Developing a block-wise interpolation based adaptive data embedding scheme

2016 3rd International Conference on Electrical Engineering and Information Communication Technology (ICEEICT) Pub Date : 2016-09-01 DOI:10.1109/CEEICT.2016.7873152

Md Abdul Wahed, H. Nyeem

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引用次数: 11

Abstract

Data hiding schemes based on quadratic interpolation have the potential to offer better image quality and higher embedding capacity. Being reversible, such schemes also allow user to restore the embedded image back to its original version, which is the key requirement of many applications like medical and military imaging. This paper presents a simplified data hiding scheme based on quadratic interpolation. Particularly, we apply quadratic interpolation in non-overlapping blocks of an input image. Instead of calculating multiple interpolated values considering neighborhood pixels in multiple directions, we simply consider only one (i.e., either horizontal, vertical or diagonal) direction for interpolation and correlate the interpolated values both with and without corresponding local mean. This significantly reduces the complexity and offers high embedding capacity as high as 2.5 Mbits with better or similar image quality, while compared with a recently published interpolation based scheme.

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开发了一种基于分块插值的自适应数据嵌入方案

基于二次插值的数据隐藏方案有可能提供更好的图像质量和更高的嵌入容量。由于是可逆的，这种方案还允许用户将嵌入的图像恢复到原始版本，这是许多应用程序(如医疗和军事成像)的关键要求。提出了一种简化的基于二次插值的数据隐藏方案。特别地，我们在输入图像的非重叠块中应用二次插值。我们不再考虑多个方向的邻域像素计算多个插值值，而是简单地只考虑一个(即水平、垂直或对角线)方向进行插值，并将插值值与相应的局部平均值关联起来。与最近发布的基于插值的方案相比，这大大降低了复杂性，并提供高达2.5 Mbits的高嵌入容量，具有更好或相似的图像质量。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2016 3rd International Conference on Electrical Engineering and Information Communication Technology (ICEEICT)

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