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A Reader’s Comment on: “Hysteresis Model of Unconscious-Conscious Interconnection: Exploring Dynamics on m-Adic Trees”
p-Adic Numbers, Ultrametric Analysis and Applications Pub Date : 2020-01-01 , DOI: 10.1134/s2070046620010070
Giuseppe Iurato , Andrei Yu. Khrennikov

This comment is aimed to point out that the recent work due to H. Kim, J-Y. Moon, G. A. Mashour and U. Lee ([22]), in which the clinical and experiential assessment of a brain network model suggests that asymmetry of synchronization suppression is the key mechanism of hysteresis observed during loss and recovery of consciousness in general anesthesia, has indirectly provided empirical confirmation of the theoretical model outlined in [8] (Iurato and Khrennikov, 2015), based on a possible implementation of an hysteretic pattern into a formal model of unconscious-conscious interconnection worked out on the basis of representations of mental entities by p -adic numbers. One of the main assumptions done by the authors of [22], is that (physical) hysteresis (of their brain network model took into account) observed during anesthetic state transitions shares the same underlying mechanism as that observed in non-biological networks. This makes licit to put into comparative relations [8] and [22].

中文翻译:

读者评论:“无意识-意识互连的滞后模型:探索 m-Adic 树的动力学”

此评论旨在指出最近的工作归功于 H. Kim, JY. Moon、GA Mashour 和 U. Lee ([22]),其中脑网络模型的临床和经验评估表明,同步抑制的不对称性是在全身麻醉中意识丧失和恢复过程中观察到的滞后的关键机制。间接提供了对 [8] 中概述的理论模型的实证确认(Iurato 和 Khrennikov,2015),基于一种可能将迟滞模式实施为无意识-意识互连的正式模型,该模型是在心理实体表征的基础上制定的p -进数。[22]的作者所做的主要假设之一,是在麻醉状态转换期间观察到的(物理)滞后(考虑到他们的大脑网络模型)与在非生物网络中观察到的潜在机制相同。这使得可以放入比较关系 [8] 和 [22]。
更新日期:2020-01-01
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