use of digital data are fundamentally transforming processes, products, and services of the agro-food systems. Digitalization improves efficiency and facilitates sophisticated farm management[...]Article
The increase in world population and the resulting demand for food, water and energy are exerting increasing pressure on soil, water resources and ecosystems. Identification of tools to minimise the related environmental impacts within the food-[...]Article
The digitalization of data has resulted in a data tsunami in practically every industry of data-driven enterprise. Furthermore, man-to-machine (M2M) digital data handling has dramatically amplified the information wave. There has been a signific[...]Article
The implementation of Precision Livestock Farming (PLF) concepts has been pointed out as an indirect strategy that could potentially help mitigating the environmental impacts of livestock production systems. To date, few studies have focused on [...]Article
A. Finco ; D. Bentivoglio ; G. Chiaraluce ; M. Alberi ; E. Chiarelli ; A. Maino ; F. Mantovani ; M. Montuschi ; K.G. Raptis ; F. Semenza ; V. Strati ; F. Vurro ; E. Marchetti ; Manuele Bettelli ; M. Janni ; E. Anceschi ; C. Sportolaro ; G. Bucci |The scarcity of water due to climate change is endangering worldwide the production, quality, and economic viability of growing wine grapes. One of the main mitigation measures to be adopted in the viticulture sector will be an adequate irrigati[...]Article
Agro-management zones recently became the backbone of modern agriculture. Delineating management zones for Variable-Rate Fertilization (VRF) can provide important ecological benefits and better sustainability of the new Egyptian farming projects[...]Article
This paper presents a critical examination of smart farming. I follow other critical analyses in recognizing the centrality of innovation processes in generating smart farming products, services, arrangements, and problematic outcomes. I subsequ[...]Article
Contemporary agriculture is increasingly oriented toward the synergistic adoption of technologies such as the Internet of Things, Internet of Farming, big data analytics, and blockchain to combine resource protection and economic, social, and en[...]Article
T. Bournaris ; M. Correia ; A. Guadagni ; J. Karouta ; A. Krus ; S. Lombardo ; D. Lazaridou ; E. Loizou ; J.R. Marques da Silva ; J. Martínez-Guanter ; A. Michailidis ; S. Nastis ; A. Paltaki ; M. Partalidou ; M. Pérez-Ruiz ; Á. Ribeiro ; C. Valero ; M. Vieri |This paper set out to explore the precision agriculture (PA)-training needs of students studying in agricultural universities in the Euro-Mediterranean region (Greece, Italy, Portugal and Spain). SPARKLE is a Knowledge Alliance Project, funded b[...]Article
The soil profile and its spatial distribution are two essential aspects for promoting sustainable agriculture, with precise inputs in quantity, space, and time. This works objective was to elaborate a digital map of soil fertility considering t[...]Article
Use of Sentinel-2 Satellite for spatially variable rate fertiliser management in a sicilian vineyard
Satellites can be used for producing maps of within-field crop and soil parameters and, consequentially, spatially variable rate crop input application maps. The plant vegetative vigour index (i.e., Normalised Difference Vegetation IndexNDVI) a[...]Article
Nowadays, the sustainability of Greek dairy cattle farms is questionable due to low competitiveness and high GHG emissions. In this context, the BIOCIRCULAR project, funded by the EYDE ETAK, developed a series of alternative practices focusing o[...]Article
CONTEXT Big data applications in agriculture evolve fast, as more experience, applications, good practices and computational power become available. Actual solutions to real-life problems are scarce. What characterizes the adoption of big data p[...]Article
K. Canaj ; A. Parente ; M. D'Imperio ; F. Boari ; V. Buono ; M. Toriello ; A. Mehmeti ; F.F. Montesano |To address sustainability challenges, agricultural advances in Mediterranean horticultural systems will necessitate a paradigmatic shift toward smart technologies, the impacts of which from a life cycle perspective have to be explored. Using lif[...]Article
J. Blasch ; B. van der Kroon ; P. van Beukering ; R. Munster ; S. Fabiani ; P. Nino ; S. Vanino |Precision farming (PF) technologies can help to mitigate the environmental impact of agriculture by reducing fertiliser use and irrigation while saving cost for the farmer. However, these technologies are not widely adopted in Europe. We study f[...]Thèse, Mémoire, Master
S. Saad | 2022Today, technology is an important vector of economic and environmental performance in agriculture. It provides innovative solutions to increase the efficiency of orchards and help in decision-making. Therefore, Blue whale being the leading compa[...]Actes de Congrès ou Communication isolée
Thèse, Mémoire, Master
S. Kartakis | 2022The agricultural sector is one of the responsible industries intensifying climate change, while at the same time is extremely vulnerable to its harmful impacts. Precision agriculture technologies can aid to alleviate environmental damage by redu[...]Thèse, Mémoire, Master
R. Attar | 2022Variable rate application of inputs is currently developing along with technological advances. In this context, xarvio has developed its Field Manager platform. This platform allows a farmer to make variable rate application maps for foliar appl[...]Rapport, Expertise, Working Paper
O. Boughamoura ; M. Requier-Desjardins ; E. Lemaitre-Curri | Montpellier [France] : CIHEAM-IAMM | 2022Ce rapport est basé sur la collecte et lanalyse de 92 projets dagriculture durable en agriculture intégrée, en agriculture biologique, en agriculture de précision et en agriculture de conservation. Ces projets ont été réalisés dans 5 agrosystè[...]Rapport, Expertise, Working Paper
J. McFadden ; F. Casalini ; T. Griffin ; J. Antón | Paris [France] : OCDE | OECD Food, Agriculture and Fisheries Papers | 2022Digitalisation offers the potential to help address the productivity, sustainability and resilience challenges facing agriculture. Evidence on the adoption and impacts of digital agriculture in OECD countries from national surveys and the litera[...]Article
The purpose of this paper is to consider implementation of Artificial Intelligence as a part of Precision Dairy Farming, as a way of processing, analysing and managing Big data, in order to enable sustainable dairy cattle farm. Increasing the vo[...]