2 research outputs found

    Sensor technology for precision weeding in cereals. Evaluation of a novel convolutional neural network to estimate weed cover, crop cover and soil cover in near-ground red-green-blue images

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    Precision weeding or site-specific weed management (SSWM) take into account the spatial distribution of weeds within fields to avoid unnecessary herbicide use or intensive soil disturbance (and hence energy consumption). The objective of this study was to evaluate a novel machine vision algorithm, called the ‘AI algorithm’ (referring to Artificial Intelligence), intended for post-emergence SSWM in cereals. Our conclusion is that the AI algorithm should be suitable for patch spraying with selective herbicides in small-grain cereals at early growth stages (about two leaves to early tillering). If the intended use is precision weed harrowing, in which also post-harrow images can be used to control the weed harrow intensity, the AI algorithm should be improved by including such images in the training data. Another future goal is to make the algorithm able to distinguish weed species of special interest, for example cleavers (Galium aparine L.).Sensor technology for precision weeding in cereals. Evaluation of a novel convolutional neural network to estimate weed cover, crop cover and soil cover in near-ground red-green-blue imagespublishedVersio

    Coregistration and Fusion of Interferometric Synthetic Aperture Sonar Data from Multiple Passes

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    Synthetic aperture sonar images contain geometric distortions intrinsic to the imaging modality such as layover and shadow. These distortions cause information gaps in the image that are dependent on view aspect. It is possible to reduce these effects by viewing the same scene from multiple angles and fuse them into a more complete image. The result is a more comprehensive image, in which data gaps are strongly reduced and where it is possible to view multiple angles at the same time
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