Distributed Sensing System Model for Future Internet Agricultural Application

Sérgio Silva, Salviano Soares, António Valente, António Moreira

2015

Abstract

References

  1. Valente, A., Morais, R., Tuli, A., Hopmans, J. W., & Kluitenberg, G. J. (2006). Multi-functional probe for small-scale simultaneous measurements of soil thermal properties, water content, and electrical conductivity. Sensors and Actuators, A: Physical, 70- 77.
  2. N. Wang, N. Zhang, and M. Wang (2006), Wireless sensors in agriculture and food industry - Recent development and future perspective, Computers and Electronics in Agriculture Journal, vol.50, pp. 114, January 2006.
  3. Davide Di Palma, Luca Bencini, Giovanni Collodi, Gianfranco Manes, Francesco Chiti, Romano Fantacci, and Antonio Manes (2006). Distributed Monitoring Systems for Agriculture based on Wireless Sensor Network Technology, International Journal On Advances in Networks and Services, volume 3, numbers 1 and 2, 2010.
  4. S. Cugati, W. Miller, and J. Schueller, (2003). Automation concepts for the variable rate fertilizer applicator for tree farming, in Proc. of 4th European Conference in Precision Agriculture, June 2003.
  5. Morais, R.; Fernandes, M.A.; Matos, S.G.; Serodio, C.; Ferreira, P.; Reis, M. A ZigBee multipowered wireless acquisition device for remote sensing applications in precision viticulture. Comput. Electron. Agric. 2008, 62, 94-106.
  6. Y. Mori, J.W. Hopmans, A.P. Mortensen, G.J. Kluitenberg, Multifunctional heat pulse probe for simultaneous measurement of soil water content, solute concentration, and heat transport parameters, Vadoze Zone J. 2 (2003) 561-571.
  7. R. Evans and J. Bergman, Relationships Between Cropping Sequences and Irrigation Frequency under Self-Propelled Irrigation Systems in the Northern Great Plains (Ngp), USDA Annual Report, December 2007.
  8. Institute Of Chemistry And Dynamics Of The Geosphere (ICG), SoilNet: A Zigbee based soil moisture sensor network, http://www.fz-juelich.de/icg/icg4/index.php?index=739.
  9. J. Mahan and D. Wanjura, 2004. Upchurch, Design and Construction of a Wireless Infrared Thermometry System, USDA Annual Report, May 2004.
  10. N. Zhang, G. Fan, K. H. Lee, G. J. Kluitenberg, T. M. Loughin, Simultaneous measurement of soil water content and salinity using a frequency-response method, Soil Sci. Soc. Am. J. 68 (2004) 1515-1525.
  11. C. Donfack, Caractérisation de contacts “electrodes-tissus pour les stimulateurs neuro-musculaires implantables, Master's thesis,” Ecole Polytechnique de Montráal, January 2000.
Download


Paper Citation


in Harvard Style

Silva S., Soares S., Valente A. and Moreira A. (2015). Distributed Sensing System Model for Future Internet Agricultural Application . In Doctoral Consortium - DCPECCS, (PECCS 2015) ISBN Not Available, pages 10-14


in Bibtex Style

@conference{dcpeccs15,
author={Sérgio Silva and Salviano Soares and António Valente and António Moreira},
title={Distributed Sensing System Model for Future Internet Agricultural Application},
booktitle={Doctoral Consortium - DCPECCS, (PECCS 2015)},
year={2015},
pages={10-14},
publisher={SciTePress},
organization={INSTICC},
doi={},
isbn={Not Available},
}


in EndNote Style

TY - CONF
JO - Doctoral Consortium - DCPECCS, (PECCS 2015)
TI - Distributed Sensing System Model for Future Internet Agricultural Application
SN - Not Available
AU - Silva S.
AU - Soares S.
AU - Valente A.
AU - Moreira A.
PY - 2015
SP - 10
EP - 14
DO -