Sarah H. Creem scite author profile

Six experiments compared spatial updating of an array after imagined rotations of the array versus viewer. Participants responded faster and made fewer errors in viewer tasks than in array tasks while positioned outside (Experiment 1) or inside (Experiment 2) the array. An apparent array advantage for updating objects rather than locations was attributable to participants imagining translations of single objects rather than rotations of the array (Experiment 3). Superior viewer performance persisted when the array was reduced to 1 object (Experiment 4); however, an object with a familiar configuration improved object performance somewhat (Experiment 5). Object performance reached near-viewer levels when rotations included haptic information for the turning object. The researchers discuss these findings in terms of the relative differences in which the human cognitive system transforms the spatial reference frames corresponding to each imagined rotation.Suppose you are playing a board game with a group of friends, and you want to know what the board looks like from one of their perspectives, without moving to it. There are two obvious ways to proceed. You could imagine rotating the board until the side corresponding to the new perspective is coincident with your current viewpoint (object rotation). Alternatively, you could imagine moving yourself to the vantage point of the new perspective (viewer rotation). Both operations have been implicated in human beings 1 ability to update objects and scenes across views (e.g.,

show abstract

Grasping objects by their handles: A necessary interaction between cognition and action.

Creem¹,

Proffítt²

2001

Journal of Experimental Psychology: Human Perception and Perfor

201

150

View full text Add to dashboard Cite

Research has illustrated dissociations between "cognitive" and "action" systems, suggesting that different representations may underlie phenomenal experience and visuomotor behavior. However, these systems also interact. The present studies show a necessary interaction when semantic processing of an object is required for an appropriate action. Experiment 1 demonstrated that a semantic task interfered with grasping objects appropriately by their handles, but a visuospatial task did not. Experiment 2 assessed performance on a visuomotor task that had no semantic component and showed a reversal of the effects of the concurrent tasks. In Experiment 3, variations on concurrent word tasks suggested that retrieval of semantic information was necessary for appropriate grasping. In all, without semantic processing, the visuomotor system can direct the effective grasp of an object, but not in a manner that is appropriate for its use.

show abstract

Two memories for geographical slant: Separation and interdependence of action and awareness

1998

View full text Add to dashboard Cite

The present study extended previous findings of geographical slant perception, in which verbal judgments of the incline of hills were greatly overestimated but motoric (haptic) adjustments were much more accurate. In judging slant from memory following a brief or extended time delay, subjects' verbal judgments were greater than those given when viewing hills. Motoric estimates differed depending on the length of the delay and place of response. With a short delay, motoric adjustments made in the proximity of the hill did not differ from those evoked during perception. When given a longer delay or when taken away from the hill, subjects' motoric responses increased along with the increase in verbal reports. These results suggest two different memorial influences on action. With a short delay at the hill, memory for visual guidance is separate from the explicit memory informing the conscious response. With short or long delays away from the hill, short-term visual guidance memory no longer persists, and both motor and verbal responses are driven by an explicit representation. These results support recent research involving visual guidance from memory, where actions become influenced by conscious awareness, and provide evidence for communication between the "what" and "how" visual processing systems.Hills appear steeper than they actually are, an intriguing phenomenon recently described by Proffitt, Bhalla, Gossweiler, and Midgett (1995). For example, a 5°hill is consistently judged to be about 20°. Although people judge hills to be much steeper than they actually are, they can traverse them with no difficulty. Despite an exaggeration in conscious perceptual judgment, people do not manifest this overestimation in a visually guided action directed toward the hill. Proffitt et al. showed that a motoric (haptic) adjustment of slant did not reflect the overestimation seen in conscious reports ofthe hill inclination. They proposed that the perceived exaggeration of geographical slant preserves the relationship between distal inclination and people's behavioral potential. The steepness of a hill that one perceives gives the observer information about the effort required to traverse that hill. Furthermore, Proffitt et al. suggested that the differences between verbal and motoric estimates of hill slants illustrate the separation of the visual pathways that mediate conscious perception and visually guided action.We recently asked people to judge the slants of familiar hills from memory. We found that people remembered hills to be even steeper than they had perceived them to be. This research was supported by NIMH Grant MH52640 and NASA Grant NCC-2-925 to D. R. P. The authors wish to thank Mukul Bhalla for many discussions of ideas, Arthur Shulman for providing valuable comments on an earlier version of this paper, and Valerie Lewis and Gavin Sacks for their help in running the experiments. Correspondence should be addressed to S. H. Creem, Department of Psychology, 102 Gilmer Hall, University of Virginia, Charlottesville, ...

show abstract

Defining the cortical visual systems: “What”, “Where”, and “How”

2001

View full text Add to dashboard Cite

Seeing Mountains in Mole Hills: Geographical-Slant Perception

2001

View full text Add to dashboard Cite

When observers face directly toward the incline of a hill, their awareness of the slant of the hill is greatly overestimated, but motoric estimates are much more accurate. The present study examined whether similar results would be found when observers were allowed to view the side of a hill. Observers viewed the cross-sections of hills in real (Experiment 1) and virtual (Experiment 2) environments and estimated the inclines with verbal estimates, by adjusting the cross-section of a disk, and by adjusting a board with their unseen hand to match the inclines. We found that the results for cross-section viewing replicated those found when observers directly face the incline. Even though the angles of hills are directly evident when viewed from the side, slant perceptions are still grossly overestimated.

show abstract

scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.

Contact Info

customersupport@researchsolutions.com

10624 S. Eastern Ave., Ste. A-614

Henderson, NV 89052, USA

This site is protected by reCAPTCHA and the Google Privacy Policy and Terms of Service apply.

Blog Terms and Conditions API Terms Privacy Policy Contact Cookie Preferences Do Not Sell or Share My Personal Information

Made with 💙 for researchers

Part of the Research Solutions Family.

Sarah H. Creem

Updating displays after imagined object and viewer rotations.

Grasping objects by their handles: A necessary interaction between cognition and action.

Two memories for geographical slant: Separation and interdependence of action and awareness

Defining the cortical visual systems: “What”, “Where”, and “How”

Seeing Mountains in Mole Hills: Geographical-Slant Perception

Contact Info

Product

Resources

About