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Objects of consciousness.

Hoffman DD, Prakash C - Front Psychol (2014)

Bottom Line: However, recent studies of perceptual evolution, using evolutionary games and genetic algorithms, reveal that natural selection often drives true perceptions to extinction when they compete with perceptions tuned to fitness rather than truth: Perception guides adaptive behavior; it does not estimate a preexisting physical truth.This allows us to reinterpret physical properties such as position, momentum, and energy as properties of interacting conscious agents, rather than as preexisting physical truths.We sketch how this approach might extend to the perception of relativistic quantum objects, and to classical objects of macroscopic scale.

View Article: PubMed Central - PubMed

Affiliation: Department of Cognitive Sciences, University of California Irvine, CA, USA.

ABSTRACT
Current models of visual perception typically assume that human vision estimates true properties of physical objects, properties that exist even if unperceived. However, recent studies of perceptual evolution, using evolutionary games and genetic algorithms, reveal that natural selection often drives true perceptions to extinction when they compete with perceptions tuned to fitness rather than truth: Perception guides adaptive behavior; it does not estimate a preexisting physical truth. Moreover, shifting from evolutionary biology to quantum physics, there is reason to disbelieve in preexisting physical truths: Certain interpretations of quantum theory deny that dynamical properties of physical objects have definite values when unobserved. In some of these interpretations the observer is fundamental, and wave functions are compendia of subjective probabilities, not preexisting elements of physical reality. These two considerations, from evolutionary biology and quantum physics, suggest that current models of object perception require fundamental reformulation. Here we begin such a reformulation, starting with a formal model of consciousness that we call a "conscious agent." We develop the dynamics of interacting conscious agents, and study how the perception of objects and space-time can emerge from such dynamics. We show that one particular object, the quantum free particle, has a wave function that is identical in form to the harmonic functions that characterize the asymptotic dynamics of conscious agents; particles are vibrations not of strings but of interacting conscious agents. This allows us to reinterpret physical properties such as position, momentum, and energy as properties of interacting conscious agents, rather than as preexisting physical truths. We sketch how this approach might extend to the perception of relativistic quantum objects, and to classical objects of macroscopic scale.

No MeSH data available.


Three conscious agents with directed joins. Here we assume A1 = P2, A2 = P3, and A3 = P1.
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Figure 7: Three conscious agents with directed joins. Here we assume A1 = P2, A2 = P3, and A3 = P1.

Mentions: So far we have considered joins that are undirected, in the sense that if C1 sends a message to C2 then C2 sends a message to C1. However, it is also possible for conscious agents to have directed joins. This is illustrated in Figure 7. In this case, C1 sends a message to C2 and receives a message from C3, but receives no message from C2 and sends no message to C3. Similar remarks hold, mutatis mutandis, for C2 and C3.


Objects of consciousness.

Hoffman DD, Prakash C - Front Psychol (2014)

Three conscious agents with directed joins. Here we assume A1 = P2, A2 = P3, and A3 = P1.
© Copyright Policy - open-access
Related In: Results  -  Collection

License
Show All Figures
getmorefigures.php?uid=PMC4060643&req=5

Figure 7: Three conscious agents with directed joins. Here we assume A1 = P2, A2 = P3, and A3 = P1.
Mentions: So far we have considered joins that are undirected, in the sense that if C1 sends a message to C2 then C2 sends a message to C1. However, it is also possible for conscious agents to have directed joins. This is illustrated in Figure 7. In this case, C1 sends a message to C2 and receives a message from C3, but receives no message from C2 and sends no message to C3. Similar remarks hold, mutatis mutandis, for C2 and C3.

Bottom Line: However, recent studies of perceptual evolution, using evolutionary games and genetic algorithms, reveal that natural selection often drives true perceptions to extinction when they compete with perceptions tuned to fitness rather than truth: Perception guides adaptive behavior; it does not estimate a preexisting physical truth.This allows us to reinterpret physical properties such as position, momentum, and energy as properties of interacting conscious agents, rather than as preexisting physical truths.We sketch how this approach might extend to the perception of relativistic quantum objects, and to classical objects of macroscopic scale.

View Article: PubMed Central - PubMed

Affiliation: Department of Cognitive Sciences, University of California Irvine, CA, USA.

ABSTRACT
Current models of visual perception typically assume that human vision estimates true properties of physical objects, properties that exist even if unperceived. However, recent studies of perceptual evolution, using evolutionary games and genetic algorithms, reveal that natural selection often drives true perceptions to extinction when they compete with perceptions tuned to fitness rather than truth: Perception guides adaptive behavior; it does not estimate a preexisting physical truth. Moreover, shifting from evolutionary biology to quantum physics, there is reason to disbelieve in preexisting physical truths: Certain interpretations of quantum theory deny that dynamical properties of physical objects have definite values when unobserved. In some of these interpretations the observer is fundamental, and wave functions are compendia of subjective probabilities, not preexisting elements of physical reality. These two considerations, from evolutionary biology and quantum physics, suggest that current models of object perception require fundamental reformulation. Here we begin such a reformulation, starting with a formal model of consciousness that we call a "conscious agent." We develop the dynamics of interacting conscious agents, and study how the perception of objects and space-time can emerge from such dynamics. We show that one particular object, the quantum free particle, has a wave function that is identical in form to the harmonic functions that characterize the asymptotic dynamics of conscious agents; particles are vibrations not of strings but of interacting conscious agents. This allows us to reinterpret physical properties such as position, momentum, and energy as properties of interacting conscious agents, rather than as preexisting physical truths. We sketch how this approach might extend to the perception of relativistic quantum objects, and to classical objects of macroscopic scale.

No MeSH data available.