Luke Rosielle - Academia.edu (original) (raw)
Papers by Luke Rosielle
Four experiments were conducted that investigated the role of metric information in the identific... more Four experiments were conducted that investigated the role of metric information in the identification and episodic recognition of scenes. A fifth experiment examined whether scene identification showed any hemispheric advantage. For scene identification, a priming paradigm was used in which participants were required to identify scenes that were identical,
CRC Press eBooks, Apr 21, 2022
Perception, 2009
Five experiments were conducted to determine how novice and expert drawers represent relative siz... more Five experiments were conducted to determine how novice and expert drawers represent relative size for the purposes of drawing. Participants were shown images of two-part or three-part geometric figures composed of two spatially separated shapes. In each picture there was a small but noticeable relative-size difference between the constituent shapes (one part of the picture was always 25% larger than another part). Participants later drew the pictures from memory. The results showed that novice and expert drawers consistently exaggerated the relative size relationship between the shapes in the picture when attempting to draw it from memory and when copying (the`caricature effect'), although the effect was reduced for the experts. The results are consistent with the idea that people represent size in memory using categorical descriptors (eg`smaller than',`larger than') rather than as precise metrics. Further, the results suggest that the process of becoming a skilled drawer may involve overcoming this categorical bias.
Psychonomic Bulletin & Review, Jun 1, 2002
CRC Press eBooks, Apr 21, 2022
CRC Press eBooks, Apr 21, 2022
CRC Press eBooks, Apr 21, 2022
Research during Medical Residency
Four experiments were conducted that investigated the role of metric information in the identific... more Four experiments were conducted that investigated the role of metric information in the identification and episodic recognition of scenes. A fifth experiment examined whether scene identification showed any hemispheric advantage. For scene identification, a priming paradigm was used in which participants were required to identify scenes that were identical,
Some theories (e.g., Biederman, 1987, Hummel & Biederman, 1992) propose that in the representatio... more Some theories (e.g., Biederman, 1987, Hummel & Biederman, 1992) propose that in the representation used for visual object recognition, the relative orientation of the parts of an object is coded categorically (e.g., parallel, perpendicular, and oblique). The current research provides the first empirical test of this hypothesis. Two experiments were conducted using two part nonsense objects. For each nonsense object, four versions were created in which the orientationsof the two parts were varied. In one experiment (a classification task), subjects had to decide if two sequentially presented objects were the same ignoring any changes in the orientation of the objects parts. In a second experiment (a physical discrimination task), subjects had to decide if two objects (which would sometimes differ in the relative orientation of the parts) were physically identical. In the classification task, subjects showed better recognition performance when both objects were within a category bound...
Perception, 2009
Five experiments were conducted to determine how novice and expert drawers represent relative siz... more Five experiments were conducted to determine how novice and expert drawers represent relative size for the purposes of drawing. Participants were shown images of two-part or three-part geometric figures composed of two spatially separated shapes. In each picture there was a small but noticeable relative-size difference between the constituent shapes (one part of the picture was always 25% larger than another part). Participants later drew the pictures from memory. The results showed that novice and expert drawers consistently exaggerated the relative size relationship between the shapes in the picture when attempting to draw it from memory and when copying (the ‘caricature effect’), although the effect was reduced for the experts. The results are consistent with the idea that people represent size in memory using categorical descriptors (eg ‘smaller than’, ‘larger than’) rather than as precise metrics. Further, the results suggest that the process of becoming a skilled drawer may in...
Perception, 2002
Four experiments were performed to test whether the perceptual priming of face recognition would ... more Four experiments were performed to test whether the perceptual priming of face recognition would show invariance to changes in size, position, reflectional orientation (mirror reversal), and picture-plane rotation. In all experiments, subjects recognized faces in two blocks of trials; in the second block, some of the faces were identical to those in the first, and others had undergone metric transformations. The results show that subjects were equally fast to recognize faces whether or not the faces had changed in size, position, or reflectional orientation between the first and second presentations of the faces. In contrast, subjects were slower to recognize both faces and objects when they were planar-rotated between the first and second presentations. The results suggest that the same metric invariances are shown by both face recognition and basic-level object recognition.
