Please use this identifier to cite or link to this item: http://hdl.handle.net/10983/2541
Title: Revisar el estado de la agricultura de precisión en América
Authors: Bareño Martínez, Heidy Julieth
Director(s): Serrato Panqueba, Beatriz Nathalia, dir.
Keywords: AGRICULTURA
AGRICULTURA DE PRECISIÓN
SISTEMAS TECNOLÓGICOS
TECNOLOGÍA EN AGRICULTURA
PROYECTOS INDUSTRIALES-INNOVACIONES AGRÍCOLAS
CONTROL AUTOMÁTICO
SISTEMAS EXPERTOS [COMPUTADORES]
SISTEMAS DE INFORMACIÓN GEOGRÁFICA
Issue Date: Jul-2015
Abstract: Este proyecto se realiza para evidenciar las herramientas que se utilizan en América, que pueden llegar a mejorar el ambiente del empresario agrícola en Colombia, puesto que sus avances en la agricultura llegan a resaltar los procesos en cuanto al trabajo en el campo, esto se refleja en la calidad de cultivos en la cosecha, espacios geográficos del suelo y sensores que permiten llevar los datos y el muestreo en tiempo real.
Description: Proyecto de Investigación Tecnológica
Bibliography References: ACEVEDO, Cristian Manuel. “Nariz electrónica para determinar el índice de madurez del tomate de árbol (Cyphomandra Betacea Sendt), Universidad de Pamplona, Colombia

ALCANTARA, Camilo.” Mapping abandoned agriculture with multi-temporal MODIS satellite data”. Facultad de Ciencias Naturales, Universidad Autónoma de Querétaro. México.

AQUINO, Santos, Raúl.” Developing a New Wireless Sensor Network Platform and Its Application in Precision Agriculture”. University of Colima. Mexico.

AMPATZIDIS, Y.g. “A wearable module for recording worker position in orchards”, Irrigated Agriculture Research and Extension Center, Center for Precision and Automated Agricultural Systems, Washington State University, 99350 Prosser, WA, USA.

BALCÁZAR, Mario. “Desarrollo de un módulo SIG para el manejo de imágenes multiespectrales orientado a la agricultura de precisión”. Lima: pontificia universidad católica del Perú. Facultad de ingeniería electrónica. Modalidad proyecto de grado. 2011. p.10.

BARRIOS, E. “Implications of local soil knowledge for integrated soil management in Latin América”. Centro Internacional de Agricultura Tropical (CIAT), Cali, Colombia.

BLACKMORE, Simon. “An Information System for Precision Farming", Estados Unidos, 1997.

BULLOCK, D. “From Agronomic Research to Farm management guidelines: A Primer on the economics of Information and Precision Technology Agriculture”. 2000.

BAOJUAN, Zheng “Remote sensing of crop residue and tillage practices: Present capabilities and future prospects”, School of Geographical Sciences and Urban Planning, Arizona State University, Coor Hall, 5th Floor, Tempe, AZ 85281, USA.

CASTAÑEDA SÁNCHEZ, Darío Antonio.” Selección de propiedades del suelo espacialmente relacionadas con producción en el cultivo de banano”. Asociación Argentina ciencia suelo.

CÓRDOBA, Mariano.” Análisis de componentes principales con datos georreferenciados una aplicación en agricultura de precisión”. Córdoba.

CARDENAS, José M. “Application of fuzzy optimization to diet problems in Argentinean farms” Instituto Nacional de Tecnología Agropecuaria (INTA), O.I.T. Tornquist, 8160 Tornquist, Buenos Aires, Argentina.

CHENGHAI Yang.” Evaluating high resolution SPOT 5 satellite imagery for crop identification”. Kika de la Garza Subtropical Agricultural Research Center. USA.

CARDENAS, G. cruz. “Evaluation of four digital classifiers for automated cartography of local soil classes based on reflectance and elevation in Mexico”. Colegio de Postgraduados. Mexico.

CHOWDHURY, Ehsan. “Operational perspective of remote sensing-based forest fire danger forecasting systems”, Department of Geomatics Engineering, Schulich School of Engineering, University of Calgary, 2500 University Dr NW, Calgary, Alberta T2N 1N4, Canada.

