Agriculture Reference
In-Depth Information
19. NASA
Earth
Observatory.
20. Moran MS, Inoue Y, Barnes EM (1997) Opportunities and limitations for image-based remote
sensing in precision crop management. Remote Sens Environ 61:319-346
21. MESH: Mapping European Seabed Habitats.
http://www.searchmesh.net/default.aspx?page=1726
22. Robert PC (1997) Remote sensing: a potentially powerful technique for precision agriculture.
In: Proceedings of the land satellite information in the next decade II, American Society for
Photogrammetry and Remote Sensing, Washington, DC
23. Zhang X, Shi L, Jia X, Seielstad G, Helgason C (2010) Zone mapping application for precision-
farming: a decision support tool for variable rate application. Precision Agric 11:103-114.
doi:
10.1007/s11119-009-9130-4
24. ArcGIS Help 10.1—Cell size of raster data—ArcGIS Resource Center.
http://resources.arcgis.
25. Ahamed T, Tian L, Zhang Y, Ting KC, Ting KC (2011) A review of remote sensing methods
for biomass feedstock production. Biomass Bioenergy 35(7):2455-2469
26. Rees WG (2013) Physical principles of remote sensing, 3rd edn. Cambridge University Press,
Cambridge
27. Thenkabail PS, Smith RB, De-Pauw E (2000) Hyperspectral vegetation indices for determin-
ing agricultural crop characteristics. Remote Sens Environ 71:158-182
28. Shaw DR (2005) Translation of remote sensing data into weed management decisions. Weed
Sci 53(2):264-273
29. Sawyer JE (1994) Concepts of variable rate technology with considerations for fertilizer appli-
cation. J Prod Agric 7:195-201
30. Ahamed T, Tian L, Zhang Y, Xiong Y, Zhao B, Jiang Y, Ting KC (2010) Site-specifi c manage-
ment for biomass feedstock production: development of remote sensing data acquisition sys-
tems, international conference on precision agriculture, July 19-21, Denver, Colorado
31. Ahamed T, Tian L, Jiang Y, Zhao, B, Liu H, Ting KC (2012) Tower remote-sensing system for
monitoring energy crops; image acquisition and geometric corrections. Biosyst Eng 112(2):
93-107. doi
:
10.1016/j.biosystemseng.2012.03.003
32. Zhao B, Tian L, Gao F, Ting KC, Zhao Y (2011) Development of crop close proximity mea-
surements vehicle for miscanthus, presentation at the 2011 meeting of the American society of
agricultural and biological engineers, August 7-10, Louisville, KY
33. Ahamed T, Tian L, Gadanah C Jr, Pinto FAC, Liu H, Ting, KC (2010) Spectral sensing for dry
matter biomass estimation of energy crops, annual international meeting, American society of
agricultural and biological engineers, ASABE Paper Number: 1008737, June 20-22, Pittsburgh
34. Jiang Y (2010) Geo-referencing and mosaicing agricultural fi eld images from a close-range
sensing platform. Master dissertation, University of Illinois at Urbana-Champaign, Department
of Agricultural and Biological Engineering, Champaign, IL
35. Xiang H, Tian L (2011) Development of a low-cost agricultural remote sensing system based
on an autonomous unmanned aerial vehicle (UAV). Biosyst Eng 108(2):174-190
36. Morris S, Jones H (2004) Examples of commercial applications using small UAVs. In: AIAA
3rd “Unmanned Unlimited” technical conference, workshop and exhibit, 20-23 September
2004, Chicago, IL
37. Herwitz SR, Johnson LF, Dunagan SE, Higgins RG, Sullivan D, Zheng J et al (2004) Imaging
from an unmanned aerial vehicle: agricultural surveillance and decision support. Comput
Electron Agric 44(1):49-61
38. Hunt ER, Walthall CL, Daughtry CST (2005) High-resolution multispectral digital photogra-
phy using unmanned airborne vehicles. In: Twentieth biennial workshop on aerial photogra-
phy, videography, and high-resolution digital imagery for resource assessment, Weslaco, TX
Search WWH ::
Custom Search