Abstract
Since the large diffusion of digital camera and mobile devices with embedded camera and flashgun, the redeyes artifacts have de facto become a critical problem. The technique herein described makes use of three main steps to identify and remove red eyes. First, red-eye candidates are extracted from the input image by using an image filtering pipeline. A set of classifiers is then learned on gray code features extracted in the clustered patches space and hence employed to distinguish between eyes and noneyes patches. Specifically, for each cluster the gray code of the red-eyes candidate is computed and some discriminative gray code bits are selected employing a boosting approach. The selected gray code bits are used during the classification to discriminate between eye versus non-eye patches. Once red-eyes are detected, artifacts are removed through desaturation and brightness reduction. Experimental results on a large dataset of images demonstrate the effectiveness of the proposed pipeline that outperforms other existing solutions in terms of hit rates maximization, false positives reduction, and quality measure.
Highlights
Red-eye artifact is caused by the flash light reflected off a person’s retina
Experimental results on a large dataset of images demonstrate the effectiveness of the proposed pipeline that outperforms other existing solutions in terms of hit rates maximization, false positives reduction, and quality measure
The dataset has been collected from various sources, including digital single-lens reflex (DSLR) cameras, compact cameras, personal collections, and internet photos
Summary
Red-eye artifact is caused by the flash light reflected off a person’s retina (see Figure 1). This effect often occurs when the flash light is very close to the camera lens, as in most compact imaging devices. To reduce these artifacts, most cameras have a red-eye flash mode which fires a series of preflashes prior to picture capturing. Rapid preflashes cause pupil contraction, minimizing the area of reflection; it does not completely eliminate the red-eye effect though it reduces it.
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