Towards an Understanding of Mirror Mechanism, Between Phenomenology and Natural Sciences

Nicole Simonetti
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Abstract

Naturalizing phenomenology or phenomenologizing neurosciences? This is the provocative and stimulating question that Gallese asks himself/us (taken from Enciclopedia Treccani, 2009) to try to better understand the explanatory significance of the mirror mechanism. The attempt to make neurosciences and phenomenology interact originally took shape as a project for the naturalization of phenomenological research to which, in recent decades, Francisco Varela has contributed (Autopoiesis and Cognition, 1980). Like classical cognitivism, cognitive neuroscience, until not many years ago, favored a model according to which functions such as sensation, perception and motor control would be “localized” in different cortical areas. The experimental data acquired over the last twenty years, however, give us a completely different picture. The motor cortex of the frontal lobe, as well as the posterior parietal cortex, are made up of a mosaic of distinct areas on the anatomical-functional level that contract reciprocally connection relationships to form distinct cortico-cortical circuits (Rizzolatti & Sinigaglia, 2006). Both things and objects acquire full signification only insofar as they constitute one of the poles of a dynamic relationship with the acting subject, which constitutes the second pole of this relationship. This type of approach allows us to redefine the triad perception, action and cognition in a new perspective, and, above all, in a perspective compatible with an “embodied” meaning. Instead, A. Attanasio and A. Oliverio propose a Darwinian reading mirror mechanism, centered on a “social-embodied-emotional mind”, rooted in the “reason-instinct” of D. Hume and in the “emotional revolution” of W James. Mirror mechanism does not make any logical-mental inference: the action is the result of a motor simulation. Furthermore, this audio-visual mirror mechanism, also present among non-linguistic species, confirms that the understanding of sounds, images, motor acts are inserted within “a simpler level of semantic reference.” In his Ecology of the brain. The phenomenology and biology of the embodied mind, 2017 T. Fuchs focuses his arguing on the concept of embodiment. The basic self-awareness is something that emerges from the whole body in interaction with the brain, of course, and the brain is necessary to integrate bodily afferences and bodily states, but it is in constant interaction with the body and only through this homeostatic regulation our embodied self-awareness emerges. So, if we are conscious beings, we are already embodied conscious beings. The other major dimension is the sensorimotor dimension. Here we transcend our organic body to interact with the environment by the limbs, by connecting ourselves with objects, by transcending the body when we deal with objects or by transcending the body when we deal with other subjects. Finally, I believe that the naturalistic phenomenology of Varela and Maturana is closer to the philosophy of complexity, to Bateson’s ecological approach and to an evolutionary approach, supported, for example, by the psychobiologist A. Oliverio, in agreement with which I believe it is better the essential adaptive, social and communicative role of the mirror mechanism at a species-specific level can be explained. I think that Fuchs’ idea of the ecology of brain, the body as a living whole and the organism as not just composed of parts, but as a self-reproducing autopoietic whole which is the basis of my embodied experience, might be a good explicative meeting point for phenomenology and natural sciences, in the direction of a holistic and comprehensive view for mirror mechanism in human being.
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在现象学与自然科学之间对镜像机制的理解
自然现象学还是神经科学现象学?这是Gallese为了更好地理解镜像机制的解释意义而向自己/我们提出的一个具有挑衅性和刺激性的问题(摘自百科全书,2009)。使神经科学和现象学相互作用的尝试最初是作为现象学研究归化的一个项目而形成的,近几十年来,弗朗西斯科·瓦雷拉对此做出了贡献(自创生与认知,1980年)。就像经典认知主义一样,认知神经科学直到几年前还支持一种模型,根据这种模型,感觉、知觉和运动控制等功能将“定位”在不同的皮层区域。然而,过去二十年来获得的实验数据给了我们一个完全不同的画面。额叶的运动皮层,以及后顶叶皮层,是由解剖学功能水平上不同区域的马赛克组成的,这些区域相互收缩连接关系,形成不同的皮质-皮质回路(Rizzolatti & Sinigaglia, 2006)。事物和客体只有在它们构成与行动主体的动态关系的一个极时才获得充分的意义,而行动主体则构成这种关系的第二个极。这种方法使我们能够从一个新的角度重新定义感知、行动和认知这三个方面,最重要的是,从一个与“具体化”意义相容的角度来重新定义。相反,a . Attanasio和a . Oliverio提出了一种达尔文式的阅读镜像机制,该机制以“社会体现的情感心灵”为中心,植根于休谟的“理性-本能”和詹姆斯的“情感革命”。镜像机制不做任何逻辑心理推理:动作是运动模拟的结果。此外,这种视听镜像机制也存在于非语言物种中,证实了对声音、图像、运动行为的理解是在“更简单的语义参考水平”中插入的。在他的大脑生态学中。具身心灵的现象学和生物学,2017 T. Fuchs将他的论点集中在具身的概念上。基本的自我意识是由整个身体与大脑相互作用而产生的,当然,大脑是整合身体的影响和身体状态所必需的,但它是与身体不断相互作用的,只有通过这种内稳态调节,我们的具身自我意识才会出现。所以,如果我们是有意识的人,我们已经是具身的有意识的人了。另一个主要维度是感觉运动维度。在这里,我们超越了我们的有机身体通过肢体与环境互动,通过将我们自己与物体连接起来,通过在处理物体时超越身体或者在处理其他主体时超越身体。最后,我相信Varela和Maturana的自然现象学更接近于复杂性哲学,更接近于Bateson的生态方法和进化方法,例如,由心理生物学家a . Oliverio支持的进化方法,我认为在特定物种层面上,镜像机制的基本适应性,社会和交流作用可以得到更好的解释。我认为Fuchs关于大脑生态学的观点,身体作为一个有生命的整体,有机体不仅仅是由部分组成,而是作为一个自我复制的自创生的整体,这是我具体化经验的基础,可能是现象学和自然科学的一个很好的解释性交汇点,在人类镜像机制的整体和综合观点的方向上。
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