Adaptive frequency prior for frequency selective reconstruction of images from non-regular subsampling

2016 IEEE 18th International Workshop on Multimedia Signal Processing (MMSP) Pub Date : 2016-09-01 DOI:10.1109/MMSP.2016.7813347

Jürgen Seiler, André Kaup

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引用次数: 2

Abstract

Image signals typically are defined on a rectangular two-dimensional grid. However, there exist scenarios where this is not fulfilled and where the image information only is available for a non-regular subset of pixel position. For processing, transmitting or displaying such an image signal, a re-sampling to a regular grid is required. Recently, Frequency Selective Reconstruction (FSR) has been proposed as a very effective sparsity-based algorithm for solving this under-determined problem. For this, FSR iteratively generates a model of the signal in the Fourier-domain. In this context, a fixed frequency prior inspired by the optical transfer function is used for favoring low-frequency content. However, this fixed prior is often too strict and may lead to a reduced reconstruction quality. To resolve this weakness, this paper proposes an adaptive frequency prior which takes the local density of the available samples into account. The proposed adaptive prior allows for a very high reconstruction quality, yielding gains of up to 0.6 dB PSNR over the fixed prior, independently of the density of the available samples. Compared to other state-of-the-art algorithms, visually noticeable gains of several dB are possible.

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非正则子采样图像的频率选择性重构自适应频率先验

图像信号通常定义在矩形二维网格上。然而，在某些情况下，这并没有实现，并且图像信息只能用于像素位置的非规则子集。为了处理、传输或显示这样的图像信号，需要对规则网格进行重新采样。近年来，频率选择重建(FSR)作为一种非常有效的基于稀疏性的算法被提出来解决这一欠确定问题。为此，FSR迭代地在傅里叶域中生成信号的模型。在这种情况下，由光学传递函数激发的固定频率先验用于有利于低频内容。然而，这种固定的先验往往过于严格，可能导致重建质量下降。为了解决这一缺点，本文提出了一种考虑可用样本的局部密度的自适应频率先验。所提出的自适应先验允许非常高的重建质量，与固定先验相比，产生高达0.6 dB PSNR的增益，与可用样本的密度无关。与其他最先进的算法相比，可以实现几个dB的视觉显著增益。

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 IEEE 18th International Workshop on Multimedia Signal Processing (MMSP)

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