听觉刺激优化的高性能反馈系统

Proceedings. 1998 IEEE International Conference on Information Technology Applications in Biomedicine, ITAB '98 (Cat. No.98EX188) Pub Date : 1998-05-16 DOI:10.1109/ITAB.1998.674670

M. Anderson, E. Micheli-Tzanakou

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引用次数: 0

摘要

建立了一种基于神经元反应反馈的听觉刺激自动优化系统。ALOPEX(算法模式提取)算法使用从听觉神经元记录的响应作为反馈来优化声音刺激。这个基于计算机的系统实时工作，迭代地为所研究的神经元找到最佳的音调组合。利用模糊逻辑对细胞外神经元反应进行分类，研究细胞外神经元的连通性。用于刺激听觉神经元的标准化音调是由Sound Blaster 16卡上的Yamaha (YMF262) fm芯片产生的。响应和刺激由Dataq (DI-300F)高速模拟和数字I/O板捕获。青蛙(Rana Pipien)听觉系统的结果表明，该设置能够在100次迭代内收敛。对系统的动力学和可靠性进行了测试，并将响应计算为频率的抛物线函数。一个使用抛物方程来模拟响应的配套演示已经开发出来，并作为一个演示。

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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High performance feedback system for auditory stimulus optimization

An automated system to optimize auditory stimuli based on neuronal response feedback has been developed. The ALOPEX (algorithm of pattern extraction) algorithm uses responses recorded from auditory neurons as feedback to optimize sound stimuli. This computer based system works in real time to iteratively find the optimal combination of tones for the neurons being studied. Fuzzy logic is used to classify extracellular neuronal responses for investigation of connectivity. Normalized tones used to excite the auditory neurons are produced by a Yamaha (YMF262) FM-chip on board a Sound Blaster 16 card. The response and stimuli are captured by a Dataq (DI-300F) high speed analog and digital I/O board. Results from the frog (Rana Pipien) auditory system showed that the setup is able to converge within 100 iterations. The system dynamics and reliability were also tested with the response computed as a parabolic function of frequency. A companion demonstration that uses the parabolic equation to simulate response has been developed and is presented as a demo.

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Proceedings. 1998 IEEE International Conference on Information Technology Applications in Biomedicine, ITAB '98 (Cat. No.98EX188)

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