This site has been permanently archived. This is a static copy provided by the University of Southampton.

--- abstract: 'Schenk and McIntosh (2009) present the thesis that most visual behaviours, especially those of any signiﬁcant complexity, are likely to involve collaboration between both visual streams. While very likely true, this statement does not contradict the perception-action model as proposed by Milner and Goodale (1995, 2006). The two visual system hypothesis implies two functionally specialized systems, and not, as Schenk and McIntosh propose, two behaviourally independent systems.' altloc: - http://artsweb.uwaterloo.ca/~jalockli/p/Locklin2010.pdf chapter: ~ commentary: ~ commref: 'Schenk, T. and McIntosh, R. (2009). Do we have independent visual streams for perception and action? Cognitive Neuroscience, 1(1):1–15. ' confdates: ~ conference: ~ confloc: ~ contact_email: ~ creators_id: - jalockli@uwaterloo.ca - jdancker@uwaterloo.ca creators_name: - family: Locklin given: Jason honourific: Mr. lineage: '' - family: Danckert given: James honourific: Dr. lineage: '' date: 2010-04-12 date_type: completed datestamp: 2010-06-06 14:35:34 department: ~ dir: disk0/00/00/68/54 edit_lock_since: ~ edit_lock_until: 0 edit_lock_user: ~ editors_id: [] editors_name: [] eprint_status: archive eprintid: 6854 fileinfo: /style/images/fileicons/application_pdf.png;/6854/1/Locklin2010.pdf full_text_status: public importid: ~ institution: ~ isbn: ~ ispublished: ~ issn: ~ item_issues_comment: [] item_issues_count: 0 item_issues_description: [] item_issues_id: [] item_issues_reported_by: [] item_issues_resolved_by: [] item_issues_status: [] item_issues_timestamp: [] item_issues_type: [] keywords: 'Perception and Action, Visualmotor control, Stroke.' lastmod: 2011-03-11 08:57:37 latitude: ~ longitude: ~ metadata_visibility: show note: ~ number: ~ pagerange: ~ pubdom: FALSE publication: ~ publisher: ~ refereed: FALSE referencetext: "Carey, D. P., Harvey, M., and Milner, A. D. (1996). Visuomotor sensitivity for shape and orientation in a patient with visual form agnosia. Neuropsychologia, 34(5):329–337.\r\n\r\nDijkerman, H. C. and Milner, A. D. (1998). The perception and prehension of objects oriented in the depth plane. ii. dissociated orientation functions in normal subjects. Exp Brain Res, 118(3):408–414.\r\n\r\nDijkerman, H. C., Milner, A. D., and Carey, D. P. (1996). The perception and prehension of objects oriented in the depth plane. i. effects of visual form agnosia. Exp Brain Res, 112(3):442–451.\r\n\r\nDijkerman, H. C., Milner, A. D., and Carey, D. P. (1998). Grasping spatial relationships: failure to demonstrate allocentric visual coding in a patient with visual form agnosia. Conscious Cogn, 7(3):424–437.\r\n\r\nDijkerman, H. C., Milner, A. D., and Carey, D. P. (1999). Motion parallax enables depth processing for action in a visual form agnosic when binocular vision is unavailable. Neuropsychologia, 37(13):1505–1510.\r\n\r\nGoodale, M. A., Jakobson, L. S., Milner, A. D., Perrett, D. I., Benson, P. J., and Hietanen, J. K. (1994). The nature and limits of orientation and pattern processing supporting visuomotor control in a visual form agnosic. Journal of Cognitive Neuroscience, 6(1):46–56.\r\n\r\nGoodale, M. A., Milner, A. D., Jakobson, L. S., and Carey, D. P. (1991). A neurological dissociation between perceiving objects and grasping them. Nature, 349(6305):154–6. 0028-0836 (Print) Journal Article Research Support, Non-U.S. Gov’t.\r\n\r\nMcIntosh, R. D., Dijkerman, H. C., Mon-Williams, M., and Milner, A. D. (2004). Grasping what is graspable: evidence from visual form agnosia. Cortex, 40(4-5):695–702. \r\n\r\nMilner, A. D. and Goodale, M. A. (1995). The Visual Brain in Action. Oxford University Press, USA. Milner, A. D. and Goodale, M. A. (2006). The Visual Brain in Action Second edition. Oxford University Press, USA.\r\n\r\nMilner, A. D. and Goodale, M. A. (2006). The Visual Brain in Action Second edition. Oxford University Press, USA. \r\n\r\nMon-Williams, M., McIntosh, R. D., and Milner, A. D. (2001a). Vertical gaze angle as a distance cue for programming reaching: insights from visual form agnosia ii (of iii). Exp Brain Res, 139(2):137–142.\r\n\r\nMon-Williams, M., Tresilian, J. R., McIntosh, R. D., and Milner, A. D. (2001b). Monocular and binocular distance cues: insights from visual form agnosia i (of iii). Exp Brain Res, 139(2):127–136.\r\n\r\nSchenk, T. and McIntosh, R. (2009). Do we have independent visual streams for perception and action? Cognitive Neuroscience, 1(1):1–15." relation_type: [] relation_uri: [] reportno: ~ rev_number: 9 series: ~ source: ~ status_changed: 2010-06-06 14:35:34 subjects: - behav-neuro-sci succeeds: 6821 suggestions: Extra line-breaks in the references meta-data made a mess of the webpage. sword_depositor: ~ sword_slug: ~ thesistype: ~ title: 'Do we have Independent Visual Streams for Perception and Action? a Response.' type: preprint userid: 10131 volume: ~