A spatially oriented decision does not induce consciousness in a motor task

&
Consciousness and Cognition 7 (3):454-464 (1998)
  Copy   BIBTEX

Abstract

Visual information follows at least two branches in the human nervous system, following a common input stage: a cognitive ''what'' branch governs perception and experience, while a sensorimotor ''how'' branch handles visually guided behavior though its outputs are unconscious. The sensorimotor system is probed with an isomorphic task, requiring a 1:1 relationship between target position and motor response. The cognitive system, in contrast, is probed with a forced qualitative decision, expressed verbally, about the location of a target. Normally, the cognitive system is influenced by context-induced illusions of visual direction, while the sensorimotor system is not. Here, we inquire whether the process of making a spatially based decision is critical in forcing subjects to use the information in the cognitive system for spatial tasks. Subjects hear a tone that determines whether they jab an ''X'' or an ''O'' with the forefinger. Despite making a decision about which target to contact, the jab is not influenced by the position of a surrounding frame, indicating that choice can be handled within the context-insensitive sensorimotor system

Categories

Keywords

Reprint years

DOI

10.1006/ccog.1998.0357

Links

PhilArchive



    Upload a copy of this work     Papers currently archived: 91,386

External links

Setup an account with your affiliations in order to access resources via your University's proxy server

Through your library

My notes

Similar books and articles

A Dynamic Context Model of Interactive Behavior.Wai-Tat Fu - 2011 - Cognitive Science 35 (5):874-904.
Defining visuomotor dissociations and an application to the oculomotor system.Bruce Bridgeman - 2004 - Behavioral and Brain Sciences 27 (1):27-28.
Adaptive versus veridical decision making and the frontal lobes.Elkhonon Goldberg & Kenneth Podell - 1999 - Consciousness and Cognition 8 (3):364-377.
Implicit short-lived motor representations of space in brain damaged and healthy subjects.Yves Rossetti - 1998 - Consciousness and Cognition 7 (3):520-558.
Neurophysiology indicates cognitive penetration of the visual system.Alexander Grunewald - 1999 - Behavioral and Brain Sciences 22 (3):379-380.
Grammar originates in action planning, not in cognitive and sensorimotor visual systems.Bruce Bridgeman - 2003 - Behavioral and Brain Sciences 26 (3):287-287.
Violations of sensorimotor theories of visual experience.Bruce Bridgeman - 2004 - Behavioral and Brain Sciences 27 (6):904-905.
Embodied cognition.Fred Adams - 2010 - Phenomenology and the Cognitive Sciences 9 (4):619-628.
Neuroanatomy and function in two visual systems.Bruce Bridgeman - 2000 - Behavioral and Brain Sciences 23 (4):535-536.

Analytics

Added to PP
2009-01-28

Downloads
39 (#398,894)

6 months
19 (#129,880)

Historical graph of downloads
How can I increase my downloads?

Citations of this work

A theory of implicit and explicit knowledge.Zoltan Dienes & Josef Perner - 1999 - Behavioral and Brain Sciences 22 (5):735-808.
Unifying consciousness with explicit knowledge.Zoltán Dienes & Josef Perner - 2003 - In Axel Cleeremans (ed.), The Unity of Consciousness. Oxford University Press. pp. 214--232.
Visual awareness and the on-line modification of action.Jillian H. Fecteau, Romeo Chua, Ian Franks & James T. Enns - 2001 - Canadian Journal of Experimental Psychology 55 (2):104-110.

View all 6 citations / Add more citations

References found in this work

Blindsight revisited.Lawrence Weiskrantz - 1996 - Current Opinion in Neurobiology 6:215-220.

Add more references