3D Farm Management Information System for Precision Agriculture

  1. Cárdenas, José-Luis 1
  2. Jurado, Juan-Manuel 1
  3. Ortega, Lidia 1
  4. Ramos, María-Isabel 1
  5. Enríquez, Carlos 1
  6. Feito, Francisco 1
  1. 1 University of Jaén, Jaén, Spain
Libro:
INCREaSE 2019

ISBN: 9783030309374 9783030309381

Año de publicación: 2019

Páginas: 778-785

Tipo: Capítulo de Libro

DOI: 10.1007/978-3-030-30938-1_60 GOOGLE SCHOLAR lock_openAcceso abierto editor

Objetivos de desarrollo sostenible

Resumen

This paper presents first steps for the development of a 3D Farm Management Information System (FMIS), which involves a simulation model of a virtual olive tree plantation based on the fusion of real data from different sensors. It may be used for several purposes ranging from improvement of the irrigation system, plant growth estimation with procedural modeling to remote sensing and precision agriculture applications. The main aim is the simulation of several environmental impacts, such as the use of pesticides, improvements for an optimal distribution of irrigation systems, etc. In the initial stages proposed in this paper, the main aim is to set the base for irrigation systems, for which we describe possible applications of existing technologies.

Referencias bibliográficas

  • Howell, T.A., Evett, S.R., O’Shaughnessy, S.A., Colaizzi, P.D., Gowda, P.H.: Advanced irrigation engineering: precision and precise. J. Agric. Sci. Technol A 2(1A), 1 (2012)
  • National Academy of Sciences: Underground Engineering for Suitable Urban Development. The National Academies Press (2013)
  • Kumar, A., Dubey, O., Ghosh, S.: GIS based irrigation water management. IJRET Int. J. Res. Eng. Technol. 3(14) (2014)
  • Polzin, P., Borges, J., Coelho, A.: A decision support method to identify target geographic markets for health care providers. Pap. Reg. Sci. 95(4), 843–863 (2016)
  • Robles-Ortega, M., Ortega, L., Feito, F.: Design of topologically structured geo-database for interactive navigation and exploration in 3D web-based urban information systems. J. Environ. Inform. 19(2) (2012)
  • Soria, G., Ortega, L., Feito, F.R.: Augmented and virtual reality for underground facilities management. J. Comput. Inf. Sci. Eng. 18(4), 041008 (2018)
  • Alouaoui, H., Turki, S.Y., Faiz, S.: Knowledge extraction from geographical databases for land use data production. In: Handbook of Research on Geographic Information Systems Applications and Advancements, IGI Global, pp. 321–343 (2017)
  • Jurado, J., Ortega, L., Feito, F.: 3D GIS based on WebGL for the management of underground utilities. In: XXVII Spanish Computer Graphics Conference (CEIG 2017), Seville, Spain, June 2017, pp. 61–64 (2017)
  • Graciano, A., Rueda, A.J., Ortega, L., Feito, F.R.: Towards a hybrid framework for the visualization and analysis of 3D spatial data. In: Proceedings of the 3rd ACM SIGSPATIAL Workshop on Smart Cities and Urban Analytics, ACM, Article no. 5 (2017)
  • Álamo, S., Ramos, M.I., Feito, F.R., Cañas, J.A.: Precision techniques for improving the management of the olive groves of southern spain. Span. J. Agric. Res. 10(3), 583–595 (2012)
  • Jurado, J.M., Cárdenas, J.L., Ogayar, C.J., Ortega, L., Feito, F.R.: Accurate plant modeling based on the real light incidence. In: 14th International Conference on Computer Graphics Theory and Applications, GRAPP 2019 (2019)
  • Vatsavai, R.R., Ganguly, A., Chandola, V., Stefanidis, A., Klasky, S., Shekhar, S.: Spatiotemporal data mining in the era of big spatial data: algorithms and applications. In: Proceedings of the 1st ACM SIGSPATIAL International Workshop on Analytics for Big Geospatial Data, BigSpatial 2012, New York, NY, USA, ACM, pp. 1–10 (2012)
  • Robles-Ortega, M.D., Ortega, L., Coelho, A., Feito, F.R., de Sousa, A.: Automatic street surface modeling for web-based urban information systems. J. Urban Plann. Dev. 139(1), 40–48 (2013)
  • Brito, P.Q., Stoyanova, J., Coelho, A.: Augmented reality versus conventional interface: is there any difference in effectiveness? Multimedia Tools Appl. 77(6), 7487–7516 (2018)