Four experiments were conducted that investigated the role of metric information in the identific... more Four experiments were conducted that investigated the role of metric information in the identification and episodic recognition of scenes. A fifth experiment examined whether scene identification showed any hemispheric advantage. For scene identification, a priming paradigm was used in which participants were required to identify scenes that were identical,
CRC Press eBooks, Apr 21, 2022
Perception, 2009
Five experiments were conducted to determine how novice and expert drawers represent relative siz... more Five experiments were conducted to determine how novice and expert drawers represent relative size for the purposes of drawing. Participants were shown images of two-part or three-part geometric figures composed of two spatially separated shapes. In each picture there was a small but noticeable relative-size difference between the constituent shapes (one part of the picture was always 25% larger than another part). Participants later drew the pictures from memory. The results showed that novice and expert drawers consistently exaggerated the relative size relationship between the shapes in the picture when attempting to draw it from memory and when copying (the`caricature effect'), although the effect was reduced for the experts. The results are consistent with the idea that people represent size in memory using categorical descriptors (eg`smaller than',`larger than') rather than as precise metrics. Further, the results suggest that the process of becoming a skilled drawer may involve overcoming this categorical bias.
Psychonomic Bulletin & Review, Jun 1, 2002
CRC Press eBooks, Apr 21, 2022
CRC Press eBooks, Apr 21, 2022
CRC Press eBooks, Apr 21, 2022
Research during Medical Residency
Four experiments were conducted that investigated the role of metric information in the identific... more Four experiments were conducted that investigated the role of metric information in the identification and episodic recognition of scenes. A fifth experiment examined whether scene identification showed any hemispheric advantage. For scene identification, a priming paradigm was used in which participants were required to identify scenes that were identical,
Some theories (e.g., Biederman, 1987, Hummel & Biederman, 1992) propose that in the representatio... more Some theories (e.g., Biederman, 1987, Hummel & Biederman, 1992) propose that in the representation used for visual object recognition, the relative orientation of the parts of an object is coded categorically (e.g., parallel, perpendicular, and oblique). The current research provides the first empirical test of this hypothesis. Two experiments were conducted using two part nonsense objects. For each nonsense object, four versions were created in which the orientationsof the two parts were varied. In one experiment (a classification task), subjects had to decide if two sequentially presented objects were the same ignoring any changes in the orientation of the objects parts. In a second experiment (a physical discrimination task), subjects had to decide if two objects (which would sometimes differ in the relative orientation of the parts) were physically identical. In the classification task, subjects showed better recognition performance when both objects were within a category bound...
Perception, 2009
Five experiments were conducted to determine how novice and expert drawers represent relative siz... more Five experiments were conducted to determine how novice and expert drawers represent relative size for the purposes of drawing. Participants were shown images of two-part or three-part geometric figures composed of two spatially separated shapes. In each picture there was a small but noticeable relative-size difference between the constituent shapes (one part of the picture was always 25% larger than another part). Participants later drew the pictures from memory. The results showed that novice and expert drawers consistently exaggerated the relative size relationship between the shapes in the picture when attempting to draw it from memory and when copying (the ‘caricature effect’), although the effect was reduced for the experts. The results are consistent with the idea that people represent size in memory using categorical descriptors (eg ‘smaller than’, ‘larger than’) rather than as precise metrics. Further, the results suggest that the process of becoming a skilled drawer may in...
Perception, 2002
Four experiments were performed to test whether the perceptual priming of face recognition would ... more Four experiments were performed to test whether the perceptual priming of face recognition would show invariance to changes in size, position, reflectional orientation (mirror reversal), and picture-plane rotation. In all experiments, subjects recognized faces in two blocks of trials; in the second block, some of the faces were identical to those in the first, and others had undergone metric transformations. The results show that subjects were equally fast to recognize faces whether or not the faces had changed in size, position, or reflectional orientation between the first and second presentations of the faces. In contrast, subjects were slower to recognize both faces and objects when they were planar-rotated between the first and second presentations. The results suggest that the same metric invariances are shown by both face recognition and basic-level object recognition.