Agriculture Reference
In-Depth Information
ASABE.2007.327.3. Terminology and definitions for application of crop, animal, or forestry
production and protection agents. Michigan, USA: ASABE.
Ayers, P. D., S. M. Rogowski, and B. L. Kimble. 1990. An investigation of factors affect-
ing sprayer control system performance.
Applied Engineering in Agriculture
, 6(6):
701-706.
Balsari P., G. Oggero, and M. Tamagnone. 2000. Evaluation on different pesticide distribution
techniques on apple orchards.
Intelligent Service Robotics (2010)
, 3: 233-243.
Balsari, P., G. Doruchowiski, P. Marucoo, M. Tamagnone, J. Van de Zande, and M. Wenneker.
2008. A system for adjusting the spray application to the target characteristics. In
Agricultural Engineering International: The CIGR Ejournal
. Manuscript ALNARP 08
002
Vol. X, May 2008.
Barrett, M., and W. W. Witt. 1987. Maximizing pesticide use efficiency. In
Energy in Plant
Nutrition and Pest Control
, ed. Z. R. Helsel,
235-255. New York: Elsevier.
Bennur, P. J., and R. K. Taylor. 2010. Evaluating the response time of a rate controller used with
a sensor-based, variable rate application system.
Applied Engineering in Agriculture
,
26(6): 1069-1075.
Berenstein, R., O. B. Shahar, A. Shapiro, and Y. Edan. 2010. Grape clusters and foliage detec-
tion algorithms for autonomous selective vineyard sprayer.
Intelligent Service Robotics
,
3(4): 233-243.
Bezenek, T. M. 1994. Recognition of juvenile plants. Unpublished MSc thesis, North Dakota
State University, Fargo, ND.
Birchfield, N., J. Ellenberger, and G. Sayles. 2006. Pesticide spray drift reduction technolo-
gies: verification and incentives for use. US Environmental Protection Agency.
Bode, L. E., and S. M. Bretthauer. 2007. Agricultural chemical application technology: a
remarkable past and an amazing future.
Transactions of the ASABE
, 51(2): 391-395.
Brann Jr., J. L. 1956. Apparatus for application of insecticides.
Annual Review of Entomology
,
1: 242-260.
Bretthauer, S., and L. Bode. 2011. New pesticide application technologies.
ASABE Resource:
Engineering & Technology for a Sustainable World
, 18(5): 10.
Brown, D. L., D. K. Giles, M. N. Oliver, and P. Klassen. 2008. Targeted spray technology to
reduce pesticide in runoff from dormant orchards.
Crop Protection
, 27: 545-552.
Budwig, R. S., J. M. McDonald, and T. J. Karsky. 1988. Evaluation of chemical injection
systems for mobile agricultural spray equipment.
ASAE Paper No. 88-1592
, Dec. 1988.
Bui, Q. D. 2005. A new nozzle with variable flow rate and droplet optimization. Presented at
the
2005 ASAE Annual International Meeting
. Paper No: 051125. Tampa Convention
Center, Tampa, FL.
Bui, Q. D. 2006. Nozzle with flow rate and droplet size control capability. US Patent # 7124964
(Issue date Oct 24, 2006).
Cardina, J., D. H. Sparrow, and E. L. McCoy. 1995. Analysis of spatial distribution of common
lambsquarters (
Chenopodium album
) in no-till soybean (
Glycine max
).
Weed Science
,
43(2): 258-268.
Chaplin, J., and C. Wu. 1989. Dynamic modeling of field sprayers.
Transactions of ASAE
,
32(6): 1857−1863.
Clijmans, L., H. Ramon, P. Sas, and J. Swevers. 2000. Sprayer boom motion: Part II. valida-
tion of the model and effect of boom vibration on spray liquid deposition.
Journal of
Agricultural Engineering Research
, 76(2): 121−128.
Campoy, J., J. Gonzalez-Mora, and C. Dima. 2010. Advanced sensing for tree canopy model-
ing and precision spraying.
ASABE Paper No. 1009470
. St. Joseph, MI: ASABE.
Crowe, T. G., D. Downey, D. K. Giles, and D. C. Slaughter. 2005. An electronic sensor to
characterize transient response of nozzle injection for pesticide spraying.
Transaction
of the ASAE
, 48(1): 73-82.
