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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 (138)
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
Even more than 30 years after the introduction of precision farming technologies and studies of their benefits in terms of productivity gains and environmental improvements, adoption rates, especially for variable-rate technologies, are very low[...]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
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
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
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
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
M. Masi ; M. De Rosa ; Y. Vecchio ; L. Bartoli ; F. Adinolfi |The adoption of innovations may boost the transition to sustainable agricultural models. Among these innovations, precision farming offers a fundamental contribution to sustainable soil management and the improvement in product quality. The work[...]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
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
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
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
V. Radovic ; B. Pesic ; J. Filipovic ; M. Cosic |The aim of this paper was to show the role and importance of agricultural advisers in the development and implementation of information and communication technologies (ICTs) in a path to the more sustainable agriculture, and achieving the SDG2 Z[...]Article
Acquiring real-time agricultural information for monitoring the crops and their yield predictions are challenging tasks. The real-time data can be used as input to the crop monitoring and yield modeling. However, recording the real-time informat[...]Article
G. Gagliardi ; M. Lupia ; G. Cario ; F. Cicchello Gaccio ; V. D'Angelo ; A.I. Cosma ; A. Casavola |Over the last decade, the increased use of information and communication technology (ICT) in agriculture applications has led to the definition of the concept of precision farming or equivalently smart agriculture. In this respect, the latest pr[...]Article
A. Maroli ; V.S. Narwane ; B.B. Gardas |This research aims to achieve a holistic understanding of the current IoT scenario by conducting a comparative analysis of the prevailing literature regarding IoT applications in the agricultural domain. Also, it proposes a framework for IoT ado[...]Article
Artificial neural networks are one of the most important elements of machine learning and artificial intelligence. They are inspired by the human brain structure and function as if they are based on interconnected nodes in which simple processin[...]Article
Improvements in the sustainability of agricultural production depend essentially on advances in the efficient use of nitrogen. Precision farming promises solutions in this respect. Variable rate technologies allow the right quantities of fertili[...]Article
M.T. Linaza ; J. Posada ; J. Bund ; P. Eisert ; M. Quartulli ; J. Döllner ; A. Pagani ; I.G. Olaizola ; A. Barriguinha ; T. Moysiadis ; L. Lucat |One of the main challenges for the implementation of artificial intelligence (AI) in agriculture includes the low replicability and the corresponding difficulty in systematic data gathering, as no two fields are exactly alike. Therefore, the com[...]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[...]Article
The 4.0 technologies are changing agricultural production processes and with them the agro-food supply chains, fundamental for the competitiveness of the Made in Italy and Basilicata, a region of southern Italy. It has invested in modernization [...]Article
S. van Mourik ; R. van der Tol ; R. Linker ; D. Reyes-Lastiri ; G. Kootstra ; P.G. Koerkamp ; E.J. van Henten |A challenge in modern farming is to find a sustainable way of achieving sufficient production. Precision in dosage, timing and allocation of water, biocides, fertilizer and other inputs is essential, as are such management actions as harvesting,[...]Article
When integrating the Internet of Things (IoT) with Unmanned Aerial Vehicles (UAVs) occurred, tens of applications including smart agriculture have emerged to offer innovative solutions to modernize the farming sector. This paper aims to present [...]Article
S.S. Ali ; R. Al-Tohamy ; E. Koutra ; M.S. Moawad ; M. Kornaros ; A.M. Mustafa ; Y.A.-G. Mahmoud ; A. Badr ; M.E.H. Osman ; T. Elsamahy ; H. Jiao ; J. Sun |The high demand for sufficient and safe food, and continuous damage of environment by conventional agriculture are major challenges facing the globe. The necessity of smart alternatives and more sustainable practices in food production is crucia[...]Article
H. Floch ; P. Gamand ; C. Daignan ; N. Picard ; L. Sandoval |Le secteur agroalimentaire est en pleine évolution pour prendre en compte la réduction de lutilisation des produits phytosanitaires, la sortie du glyphosate, le suivi des cultures en temps réel et la numérisation de lagriculture, tout cela dan[...]Article
R. Giovos ; D. Tassopoulos ; D. Kalivas ; N. Lougkos ; A. Priovolou |One factor of precision agriculture is remote sensing, through which we can monitor vegetation health and condition. Much research has been conducted in the field of remote sensing and agriculture analyzing the applications, while the reviews ga[...]Article
The current COVID-19 global pandemic has amplified the pressure on the agriculture sector, inciting the need for sustainable agriculture more than ever. Thus, in this review, a sustainable perspective of the use of remotely piloted aircraft (RPA[...]Article
W. Liu ; W. Liu ; X.-F. Shao ; C.-H. Wu ; P. Qiao |This review examines literature from 2011 to 2020 on information and communications technologies (ICTs) and blockchain technologies (BTs) in agriculture. To describe the status of the subjects and identify issues for future research, we utilized[...]Article
Today, precision agriculture technologies (PATs) can be considered a tool for the management of the farm which allows the agricultural entrepreneur to optimise inputs, reduce costs, and offer the best quantitative and qualitative agricultural pr[...]Article
The number of tasks that nowadays are accomplished by using unmanned aerial vehicles is rising across many civil applications, including agriculture. Thus, this work aims at providing the reader with an overview of the agronomical use of unmanne[...]