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BSE

Derek Heeren and his class work with measuring water content in soil samples in his Irrigation Laboratory and Field Course. July 7, 2022. Photo by Craig Chandler / University Communication.
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Derek Heeren and his class work with measuring water content in soil samples in his Irrigation Laboratory and Field Course. July 7, 2022. Photo by Craig Chandler / University Communication.
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Derek Heeren and his class work with measuring water content in soil samples in his Irrigation Laboratory and Field Course. July 7, 2022. Photo by Craig Chandler / University Communication.
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Derek Heeren and his class work with measuring water content in soil samples in his Irrigation Laboratory and Field Course. July 7, 2022. Photo by Craig Chandler / University Communication.
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Derek Heeren and his class work with measuring water content in soil samples in his Irrigation Laboratory and Field Course. July 7, 2022. Photo by Craig Chandler / University Communication.
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Derek Heeren and his class work with measuring water content in soil samples in his Irrigation Laboratory and Field Course. July 7, 2022. Photo by Craig Chandler / University Communication.
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Biquan Zhao, PhD student in Biological Systems Engineering, and Pascal Izere, master’s student in Biological Systems Engineering, carry an autonomous drone back to the truck. The drone has been photographing a field of triticale at the research fields at 84th and Havelock. Biological Systems Engineering fieldwork with drones for phenotyping fields. June 27, 2022. Photo by Craig Chandler / University Communication.
220627 BSE Drone 545
Pascal Izere, master’s student in Biological Systems Engineering, lands an autonomous drone photographing a field of triticale at the research fields at 84th and Havelock. Biological Systems Engineering fieldwork with drones for phenotyping fields. June 27, 2022. Photo by Craig Chandler / University Communication.
220627 BSE Drone 514
An autonomous drone photographs a field of triticale at the research fields at 84th and Havelock. Biological Systems Engineering fieldwork with drones for phenotyping fields. June 27, 2022. Photo by Craig Chandler / University Communication.
220627 BSE Drone 296
Pascal Izere, master’s student in Biological Systems Engineering, launches an autonomous drone photographing a field of triticale at the research fields at 84th and Havelock. Biological Systems Engineering fieldwork with drones for phenotyping fields. June 27, 2022. Photo by Craig Chandler / University Communication.
220627 BSE Drone 257
Pascal Izere, master’s student in Biological Systems Engineering, launches an autonomous drone photographing a field of triticale at the research fields at 84th and Havelock. Biological Systems Engineering fieldwork with drones for phenotyping fields. June 27, 2022. Photo by Craig Chandler / University Communication.
220627 BSE Drone 226
Biquan Zhao, PhD student in Biological Systems Engineering, changes the batteries on an autonomous drone photographing a field of triticale at the research fields at 84th and Havelock. Biological Systems Engineering fieldwork with drones for phenotyping fields. June 27, 2022. Photo by Craig Chandler / University Communication.
220627 BSE Drone 190
A readout of spectral signatures produced by the team's prototype, which collects the visible and near-infrared wavelengths that bounce back from soils. The graphical user interface of the LabVIEW program showing data collection from the VisNIR multi-sensing penetrometer system. March 18, 2020. Photo by Gregory Nathan / University Communication.
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Nuwan Wijewardane, postdoctoral researcher in biological systems engineering, prepares to gather data from multiple locations by hydraulically plunging a penetrometer prototype into soil which is mounted to a Giddings probe truck. March 18, 2020. Photo by Gregory Nathan / University Communication.
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Nuwan Wijewardane, postdoctoral researcher in biological systems engineering, prepares to gather data from multiple locations by hydraulically plunging a penetrometer prototype into soil which is mounted to a Giddings probe truck. March 18, 2020. Photo by Gregory Nathan / University Communication.
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Nuwan Wijewardane, postdoctoral researcher in biological systems engineering, prepares to gather data from multiple locations by hydraulically plunging a penetrometer prototype into soil which is mounted to a Giddings probe truck. March 18, 2020. Photo by Gregory Nathan / University Communication.
200318 Penetrometer 105
Studio portrait of Hyun Song, Associate Professor, Biological Systems Engineering. September 5, 2019. Photo by Greg Nathan / University Communication.
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Santosh Pitla, associate professor of advanced machinery systems in the Department of Biological Systems Engineering at the University of Nebraska–Lincoln, is currently developing an autonomous tractor using ground robotics. Pitla and his team are testing their driverless tractor at the Agricultural Research and Development Center (ARDC, MEAD). The autonomous tractors are named Flexible Structured Robotic Vehicle (FlexRo), the tractor is currently used for plant phenotyping, which is measuring the physical characteristics of the plant. According to Pitla, cameras are added to the machine to collect images that characterize plant conditions. Photo for the 2019 publication of the Strategic Discussions for Nebraska magazine. July 17, 2019, Photo by Gregory Nathan / University Communication.
