Using bi-spectral imaging technology for simulated online-weed control in winter wheat and maize

Publikations-Art
Kongressbeitrag
Autoren
Markus Sökefeld and Martina Keller and Martin Weis and Christoph Gutjahr and Roland Gerhards
Erscheinungsjahr
2012
Veröffentlicht in
Proceedings of the 25th German Conference on Weed Biology and Weed Control
Herausgeber
Henning Nordmeyer and Lena Ulber
Verlag
Julius-Kühn-Institut , Berlin, Germany
Band/Volume
434/
Serie/Bezeichnung
Julius-Kühn-Archiv
ISBN / ISSN / eISSN
978-3-930037-84-1
DOI
10.5073/jka.2012.434.022
Seite (von - bis)
183-190
Tagungsname
25. Deutsche Arbeitsbesprechung über Fragen der Unkrautbiologie und -bekämpfung (25th German Conference on Weed Biology and Weed Control)
Tagungsort
Braunschweig
Tagungsdatum
13.-15. März 2012
Abstract

In spring 2011, two field trials on site-specific weed control in winter wheat and maize were carried out at Ihinger Hof research station of the University of Hohenheim. For the image acquisition, bi-spectral cameras were mounted on a vehicle. These cameras are able to take images free from disturbances by soil, mulch and stones. Images and the corresponding GPS-data were stored on-the-go. Afterwards, the images were analyzed by a weed recognition software. Weed infestation was mapped in consideration of weed species and weeds grouped according to their herbicide sensitivity. In order to simulate an online herbicide application, a one- sided moving average of order five was used for the weed mapping. This kind of rearward calculation uses only the data of weed infestation which were already assessed behind or directly in the current position of the vehicle. The calculated weed distribution maps were checked by visual grid sampling. Herbicide application maps were generated by applying weed thresholds on the weed distribution maps. The herbicide application based on the maps was conducted by a multiple sprayer which allows the application of up to three herbicides independently from each other in a single pass across the field. Later on, the performance of the herbicide application was controlled again by visual grid sampling. Compared to a uniform herbicide application, the site- specific weed control saved 83 % and 58 % herbicides respectively in winter wheat and 66 % in maize. The average efficacy of the site-specific herbicide application system in winter wheat was 70 % of the conventional herbicide application.

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