Non-Destructive Assessment of Chicken Egg Fertility

Adegbenjo, Adeyemi; Liu, Li; Ngadi, Michael

doi:10.3390/s20195546

Cited by 29 publications

(31 citation statements)

References 91 publications

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“…Kurtosis (𝑎4) is a calculation of the relative sharpness of the histogram curve of an image using components such as the standard deviation to the power of 4 and the standard deviation divisor (6).…”

Section: First Order Statistics (Fos) Feature Extractionmentioning

confidence: 99%

“…The identification process is carried out using the observation method using light directed at the egg so that the contents of the egg can be seen (candling) [1]- [3]. This identification is still being made manually (done by humans) [1], [4], or there are already several tools from various studies [5], [6], both simulators and implementations [7]- [9]. Even though the tools already exist, there are still many researchers doing development to get better results.…”

Section: Introductionmentioning

confidence: 99%

“…Image processing in the identification of egg embryos begins with image acquisition which has different methods and tools [4], [11], [12]. Several acquisition processes were carried out using thermal cameras [6], [13], hyperspectral [6], [7], [10], and digital cameras [4], [14]. This study uses a smartphone camera and a candling process to obtain a digital image.…”

Section: Introductionmentioning

confidence: 99%

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Chicken Egg Fertility Identification using FOS and BP-Neural Networks on Image Processing

Saifullah

Suryotomo

2021

RESTI

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This article aims to test FOS (first-order statistical) in extracting features of embryonated eggs. This test uses the initial step of image processing to get the best input image in feature extraction. The image processing method starts from the image acquisition process, then improves with image preprocessing and segmentation. Image acquisition in this study uses the concept of egg candling in a dark place captured with a smartphone camera. The acquisition results are improved by image preprocessing using gray scaling, image enhancement (by Histogram Equalization), and segmentation of chicken egg image. The segmentation results were extracted using FOS with five parameters: mean, entropy, variance, skewness, and kurtosis. Based on the calculation of these parameters, it is graphed and shows the difference in patterns between fertile and infertile eggs. However, some eggs have a similar pattern, thus affecting the identification process. The identification process used neural networks by the backpropagation method for training and testing. The training results provide an accuracy value of 100% of all training data; however, 80% of the new test data obtained test results at testing. This test is carried out with 100 data, 50 each for training and test data. Based on the test results, which significantly affect the level of accuracy is the feature extraction method. FOS pattern in detecting the fertility of chicken eggs by BP Neural Network is still categorized as low, so it is necessary to improve methods to get maximum results.

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Section: First Order Statistics (Fos) Feature Extractionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Chicken Egg Fertility Identification using FOS and BP-Neural Networks on Image Processing

Saifullah

Suryotomo

2021

RESTI

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“…Неоплодотворенные яйца составляют до 20 % из всего объема инкубированных яиц курицы [6]. Эти яйца при своевременном обнаружении можно, не только исключить из производственного процесса, но и использовать в пищу (для низкосортной продукции), тем самым увеличив экономические показатели производства.…”

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“…Авторы публикации [6] рассматривают существующие методы неразрушающего контроля, включая ультразвуковые и диэлектрические измерения, тепловую визуализацию, машинное зрение, спектроскопию и гиперспектральную визуализацию. Представлена технология гиперспектральной съемки, как метод, адекватный для решения проблемы классификации фертильности куриных яиц.…”

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Functional assessment of avian embryo quality during incubation

2021

AGROINFO-2021 Proceedings

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The influence of different sugammadex doses on neural tube development in early‐stage chick embryos

Ayhan

Efe

Fidan

et al. 2023

Birth Defects Research

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BackgroundSugammadex is a modified gamma‐cyclodextrin that has been developed with the goal of reversing the steroidal neuromuscular blocking agents. The aim of the present study is to investigate the effects of different sugammadex doses on embryologic and neural tube development in an early‐stage chick embryo model.MethodsA total of 100 specific pathogen‐free, fertilized domestic chicken eggs were randomly divided into five groups (n = 20, each), and placed in an automatic cycle incubator. The eggs in the “control (C)” group were incubated without administration of any drug till the end of the experiment. Sub‐blastodermic administration of 0.9% NaCl as vehicle control (VC) and different doses of sugammadex solutions prepared with the latter [2 mg/mL (LD), 4 mg/mL (MD), 16 mg/mL (HD)] were performed at 30 hr of incubation. All embryos were removed from the eggs at 72 hr when they were expected to reach Hamburger‐Hamilton (HH) stages 19–20, then they were fixed, and evaluated histo‐morphologically.ResultsEmbryonic development was not observed in 11 eggs (1 in C, 1 in VC; 3 in LD, 3 in MD, and 3 in HD). All the developed embryos were compatible with the HH stages 19–20. A neural tube closure defect was detected in one embryo in the HD group. No statistically significant difference was found between the groups in terms of embryonic and neural tube developments.ConclusionsNo significant association was found between the drug and adverse outcomes; however, a trend with dosing was seen. Further studies are required before conclude on safety and extrapolate these results to human beings.

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Non-Destructive Assessment of Chicken Egg Fertility

Cited by 29 publications

References 91 publications

Chicken Egg Fertility Identification using FOS and BP-Neural Networks on Image Processing

Chicken Egg Fertility Identification using FOS and BP-Neural Networks on Image Processing

Functional assessment of avian embryo quality during incubation

The influence of different sugammadex doses on neural tube development in early‐stage chick embryos

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