CEG, Yang. “Hyperspectral band selection for detecting different blueberry fruit maturity stages”, Bioproducts and Biosystems Engineering Department, University of Minnesota, St. Paul, MN 55108, United States.

CERVANTES, Fernando. “El abandono de la ganadería lechera y reconversión productiva en Chipilo, Puebla”, CIESTAAM, Universidad Autónoma Chapingo Km 38.5 Carretera México-Texcoco 56230, Chapingo, Estado de México.

ESPINOSA, Valentín.” Los canales y márgenes de comercialización de la leche cruda producida en sistema familiar”, Facultad de Medicina Veterinaria y Zootecnia, Universidad Nacional Aut6noma de México, 04510, México, DF.

FRANZEN, D. w. “Use of corn height to improve the relationship between active optical sensor readings and yield estimates”. Business Media 2013. New York.

GARCÍA, Emiliano. Lego, Fernando. “Tecnología Agropecuaria”. Agricultura de precisión. Universidad De Palermo. Facultad de ingeniería UP.2011.

GHERSA, Claudio.” The impacts of traditional and novel herbicide application methods on target plants, non-target plants and production in intensive grasslands”. School of Natural Sciences. Argentina.

GARCIA, Javier. “Wireless sensor network deployment for integrating videosurveillance and data-monitoring in precision agriculture over distributed crops”, Department of Information and Communication Technologies, Technical University of Cartagena, Campus Muralla del Mar, E-30202, Cartagena, Spain.

IORATTE DEMATTÊ, José Luiz.” Precision agriculture for sugarcane management: a strategy applied for Brazilian conditions”. Universidad de São Paulo. Brasil.

JARAMILLO, Jorge. “El cultivo de tomate bajo invernadero”. Internet: (http://corpomail.corpoica.org.co/BACFILES/BACDIGITAL/50546/50546.pdf).

JIMÉNEZ, Daniel.” Analysis of Andean blackberry (Rebus glaucus) production models obtained by means of artificial neural networks exploiting information collected by small-scale growers in Colombia and publicly available meteorological data”. Precision Agriculture and the Construction of Field-Crop Models for Tropical Fruit Species. Cali, Colombia.

KAPETSKY, James McDaid.” Sistemas de información geográfica, sensores remotos y mapeo para el desarrollo y la gestión de la acuicultura marina”.

KROPFF, M.J.” Systems approaches for the design of sustainable agroecosystems”. Department of Agricultural and Biological Engineering Department. University of Florida. USA.

KURTULMUS, Ferhat. “Green citrus detection using ‘Eigen fruit’, color and circular Gabor texture features under natural outdoor conditions”, Department of Agricultural and Biological Engineering, Rogers Hall, Museum Road, University of Florida, Gainesville, FL 32611, USA.

LEIVA. Gabriel A.” Automatic detection of orientation and diseases in blueberries using image analysis to improve their postharvest storage quality”. Pontificia Universidad Católica de Chile, Santiago, Chile.

LOKE, M.H. “Recent developments in the direct-current geoelectrical imaging method”. USA.

MAROTE, Matías L.”Agricultura de precisión”. Universidad de Palermo, Facultad de ingeniería. Argentina.

MORENO, Adolfo. “Un prototipo mecánico para la automatización del proceso de selección del mango tipo exportación”, Ingenierías Universidad de Medellín

MULLA, David. ” Twenty five years of remote sensing in precision agriculture: Key advances and remaining knowledge gaps”, Dept. Soil, Water and Climate, University of Minnesota, USA.

NATALICHIO, Ricardo, “ECO porrtal.net” .Internet :( http://www.ecoportal.net/Temas_Especiales/Transgenicos).

OBERTHÜR, Thomas.” Crop management based on field observations: Case studies in sugarcane and coffee”. Centro de Investigación de la Caña de Azúcar de Colombia (Cenicaña), Apartado Aéreo 9138, Cali, Colombia.

PAZ, Carlos. Avances en la Agricultura de Precisión en Argentina. Argentina. Programa Cooperativo para el Desarrollo Tecnológico Agroalimentario y Agroindustrial del Cono Sur.2002.

