Dynamic approach for real-time skin detection

Bilal, Sara Mohammed Osman Saleh; Akmeliawati, Rini; Salami, Momoh Jimoh Eyiomika; Shafie, Amir Akramin

doi:10.1007/s11554-012-0305-2

Cited by 30 publications

(21 citation statements)

References 21 publications

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“…The colour of skin is probably one of the colours that we see most in our daily lives, and it plays an important role in many multidisciplinary applications. Apart from the reproduction of skin colour in general amateur and professional photography, cinematography and printing, these include the photography of skin for medical recording and diagnosis and the potential manufacture of prosthetics, skin colour based faced detection for computer vision applications, the identification of the skin colour preference for applications in, for example, the cosmetics industries and, more recently, skin colour reproduction in 3D printing . For all these applications, a reliable technique to quantify the colour of skin objectively, in all its many variations, is of vital importance.…”

Section: Introductionmentioning

confidence: 99%

An investigation into the variability of skin colour measurements

Wang

Xiao

Luo

et al. 2018

Color Research & Application

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This study aimed to investigate the variability of skin colour measurements for two kinds of extensively used instruments, telespectroradiometers (TSR) and spectrophotometers. A Konica Minolta CM700d spectrophotometer and a PhotoResearch PR650 telespectroradiometer were used to measure the forehead and the cheekbone of 11 subjects. The variability was evaluated using different measurement parameters including measurement aperture size and pressure on the facial locations for the spectrophotometer, and measurement distance for the telespectroradiometer. The mean colour difference from the mean was used to define the short‐term repeatability; the CIELAB colour difference and colour appearance changes in each perceptual CIELAB attribute between each of two instrument settings were used to evaluate the inter‐instrument agreement. The results show that, for the TSR, different measurement distances have identical repeatability but the colour shifts were significant; for the spectrophotometer, the large aperture size of the target masks gave the most repeatable results and the aperture size had more influence on the colour shifts than the measurement pressure. In addition, to investigate the effect of ethnicity and body location on measurement variability, skin colours from additional 151 subjects were measured. The differences between the measurements for different body locations were, in general, larger than the instrument repeatability and the inter‐instrument agreement.

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Section: Introductionmentioning

confidence: 99%

An investigation into the variability of skin colour measurements

Wang

Xiao

Luo

et al. 2018

Color Research & Application

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“…Skin models can also be effectively adapted given a skin sample, acquired based on tracking skin-like objects in video sequences [33], or relying on face [11,34] or hand [3] detection. For such a skin sample, a local model can be generated using the Bayesian classifier [35,36] or GMMs [37] as they do not require time-consuming training.…”

Section: Adaptive Skin Color Modelingmentioning

confidence: 99%

“…Alternatively, a skin sample may be used to optimize the value of the acceptance thresholds [3,39]. Recently, Yogarajah et al [40] proposed to use skin samples for adapting the acceptance thresholds in a singledimensional error signal space (ESS) [14].…”

Section: Adaptive Skin Color Modelingmentioning

confidence: 99%

“…In case of the positive answer, skin segmentation is applied to determine the exact boundaries of the detected skin regions. Applications of skin detection and segmentation are of a wide range and significance, and they include gesture recognition for human-computer interaction [3], objectionable content filtering [4], content-based image retrieval [5], medical imaging [6,7], and image coding [8].…”

Section: Introductionmentioning

confidence: 99%

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Self-adaptive algorithm for segmenting skin regions

Kawulok

Nalepa

et al. 2014

EURASIP J. Adv. Signal Process.

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In this paper, we introduce a new self-adaptive algorithm for segmenting human skin regions in color images. Skin detection and segmentation is an active research topic, and many solutions have been proposed so far, especially concerning skin tone modeling in various color spaces. Such models are used for pixel-based classification, but its accuracy is limited due to high variance and low specificity of human skin color. In many works, skin model adaptation and spatial analysis were reported to improve the final segmentation outcome; however, little attention has been paid so far to the possibilities of combining these two improvement directions. Our contribution lies in learning a local skin color model on the fly, which is subsequently applied to the image to determine the seeds for the spatial analysis. Furthermore, we also take advantage of textural features for computing local propagation costs that are used in the distance transform. The results of an extensive experimental study confirmed that the new method is highly competitive, especially for extracting the hand regions in color images.

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“…Obviously, this method is not only inconvenient in application, but also is easily interfered by ambient light. Similarly, much literature shows that skin colors are used to position palms and recognize fingers [4]. Because of drastic changes of skin colors among different races and the influence of luminous environment on camera imaging, the finger recognition method based on skin colors has a poor recognition effect in many situations.…”

Section: Introductionmentioning

confidence: 99%

Gloved Finger Recognition by Curve Matching

Shu¹,

Lin²

2016

Proceedings of the 2016 7th International Conference on Mechatronics, Control and Materials (ICMCM 2016)

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Finger recognition is an important basis of natural human-computer interaction, but existing researches are mainly on bare-hand finger recognition. Due to the fact that people need to wear gloves because of cold weather, working environment, etc, this paper presents a method to recognize gloved fingers by curve matching. This method firstly extracts contour curve from image edge. After fitting the contour curve, it calculates curvature integration of the fitted curve and then assesses similarity between the curvature integration and finger template's. Finally, it recognizes fingers and positions fingertips according to the assessment. And the finger template which is used to match contour curve can be chosen at random without training. The experiment shows that this method is effective in recognizing fingers and positioning fingertips under the condition of scale variations, rotation variations and affine transformations, whether the subjects wear gloves or not.

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Dynamic approach for real-time skin detection

Cited by 30 publications

References 21 publications

An investigation into the variability of skin colour measurements

An investigation into the variability of skin colour measurements

Self-adaptive algorithm for segmenting skin regions

Gloved Finger Recognition by Curve Matching

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