基于地址-事件表示的立体视觉图像匹配算法:不同算法的理论研究与评价

Proceedings of the International Conference on Signal Processing and Multimedia Applications Pub Date : 2011-07-18 DOI:10.5220/0003518500790084

M. Domínguez-Morales, Elena Cerezuela-Escudero, A. Jiménez-Fernandez, R. Paz-Vicente, Juan Luis Font-Calvo, P. Iñigo-Blasco, A. Linares-Barranco, G. Jiménez-Moreno

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引用次数: 8

摘要

数字计算机系统中的图像处理通常将视觉信息视为一系列帧。这些画面来自于短时间内捕捉现实的相机。它们以25 - 30fps(典型的实时场景)的速率更新和传输。数字视频处理必须对每一帧进行处理，以获得滤波结果或检测输入上的特征。在立体视觉中，现有的算法使用来自两个数码相机的帧并逐像素处理它们，直到在两个立体帧的一部分中找到匹配的模式。基于峰值的处理是一种相对较新的方法，它通过在传输时一个接一个地操纵峰值来实现处理，就像人脑一样。哺乳动物的神经系统能够解决更复杂的问题，比如通过操纵神经元的尖峰来进行视觉识别。基于神经启发的地址-事件表示(AER)的基于峰的视觉信息处理方法目前取得了很高的性能。在这项工作中，我们研究了现有的数字立体匹配算法及其工作原理。之后，我们提出了一种AER立体匹配算法，该算法使用了数字立体方法中显示的一些原理。

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Image matching algorithms in stereo vision using address-event-representation: A theoretical study and evaluation of the different algorithms

Image processing in digital computer systems usually considers the visual information as a sequence of frames. These frames are from cameras that capture reality for a short period of time. They are renewed and transmitted at a rate of 25–30 fps (typical real-time scenario). Digital video processing has to process each frame in order to obtain a filter result or detect a feature on the input. In stereo vision, existing algorithms use frames from two digital cameras and process them pixel by pixel until it is found a pattern match in a section of both stereo frames. Spike-based processing is a relatively new approach that implements the processing by manipulating spikes one by one at the time they are transmitted, like a human brain. The mammal nervous system is able to solve much more complex problems, such as visual recognition by manipulating neuron's spikes. The spike-based philosophy for visual information processing based on the neuro-inspired Address-Event-Representation (AER) is achieving nowadays very high performances. In this work we study the existing digital stereo matching algorithms and how do they work. After that, we propose an AER stereo matching algorithm using some of the principles shown in digital stereo methods.

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Proceedings of the International Conference on Signal Processing and Multimedia Applications

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