PERFETTI, Juan José. “Políticas para el desarrollo de la agricultura en Colombia”. Bogotá D.C., Colombia.

PADILLA, Marc. “Comparing the accuracies of remote sensing global burned area products using stratified random sampling and estimation”, Department of Forest and Natural Resources Management, College of Environmental Science and Forestry, State University of New York, Syracuse, NY 13210, USA.

RINCÓN, Luis E. “Optimization of the Colombian biodiesel supply chain fromoil palm crop based on techno-economic and environmental criteria”. Departamento de Ingeniería Química, Universidad de Antioquia. Colombia.

RODRIGUES, F.A. “Proximal soil sensing for Precision Agriculture: Simultaneous use of electromagnetic induction and gamma radiometrics in contrasting soils”. School of Agricultural Engineering, University of Campinas. Brazil.

REDMAN, Peter. “Feed the worid”. Engineering &Techiiolog”. USA.

SANTANA, Fabiana S.” A reference process for automating bee species identification based on wing images and digital image processing”. Universidad de São Paulo, Rua Arlindo Béttio, Brazil.

SENGUPTA, Subhajit. “Identification and determination of the number of immature green citrus fruit in a canopy under different ambient light conditions”, Computer and Information Science and Engineering, University of Florida, Gainesville, FL, USA.

SIGATOKA NEGRA. Augura “Asociación de bananeros en Colombia”. Internet: (http://www.augura.com.co/index.php?option=com_content&view=article&id=23&It emid=39).

SOARES.J.D.R.” Comparison of techniques used in the prediction of yield in banana plants”. Campus Guanambi, Distrito de Ceraíma, Brazil.

SMEETS, Edward.” The sustainability of Brazilian ethanol an assessment of the possibilities of certified production”. State University of Campinas. Brazil.

SCHELLBERG, Jürgen. “Precision agriculture on grassland: Applications, perspectives and constraints”. Department of Earth System Science and Policy. USA.

SUK, Won. “Sensing systems for precision agriculture in Florida” Agricultural and Biological Engineering Department, University of Florida, Gainesville, FL 32611, United States.

SUDDUTH. K.A.” Accuracy issues in electromagnetic induction sensing of soil electrical conductivity for precision agriculture”. Uni6ersity of Missouri, Columbia. USA.

SHANSHAN, Li.” Practical land monitoring in precision agriculture with sensor networks” Department of Math and Computer Science, California University of Pennsylvania, California, PA 15419, USA.

THOMASSON, J. Alex.” Development of sensor systems for precision agriculture in cotton”. United States Department of Agriculture. USA.

VELASQUEZ, Elena.” Evaluating soil quality in tropical agro ecosystems of Colombia using NIRS”. Centro Internacional of Agricultura Tropical. Cali. Colombia.

WEINZETTEL, Pablo. “Evaluación de tres dispositivos de tomografía eléctrica para la identificación de horizontes petrocálcicos en el suelo”. Universidad Nacional del Centro de la Provincia de Buenos Aires.

WITT, Christian.” Development approach and evaluation of the Nutrient Expert software for nutrient management in cereal crops”. Centro Internacional de Agricultura Tropical. Cali, Colombia.

YUFENG, Ge.” A module-specific post-processing calibration method to improve cotton yield mapping”. Department of Biological & Agricultural Engineering. USA.

ZAMORA, Inés. Tecnologías aplicables en agricultura de precisión, Chile.

ZALAZAR, Marcos, Laboratorio Virtual y Remoto para Simular, Monitorizar y Controlar un Sistema de Riego por Goteo en Olivos, Instituto Nacional de Tecnología Agropecuaria (INTA), EEA San Juan, Argentina.

ZHOU, Jianfeng. “Effect of excitation position of a handheld shaker on fruit removal efficiency and damage in mechanical harvesting of sweet cherry”. Center for Precision and Automated Agricultural Systems, Washington State University, Prosser, WA 99350, USA.
URI: http://hdl.handle.net/10983/2541
Appears in Collections:ACE. Pregrado Electrónica y Telecomunicaciones

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