Machine vision algorithm for whiteflies (<i>Bemisia tabaci</i> Genn.) scouting under greenhouse environment

Solís-Sánchez, Luis Octavio; García-Escalante, J. J.; Castañeda‐Miranda, Rodrigo; Torres-Pacheco, Irineo; Guevara-González, Ramón Gerardo

doi:10.1111/j.1439-0418.2009.01400.x

Cited by 36 publications

(22 citation statements)

References 10 publications

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“…To make such largescale monitoring possible a system would have to be developed that is capable of automatically determining the number of insects present on a trap, as well as grouping the insects in different size classes. Several earlier studies have created similar programs to count the number of pests caught on sticky traps placed in greenhouses (Barbedo, 2014;Solis-Sánchez et al, 2009), but our literature research did not indicate the existence of similar programs related to conservation efforts. This is important because the difference between the present research and these earlier studies is that there are no expectations to identify the species present on these sticky traps, but that the size of the insects is important to this study, whilst size was not a factor in the identification of various pests.…”

Section: Introductionmentioning

confidence: 66%

A Web Service for Assessing Insect Abundances for Meadow Birds by Image Analysis

Michels

Vos

2019

Preprint

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Meadow birds are a group of species native to the Netherlands characterized by breeding in meadows that has been in decline over the last several decades, despite widespread conservation efforts. Agricultural intensification is thought to be one of the main causes of this decline, but no yearly data exists on the surrounding ecology of these birds. Recent efforts have tried to assess the food supply of meadow birds by setting sticky traps and counting the number of insects caught on them. However, this approach cannot be applied on a large scale since counting the insects is very labour intensive and unappealing to the volunteers that contribute to this research. To get a better assessment of the food supply at a larger scale, we present a system to automate counting of insects on sticky traps. The system is intended to process uploaded images and metadata using computer vision techniques to determine the number of insects found in photographs taken from the sticky traps. 1 https://github.com/naturalis/imgpheno 2

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Section: Introductionmentioning

confidence: 66%

A Web Service for Assessing Insect Abundances for Meadow Birds by Image Analysis

Michels

Vos

2019

Preprint

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“…These strategies achieved low misclassification rate, but manual correction was involved in some cases. Similar approaches were taken by Solis-Sánchez et al in 2009 [10] and 2011 [11]. As Barbedo [8] suggested, designing more effective features to describe and detect the target could further improve segmentation performance.…”

Section: Introductionmentioning

confidence: 86%

Automatic Segmentation and Counting of Aphid Nymphs on Leaves Using Convolutional Neural Networks

et al. 2018

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The presence of pests is one of the main problems in crop production, and obtaining reliable statistics of pest infestation is essential for pest management. Detection of pests should be automated because human monitoring of pests is time-consuming and error-prone. Aphids are among the most destructive pests in greenhouses and they reproduce quickly. Automatic detection of aphid nymphs on leaves (especially on the lower surface) using image analysis is a challenging problem due to color similarity and complicated background. In this study, we propose a method for segmentation and counting of aphid nymphs on leaves using convolutional neural networks. Digital images of pakchoi leaves at different aphid infestation stages were obtained, and corresponding pixel-level binary mask annotated. In the test, segmentation results by the proposed method achieved high overlap with annotation by human experts (Dice coefficient of 0.8207). Automatic counting based on segmentation showed high precision (0.9563) and recall (0.9650). The correlation between aphid nymph count by the proposed method and manual counting was high (R2 = 0.99). The proposed method is generic and can be applied for other species of pests.

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“…Recognition, counting, and recording whiteflies collected on the sticky trap on the Cabbot were conducted by a software developed according to Xia et al (2012). Among numerous algorithms for detection of small sized insects (Cho et al, 2007;Solis Sánchez et al, 2009;Bechar et al, 2010;Kumar et al, 2010), multi-fractal analysis was employed to detect whitefly images from sticky trap images in our study since the method was outstanding in detection of small-sized pests against various noise produced on sticky traps under field conditions (Xia et al, 2012).…”

Section: Automatic Sampling and Pest Counting Equipmentmentioning

confidence: 99%

Sampling of Bemisia tabaci adults using a pre-programmed autonomous pest control robot

Chung

Xia

Song

et al. 2014

Journal of Asia-Pacific Entomology

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Machine vision algorithm for whiteflies (Bemisia tabaci Genn.) scouting under greenhouse environment

Cited by 36 publications

References 10 publications

A Web Service for Assessing Insect Abundances for Meadow Birds by Image Analysis

A Web Service for Assessing Insect Abundances for Meadow Birds by Image Analysis

Automatic Segmentation and Counting of Aphid Nymphs on Leaves Using Convolutional Neural Networks

Sampling of Bemisia tabaci adults using a pre-programmed autonomous pest control robot

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