Computationally efficient low-power sigma delta modulation-based image processing algorithm

IF 0.6 Q3 ENGINEERING, MULTIDISCIPLINARY
A. Pathan, T. Memon, Saleem Raza Memon, Rizwan Aziz Mangi
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引用次数: 0

Abstract

Digital Image Processing has dominated Digital Signal Processing at the cost of more memory, resources, and high computational power. In image processing, filtering transformations and other operations need complex multiplications, and the multiplier is one of the most resources consuming elements. Recently, mitigating the multiplier complexity in the digital signal processing (DSP) algorithms sigma-delta modulation based general purpose and adaptive DSP algorithms are developed in MATLAB and compared with its counterpart multi-bit algorithms for functionality and area-performance-power in FPGA. The contemporary multiplier algorithms are also optimized to overcome the multiplier complexity challenge as computation becomes simple and fast. This paper extends the reported work by investigating the sigma-delta modulation approaches for developing a computationally efficient low-power image processing algorithm. The proposed model is designed, developed, and simulated in MATLAB. The simulation results are analyzed using SNR, MSE, and Peak SNR. The simulation results show that the proposed system can better mitigate the noise effect, making it robust for noisy environment.
基于计算高效低功耗∑-Δ调制的图像处理算法
数字图像处理以更多的内存、资源和高计算能力为代价,主导了数字信号处理。在图像处理中,滤波变换和其他操作需要复杂的乘法运算,而乘法器是最消耗资源的元素之一。最近,为了降低数字信号处理(DSP)算法中的乘法器复杂性,在MATLAB中开发了基于西格玛-德尔塔调制的通用和自适应DSP算法,并在FPGA中与对应的多位算法在功能和区域性能方面进行了比较。随着计算变得简单和快速,当代乘法器算法也进行了优化,以克服乘法器复杂性的挑战。本文通过研究西格玛-德尔塔调制方法来扩展已报道的工作,以开发一种计算高效的低功耗图像处理算法。所提出的模型在MATLAB中进行了设计、开发和仿真。利用信噪比、均方误差和峰值信噪比对仿真结果进行了分析。仿真结果表明,该系统能够更好地减轻噪声影响,对噪声环境具有鲁棒性。
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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76
审稿时长
40 weeks
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