A Direction Sensitive Network Based on a Biophysical Neurone Model

机译：基于生物物理神经元模型的方向敏感网络

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To our understanding, modelling the dynamics of brain functions on cell level is essential to develop both a deeper understanding and classification of the experimental data as well as a guideline for further research. This paper now presents the implementation and training of a direction sensitive network on the basis of a biophisical neurone model including synaptic excitation, dendritic propagation and action-potential generation. The underlying model not only describes the functional aspects of neural signal processing, but also provides insight into their underlying energy consumption. Moreover, the training data set has been recorded by means of a real robotics system, thus bridging the gap to technical applications.

机译：据我们了解，在细胞水平上对脑功能的动力学进行建模对于发展对实验数据的更深刻理解和分类以及进一步研究的指导至关重要。现在，本文基于生物物理神经元模型（包括突触激发，树突传播和动作电位生成）介绍了方向敏感网络的实现和训练。基本模型不仅描述了神经信号处理的功能方面，而且还提供了对其基本能量消耗的洞察力。此外，培训数据集已通过真实的机器人系统记录下来，从而缩小了与技术应用之间的差距。

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来源
《International Conference on Artificial Neural Networks - ICANN 2002, Aug 28-30, 2002, Madrid, Spain》|2002年|p.153-159|共7页
会议地点 Madrid(ES);Madrid(ES)
作者
Burkhard Iske; Axel Loeffler; Ulrich Rueckert;
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作者单位

Heinz Nixdorf Institute, System and Circuit Technology, Paderborn University, Germany;

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原文格式 PDF
正文语种 eng
中图分类自动化技术、计算机技术;
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4. A Direction Sensitive Network Based on a Biophysical Neurone Model [C] . Burkhard Iske, Axel Loeffler, Ulrich Rueckert, International Conference on Artificial Neural Networks . 2002

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A Direction Sensitive Network Based on a Biophysical Neurone Model

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