Internal Representations in Spiking Neural Networks, criticality and the Renormalization Group

João Henrique de Sant'Ana, Nestor Caticha
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Abstract

Optimal information processing in peripheral sensory systems has been associated in several examples to the signature of a critical or near critical state. Furthermore, cortical systems have also been described to be in a critical state in both wake and anesthetized experimental models, both {\it in vitro} and {\it in vivo}. We investigate whether a similar signature characterizes the internal representations (IR) of a multilayer (deep) spiking artificial neural network performing computationally simple but meaningful cognitive tasks, using a methodology inspired in the biological setup, with cortical implanted electrodes in rats, either freely behaving or under different levels of anesthesia. The increase of the characteristic time of the decay of the correlation of fluctuations of the IR, found when the network input changes, are indications of a broad-tailed distribution of IR fluctuations. The broad tails are present even when the network is not yet capable of performing the classification tasks, either due to partial training or to the effect of a low dose of anesthesia in a simple model. However, we don't find enough evidence of power law distributions of avalanche size and duration. We interpret the results from a renormalization group perspective to point out that despite having broad tails, this is not related to a critical transition but rather similar to fluctuations driven by the reversal of the magnetic field in a ferromagnetic system. Another example of persistent correlation of fluctuations of a non critical system is constructed, where a particle undergoes Brownian motion on a slowly varying potential.
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尖峰神经网络的内部表征、临界性和重正化群
在一些例子中,外周感觉系统的最佳信息处理与临界或接近临界状态的特征有关。此外,在唤醒和麻醉实验模型中,大脑皮层系统也被描述为处于临界状态,包括{it invitro}和{it in vivo}。我们使用一种受生物设置启发的方法,在大鼠的皮层植入电极,在自由行为或不同程度的麻醉状态下,研究执行计算简单但有意义的认知任务的多层(深度)尖峰人工神经网络的内部表征(IR)是否具有类似的特征。当网络输入发生变化时,红外波动相关性衰减的特征时间会增加,这表明红外波动呈宽尾分布。即使由于部分训练或简单模型中低剂量麻醉的影响,网络尚未具备执行分类任务的能力时,宽尾也会出现。但是,我们没有发现雪崩大小和持续时间的幂律分布的足够证据。我们从重正化群的角度解释了这一结果,指出尽管雪崩具有宽尾,但这与临界转换无关,而是类似于铁磁系统中磁场反转所驱动的波动。我们还构建了非临界系统波动持续相关性的另一个例子,即粒子在缓慢变化的电势上进行布朗运动。
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