Proceedings :: International Society of Precision Agriculture

Proceedings

Find matching any: Reset

Sadler, E

Shaver, T.M

» Add more authors

Add filter to result:

Authors

Kruger, G

van Donk, S

Shaver, T.M

Drew, P

Sudduth, K.A

Sadler, E

Topics

Proximal Sensing in Precision Agriculture

Sensor Application in Managing In-season Crop Variability

Type

Poster

Year

2014

2016

Home » Authors » Results

Authors

Filter results2 paper(s) found.
1. Suitability Of Crop Canopy Sensors For Determining Irrigation Differences In Maize Water is the most limiting factor for agricultural production in the semiarid environment of the western Great Plains of the United States. Dry climate conditions combined with a large availability of ground water has led to crop systems that are dependent on irrigation for maximum yields. An increased emphasis on water is forcing users to find new ways to increase the efficiency of water used for agriculture. Crop canopy sensors may have the potential to determine... G. Kruger, S. Van donk, T.M. Shaver Download paper
2. Development of a Multispectral Sensor for Crop Canopy Temperature Measurement Quantifying spatial and temporal variability in plant stress has precision agriculture applications in controlling variable rate irrigation and variable rate nutrient application. One approach to plant stress detection is crop canopy temperature measurement by the use of thermographic or radiometric methods, generally in the long wave infrared (LWIR) wavelength range. A confounding factor in LWIR canopy temperature estimation is eliminating the effect of the soil background in the image. One approach... P. Drew, K.A. Sudduth, E. Sadler Download paper

Filter results2 paper(s) found.

1. Suitability Of Crop Canopy Sensors For Determining Irrigation Differences In Maize

Water is the most limiting factor for agricultural production in the semiarid environment of the western Great Plains of the United States. Dry climate conditions combined with a large availability of ground water has led to crop systems that are dependent on irrigation for maximum yields. An increased emphasis on water is forcing users to find new ways to increase the efficiency of water used for agriculture. Crop canopy sensors may have the potential to determine... G. Kruger, S. Van donk, T.M. Shaver

Download paper

2. Development of a Multispectral Sensor for Crop Canopy Temperature Measurement

Quantifying spatial and temporal variability in plant stress has precision agriculture applications in controlling variable rate irrigation and variable rate nutrient application. One approach to plant stress detection is crop canopy temperature measurement by the use of thermographic or radiometric methods, generally in the long wave infrared (LWIR) wavelength range. A confounding factor in LWIR canopy temperature estimation is eliminating the effect of the soil background in the image. One approach... P. Drew, K.A. Sudduth, E. Sadler

Download paper