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Santosh Pitla, associate professor of advanced machinery systems in the Department of Biological Systems Engineering at the University of Nebraska–Lincoln, is currently developing an autonomous tractor using ground robotics. Pitla and his team are testing their driverless tractor at the Agricultural Research and Development Center (ARDC, MEAD). The autonomous tractors are named Flexible Structured Robotic Vehicle (FlexRo), the tractor is currently used for plant phenotyping, which is measuring the physical characteristics of the plant. According to Pitla, cameras are added to the machine to collect images that characterize plant conditions. Photo for the 2019 publication of the Strategic Discussions for Nebraska magazine. July 17, 2019, Photo by Gregory Nathan / University Communication.
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Santosh Pitla, associate professor of advanced machinery systems in the Department of Biological Systems Engineering at the University of Nebraska–Lincoln, is currently developing an autonomous tractor using ground robotics. Pitla and his team are testing their driverless tractor at the Agricultural Research and Development Center (ARDC, MEAD). The autonomous tractors are named Flexible Structured Robotic Vehicle (FlexRo), the tractor is currently used for plant phenotyping, which is measuring the physical characteristics of the plant. According to Pitla, cameras are added to the machine to collect images that characterize plant conditions. Photo for the 2019 publication of the Strategic Discussions for Nebraska magazine. July 17, 2019, Photo by Gregory Nathan / University Communication.
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Santosh Pitla, associate professor of advanced machinery systems in the Department of Biological Systems Engineering at the University of Nebraska–Lincoln, is currently developing an autonomous tractor using ground robotics. Pitla and his team are testing their driverless tractor at the Agricultural Research and Development Center (ARDC, MEAD). The autonomous tractors are named Flexible Structured Robotic Vehicle (FlexRo), the tractor is currently used for plant phenotyping, which is measuring the physical characteristics of the plant. According to Pitla, cameras are added to the machine to collect images that characterize plant conditions. Photo for the 2019 publication of the Strategic Discussions for Nebraska magazine. July 17, 2019, Photo by Gregory Nathan / University Communication.
190717 Pitla 444
Santosh Pitla, associate professor of advanced machinery systems in the Department of Biological Systems Engineering at the University of Nebraska–Lincoln, is currently developing an autonomous tractor using ground robotics. Pitla and his team are testing their driverless tractor at the Agricultural Research and Development Center (ARDC, MEAD). The autonomous tractors are named Flexible Structured Robotic Vehicle (FlexRo), the tractor is currently used for plant phenotyping, which is measuring the physical characteristics of the plant. According to Pitla, cameras are added to the machine to collect images that characterize plant conditions. Photo for the 2019 publication of the Strategic Discussions for Nebraska magazine. July 17, 2019, Photo by Gregory Nathan / University Communication.
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Santosh Pitla, associate professor of advanced machinery systems in the Department of Biological Systems Engineering at the University of Nebraska–Lincoln, is currently developing an autonomous tractor using ground robotics. Pitla and his team are testing their driverless tractor at the Agricultural Research and Development Center (ARDC, MEAD). The autonomous tractors are named Flexible Structured Robotic Vehicle (FlexRo), the tractor is currently used for plant phenotyping, which is measuring the physical characteristics of the plant. According to Pitla, cameras are added to the machine to collect images that characterize plant conditions. Photo for the 2019 publication of the Strategic Discussions for Nebraska magazine. July 17, 2019, Photo by Gregory Nathan / University Communication.
190717 Pitla 378
Santosh Pitla, associate professor of advanced machinery systems in the Department of Biological Systems Engineering at the University of Nebraska–Lincoln, is currently developing an autonomous tractor using ground robotics. Pitla and his team are testing their driverless tractor at the Agricultural Research and Development Center (ARDC, MEAD). The autonomous tractors are named Flexible Structured Robotic Vehicle (FlexRo), the tractor is currently used for plant phenotyping, which is measuring the physical characteristics of the plant. According to Pitla, cameras are added to the machine to collect images that characterize plant conditions. Photo for the 2019 publication of the Strategic Discussions for Nebraska magazine. July 17, 2019, Photo by Gregory Nathan / University Communication.
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All photos are available to UNL departments at no charge. Email the titles of the photos to Craig Chandler or Monica Myers.

cchandler2@unl.edu
mmyers2@unl.edu

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