用于信号重构的具有动态学习功能的自组织映射

Self-organizing maps with dynamic learning for signal reconstruction.

作者信息

Cho Jeongho, Paiva António R C, Kim Sung-Phil, Sanchez Justin C, Príncipe José C

机构信息

Computational NeuroEngineering Lab., University of Florida, Gainesville, FL 32611, United States.

出版信息

Neural Netw. 2007 Mar;20(2):274-84. doi: 10.1016/j.neunet.2006.12.002. Epub 2006 Dec 20.

DOI:10.1016/j.neunet.2006.12.002

PMID:17234384

Abstract

Wireless Brain Machine Interface (BMI) communication protocols are faced with the challenge of transmitting the activity of hundreds of neurons which requires large bandwidth. Previously a data compression scheme for neural activity was introduced based on Self Organizing Maps (SOM). In this paper we propose a dynamic learning rule for improved training of the SOM on signals with sparse events which allows for more representative prototype vectors to be found, and consequently better signal reconstruction. This work was developed with BMI applications in mind and therefore our examples are geared towards this type of signals. The simulation results show that the proposed strategy outperforms conventional vector quantization methods for spike reconstruction.

摘要

无线脑机接口（BMI）通信协议面临着传输数百个神经元活动的挑战，这需要大量带宽。此前基于自组织映射（SOM）引入了一种神经活动数据压缩方案。在本文中，我们提出了一种动态学习规则，用于改进对具有稀疏事件信号的SOM训练，从而能够找到更具代表性的原型向量，进而实现更好的信号重建。这项工作是在考虑BMI应用的情况下开展的，因此我们的示例针对的是这类信号。仿真结果表明，所提出的策略在尖峰重建方面优于传统矢量量化方法。

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用于信号重构的具有动态学习功能的自组织映射

Self-organizing maps with dynamic learning for signal reconstruction.

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