采用多核架构实现高精度激光干涉测量实时位移传感算法

2017 International Conference on Communication, Computing and Digital Systems (C-CODE) Pub Date : 2017-03-01 DOI:10.1109/C-CODE.2017.7918959

Tassadaq Hussain, Saqib Amin, U. Zabit

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引用次数: 4

摘要

利用自混合干涉法测量位移、速度等是一个活跃的研究领域。利用相位展开法进行相位恢复是激光传感中的一种标准做法。阶段展开法将所获取的阶段所携带的知识和阶段的主值混合到一个自适应微分积分系统中。由于激光传感器的紧凑、自对准和成本效益，该方法需要自动化和智能的高性能硬件架构。在这项工作中，我们在多核系统上实现了一种改进的相位展开方法，并测量了不同目标技术的性能和功耗效率。在多核系统上的实验结果表明，改进的相位展开方法比单核系统性能提高4.09倍，能耗降低2.04倍。

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Implementation of high precision laser interferometry algorithm for real-time displacement sensing using multi-core architecture

Displacement, speed, etc. measurements by using the Self-Mixing interferometric is an active area of research. Phase retrieval by using the phase unwrapping method is a standard practice in the laser sensing. The Phase Unwrapping Method mixes the knowledge carried in both the phase acquired and the principal value of the phase into an adaptive differential integration system. The method demands automated and intelligent high performance hardware architecture, due to the compact, self-aligned and cost effective nature of laser sensors. In this work, we have implemented an Improved Phase Unwrapping Method on the Multi-core system and measures the performance and power efficiency for different target technologies. The results on the multi-core system show that the Improved Phase Unwrapping Method gets 4.09 times performance improvement and consumes 2.04 times less energy than the uni-core system.

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2017 International Conference on Communication, Computing and Digital Systems (C-CODE)

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