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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
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
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
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
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
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
Smart irrigation techniques have the potential for improving water application efficiencies at the farm level, thereby helping to reduce the environmental impact of agriculture and providing an economic advantage to farmers. Here we gauge the wi[...]Article
L.A.d.A. Telles ; L.A.d.A. Telles ; J.E.C. Arroyo ; D.H.B. Binoti ; A.S. Lorenzon ; A.R. dos Santos ; G.F. Domingues ; R.T. Resende ; G.E. Marcatti ; D.G.E. Gonzales ; N.L.M. de Castro ; P.H.S. Mota ; B.d.A. Oliveira ; M.L. da Silva |Sustainable production and land use planning are recurring challenges in the agricultural and forestry activities. In this context, a mathematical programming model is proposed that allows for both optimal production planning and its updating, w[...]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[...]Article
M. Medici ; S.M. Pedersen ; M. Canavari ; T. Anken ; P. Stamatelopoulos ; Z. Tsiropoulos ; A. Zotos ; G. Tohidloo |To develop precision agriculture (PA) to its full potential and make agriculture progress toward sustainability and resilience, appropriate criteria for the economic assessment are recognised as being one of the most significant issues requiring[...]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[...]E-Book
K. Schroeder ; J. Lampietti ; G. Elabed | Washington [États-Unis] : Banque Mondiale | Agriculture and Food Series | 2021The digital agriculture revolution holds a promise to build an agriculture and food system that is efficient, environmentally sustainable, and equitable, one that can help deliver the Sustainable Development Goals. Unlike past technological revo[...]Article
The role of agriculture in environmental degradation and climate change has been at the center of a long-lasting and controversial debate. This situation combined with the expected growth in crop demand and the increasing prices of fertilizers a[...]Article
M. Torky ; M. Torky ; A.E. Hassanein |Blockchain quickly became an important technology in many applications of precision agriculture discipline. The need to develop smart P2P systems capable of verifying, securing, monitoring, and analyzing agricultural data is leading to thinking [...]Article
Computer vision technologies have attracted significant interest in precision agriculture in recent years. At the core of robotics and artificial intelligence, computer vision enables various tasks from planting to harvesting in the crop product[...]Article
Article
D. Sarri ; S. Lombardo ; A. Pagliai ; C. Perna ; R. Lisci ; V. De Pascale ; M. Rimediotti ; G. Cencini ; M. Vieri |This study shows a new methodological proposal for wine farm management, as a result of the progressive development of the technological innovations and their adoption. The study was carried out in Italy involving farmers, workers, or owners of [...]Article
I. Cisternas ; I. Velásquez ; A. Caro ; A. Rodriguez |Agriculture production highly depends on water and soil factors which increasingly need to be utilized efficiently. Precision agriculture, through the set of information technologies that it uses, allows to effectively manage these resources. Th[...]Article
M. Fontanet ; M. Fontanet ; E. Scudiero ; T.H. Skaggs ; D. Fernàndez-Garcia ; F. Ferrer ; G. Rodrigo ; J. Bellvert |Irrigation scheduling decision-support tools can improve water use efficiency by matching irrigation recommendations to prevailing soil and crop conditions within a season. Yet, little research is available on how to support real-time precision [...]Article
Farmers representations of the effects of precision livestock farming on human-animal relationships
F. Kling-Eveillard ; C. Allain ; X. Boivin ; V. Courboulay ; P. Créach ; A. Philibert ; Y. Ramonet ; N. Hostiou |Precision livestock farming affects the nature and frequency of farmers daily tasks, specifically in relation to animals. It consequently may modify how farmers consider their animals, the quality of the human-animal relationship and animal wel[...]Article
G. Nikolaou ; D. Neocleous ; A. Christou ; E. Kitta ; N. Katsoulas |The sustainability of irrigated agriculture is threatening due to adverse climate change, given future projections that every one in four people on Earth might be suffering from extreme water scarcity by the year 2025. Pressurized irrigation sys[...]Article
Precision Livestock Farming (PLF) is spreading worldwide for its applications on livestock farms, in both intensive and extensive systems. PLF has started being adopted only recently, but the need of technological support on farm is getting more[...]Article
Y. Ampatzidis ; V. Partel ; L. Costa |Traditional sensing technologies in specialty crops production, for pest and disease detection and field phenotyping, rely on manual sampling and are time consuming and labor intensive. Since availability of personnel trained for field scouting [...]Article
Comment économiser r eau dans les cultures dans un climat qui se réchauffe tout en maintenant la production en quantité et qualité ? Trois agronomes spécialistes des productions végétales ont accepté de répondre à cette question.Article
E.A. Abioye ; M.S.Z. Abidin ; M.S.A. Mahmud ; S. Buyamin ; M.H.I. Ishak ; M.K.I.A. Rahman ; A.O. Otuoze ; P. Onotu ; M.S.A. Ramli |The demand for freshwater is on the increase due to the rapid growth in the world's population while the effect of global warming and climate change cause severe threat to water use and food security. Consequently, irrigation systems are tremend[...]Article
J. Mendes ; T.M. Pinho ; F. Neves dos Santos ; J.J. Sousa ; E. Peres ; J. Boaventura-Cunha ; M. Cunha ; R. Morais |Traditionally farmers have used their perceptual sensorial systems to diagnose and monitor their crops health and needs. However, humans possess five basic perceptual systems with accuracy levels that can change from human to human which are lar[...]Article
Assessing the effectiveness of precision agriculture management systems in mediterranean small farms
L. Loures ; A. Chamizo ; P. Ferreira ; A. Loures ; R. Castanho ; T. Panagopoulos |While the world population continues to grow, increasing the need to produce more and better-quality food, climate change, urban growth and unsustainable agricultural practices accelerate the loss of available arable land, compromising the susta[...]Article
The use of satellites to monitor crops and support their management is gathering increasing attention. The improved temporal, spatial, and spectral resolution of the European Space Agency (ESA) launched Sentinel-2 A + B twin platform is paving t[...]Article
A.P. Antony ; K. Leith ; C. Jolley ; J. Lu ; D.J. Sweeney |In order to feed a growing global population projected to increase to 9 billion by 2050, food production will need to increase from its current level. The bulk of this growth will need to come from smallholder farmers who rely on generational kn[...]Article
Farming faces challenges that increase the adverse effects on farms’ economics, labor, and the environment. Smart farming technologies (SFTs) are expected to assist in reverting this situation. In this work, 1064 SFTs were derived from sci[...]Article
Recent decades have witnessed unprecedented development in the field of biomedical and chemical science due to an economical, precise, and sensitive microelectromechanical system (MEMS) technology. Nevertheless, very few reports have highlighted[...]