Why Changing Minds is Difficult: An Introduction to a Living Systems View of Learning

Tim Goodwin

doi:10.19080/pbsij.2021.16.555938

A biosemiotic note on organisms, animals, machines, cyborgs, and the quasi-autonomy of robots

Pragmatics & Cognition ◽

10.1075/pc.15.3.06emm ◽

2007 ◽

Vol 15 (3) ◽

pp. 455-483 ◽

Cited By ~ 3

Author(s):

Claus Emmeche

Keyword(s):

Cognitive Science ◽

Living Systems ◽

Human Beings ◽

Semiotic System ◽

Social Body ◽

Animal Body ◽

Emergent Systems ◽

Systems View ◽

Phenomenal States ◽

And Robotics

It is argued in this paper that robots are just quasi-autonomous beings, which must be understood, within an emergent systems view, as intrinsically linked to and presupposing human beings as societal creatures within a technologically mediated world. Biosemiotics is introduced as a perspective on living systems that is based upon contemporary biology but reinterpreted through a qualitative organicist tradition in biology. This allows for emphasizing the differences between (1) an organism as a general semiotic system with vegetative and self-reproductive capacities, (2) an animal body also with sentience and phenomenal states, and (3) higher forms of anthroposemiotic systems such as humans, machines and robots. On all three levels, representations (or sign action) are crucial processes. The “representationalism” invoked by critiques of cognitive science and robotics tends to focus only on simplistic notions of representation, and must be distinguished from a Peircean or biosemiotic notion of representation. Implications for theorizing about the physical, biological, animate, phenomenal and social body and their forms of autonomy are discussed.

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Redox Reactions in Lipid Membranes as a Model for Primordial Energy-Conserving Systems

International Astronomical Union Colloquium ◽

10.1017/s0252921100014950 ◽

1997 ◽

Vol 161 ◽

pp. 437-442

Author(s):

Salvatore Di Bernardo ◽

Romana Fato ◽

Giorgio Lenaz

Keyword(s):

Experimental Evidence ◽

Lipid Membranes ◽

Energy Supply ◽

Redox Reactions ◽

Living Systems ◽

Asymmetric Distribution ◽

Conservation Of Energy ◽

Asymmetrical Distribution ◽

Energy Conserving ◽

Living Organisms

AbstractOne of the peculiar aspects of living systems is the production and conservation of energy. This aspect is provided by specialized organelles, such as the mitochondria and chloroplasts, in developed living organisms. In primordial systems lacking specialized enzymatic complexes the energy supply was probably bound to the generation and maintenance of an asymmetric distribution of charged molecules in compartmentalized systems. On the basis of experimental evidence, we suggest that lipophilic quinones were involved in the generation of this asymmetrical distribution of charges through vectorial redox reactions across lipid membranes.

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Prolonged Fixation Studies For Spaceflight

Proceedings, annual meeting, Electron Microscopy Society of America ◽

10.1017/s0424820100072101 ◽

1973 ◽

Vol 31 ◽

pp. 332-333

Author(s):

Robert Corbett ◽

Delbert E. Philpott ◽

Sam Black

Keyword(s):

High Pressure ◽

Living Systems ◽

Prolonged Storage ◽

Time Intervals ◽

Early Signs ◽

Large Numbers

Observation of subtle or early signs of change in spaceflight induced alterations on living systems require precise methods of sampling. In-flight analysis would be preferable but constraints of time, equipment, personnel and cost dictate the necessity for prolonged storage before retrieval. Because of this, various tissues have been stored in fixatives and combinations of fixatives and observed at various time intervals. High pressure and the effect of buffer alone have also been tried.Of the various tissues embedded, muscle, cartilage and liver, liver has been the most extensively studied because it contains large numbers of organelles common to all tissues (Fig. 1).

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