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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 (140)
Article
Agroecology refers to the greening of agrosystems with the mobilization of ecosystem services in order to limit exogenous inputs, enhance biodiversity and moderate the exploitation of natural resources (Tibi A. and Therond O., 2017). Agroecologi[...]Article
G. Kleftodimos ; L.S. Kyrgiakos ; S. Kartakis ; C. Kleisiari ; M. Vasileiou ; M.D. Kremantzis ; G. Vlontzos |Precision Agriculture Technologies (PATs) are providing a great potential in alleviating adverse impacts arising from climate change. This study evaluates the decision-making process of farmers regarding the adoption and implementation of PATs i[...]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
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
W.A. Varella ; G.C. Oliveira Neto ; E. Stefani ; I. Costa ; R.C. Monteiro ; W. Conde ; W. da Silva Junior ; R.C. Baptestone ; R.D. Goes ; R. Riccotta ; M.A. Gaspar ; P.R. Felisoni ; F.K. Ohashi ; H.D. Nascimento ; A.A. Fernandes ; F.S. Martins |Innovation has been the transforming tool of precision agriculture as a response to population growth and the demand for more food with quality, less waste, food security, and sustainable management of environmental resources. The challenges are[...]Article
M. Vasileiou ; L.S. Kyrgiakos ; C. Kleisiari ; G. Kleftodimos ; G. Vlontzos ; H. Belhouchette ; P.M. Pardalos |In the face of increasing agricultural demands and environmental concerns, the effective management of weeds presents a pressing challenge in modern agriculture. Weeds not only compete with crops for resources but also pose threats to food safet[...]Ouvrage
S. Krishnan, ed. ; A.J. Anand, ed. ; N. Prasanth, ed. ; S. Goundar, ed. ; C. Ananth, ed. | Boca Raton [États-Unis] : CRC Press | 2024Predictive Analysis in Smart Agricultureexplores computational engineering techniques and applications in agriculture development. Recent technologies such as cloud computing, IoT, big data, and machine learning are focused on for smart agricult[...]Ouvrage
S. Lamine ; P.K. Srivastava ; A. Kayad ; F. Muñoz-Arriola ; P.C. Pandey | Oxford [Royaume-Uni] : Academic Press | Earth Observation Series | 2024Remote Sensing in Precision Agriculture: Transforming Scientific Advancement into Innovation compiles the latest applications of remote sensing in agriculture using spaceborne, airborne and drones geospatial data. The book presents case studies[...]Article
S. Balyan ; H. Jangir ; S.N. Tripathi ; A. Tripathi ; T. Jhang ; P. Pandey |Agriculture is essential to the existence of the human race, as well as the foundation of our civilization, because it provides food, fuel, fiber, and other resources necessary for survival; however, it is facing critical challenges due to anthr[...]Article
S. Troiano ; M. Carzedda ; F. Marangon |Precision agriculture is expected to support and strengthen the sustainability of food production. In spite of the demonstrated benefits of the application of Information Technology to improve agricultural practices, such as yield increase and i[...]Article
D. Pasquel ; D. Cammarano ; S. Roux ; A. Castrignanò ; B. Tisseyre ; M. Rinaldi ; A. Troccoli ; J.A. Taylor |CONTEXT Most crop models are designed for point-based modeling and to simulate agronomic variables on their native spatial footprint, i.e. typically as a uniform field-scale value. Precision agriculture needs crop model simulations at sub-field [...]Article
Article
E.M.B.M. Karunathilake ; A.T. Le ; S. Heo ; Y.S. Chung ; S. Mansoor |Precision agriculture employs cutting-edge technologies to increase agricultural productivity while reducing adverse impacts on the environment. Precision agriculture is a farming approach that uses advanced technology and data analysis to maxim[...]Article
V. Higgins ; D. van der Velden ; N. Bechtet ; M. Bryant ; J. Battersby ; M. Belle ; L. Klerkx |Assemblage thinking is an increasingly influential approach in critical studies of food and farming, and particularly in research on new agri-food technology such as precision agriculture (PA). This research is important in highlighting the dist[...]Article
Les changements climatiques actuels mettent la gestion de leau agricole au coeur de nombreux débats. Les sécheresses observées pendant plusieurs années de suite ont entraîné une réduction des ressources hydrique et ont conduit à un nouveau rega[...]Article
Article
Agriculture is facing several very important challenges. Population growth means that more food must be produced to meet nutritional needs. However, this is putting excessive pressure on natural resources, such as water and land, which are heavi[...]Article
P.B. Hegedus ; B. Maxwell ; J. Sheppard ; S. Loewen ; H. Duff ; G. Morales-Luna ; A. Peerlinck |Few mechanisms turn field-specific ecological data into management recommendations for crop production with appropriate uncertainty. Precision agriculture is mainly deployed for machine efficiencies and soil-based zonal management, and the tradi[...]E-Book
D. Cammarano, ed. ; F.K. Van Evert, ed. ; C. Kempenaar, ed. | Cham [Suisse] : Springer | Progress in Precision Agriculture | 2023This book describes how models are used to monitor crops and soils in precision agriculture, and how they are used to support farmers decisions. The introductory section starts with an overview of precision agriculture from the early days of yi[...]Article
A. Pakseresht ; A. Yavari ; S.A. Kaliji ; K. Hakelius |A transition towards a circular economy within the agri-food sector requires the improvement of efficiency in resource utilization, the prevention of food loss or waste, whilst adopting regenerative agricultural practices. In addition to the tec[...]Article
N. Chamara ; M.D. Islam ; G. Bai ; Y. Shi ; Y. Ge |CONTEXT Automated monitoring of the soil-plant-atmospheric continuum at a high spatiotemporal resolution is a key to transform the labor-intensive, experience-based decision making to an automatic, data-driven approach in agricultural production[...]Article
Nowadays, smart irrigation is becoming an essential goal in agriculture, where water and energy are increasingly limited resources. Its importance will grow in the coming years in the agricultural sector where the optimal use of resources 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
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
Parcel-level cropland maps are an essential data source for crop yield estimation, precision agriculture, and many other agronomy applications. Here, we proposed a rice field mapping approach that combines agricultural field boundary extraction [...]Article
L. Mohimont ; F. Alin ; M. Rondeau ; N. Gaveau ; L.A. Steffenel |During the last decades, researchers have developed novel computing methods to help viticulturists solve their problems, primarily those linked to yield estimation of their crops. This article aims to summarize the existing research associated w[...]Article
Predicting crop yields is one of the most challenging tasks in agriculture. It plays an essential role in decision making at global, regional, and field levels. Soil, meteorological, environmental, and crop parameters are used to predict crop yi[...]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[...]