基于反应-扩散变换的低复杂度超声回波形状目标分类方法

2017 5th International Symposium on Electrical and Electronics Engineering (ISEEE) Pub Date : 2017-10-01 DOI:10.1109/ISEEE.2017.8170651

M. Bucurica, I. Dogaru, R. Dogaru

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引用次数: 2

摘要

本文提出了一种新的低复杂度方法，与以前的实现方法[1]相比，在形状目标分类的准确性方面有所提高。该方法使用由JAVA平台产生的回声，该平台能够在受控的2D虚拟环境中模拟声音传播[2][3]。回声来自于包含几何形状物体的虚拟环境中产生的超声波。这种低复杂度的方法被称为RDT(反应扩散变换)，之前在孤立的语音识别问题中被证明是有效的[4]。本文使用的分类器也是我们之前在c++中开发的一种低复杂度的分类器(快速支持向量分类器)，并与Octave接口。结果是相当令人鼓舞的，100%的准确度在区分圆形和方形物体独立于他们的距离超声扬声器。对于一组4种不同的形状，平均准确率优于84%。

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A low complexity method based on reaction-diffusion transform for ultrasound echo-based shape object classification

This paper presents improvements in terms of accuracy for shape object classification using a new low complexity method compared to previous implementation [1]. The method is using echoes generated by a JAVA platform capable of emulate sound propagation in a controlled 2D virtual environment [2][3]. Echoes originate from the ultrasonic waves generated inside a virtual environment which contains geometrical shape objects. The low complexity method is called RDT (Reaction Diffusion Transform) previously proved efficient in isolated speech recognition problems [4]. The classifier employed in this paper is also a low-complexity one (Fast Support Vector Classifier) previously developed by us in C++ and interfaced with Octave. Results are quite encouraging with 100% accuracy in discriminating circular versus square objects independent on their distance from the ultrasound speaker. For a set of 4 different shapes, the average accuracy is better than 84%.

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2017 5th International Symposium on Electrical and Electronics Engineering (ISEEE)

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