Your search keyword '"Norman HF"' showing total 5 results

1. Haptic shape discrimination and interhemispheric communication.

Author

Dowell CJ, Norman JF, Moment JR, Shain LM, Norman HF, Phillips F, and Kappers AML

Subjects

Adult, Aged, Aged, 80 and over, Female, Humans, Male, Middle Aged, Psychomotor Performance, Young Adult, Brain physiology, Discrimination, Psychological physiology, Form Perception physiology, Hand physiology

Abstract

In three experiments participants haptically discriminated object shape using unimanual (single hand explored two objects) and bimanual exploration (both hands were used, but each hand, left or right, explored a separate object). Such haptic exploration (one versus two hands) requires somatosensory processing in either only one or both cerebral hemispheres; previous studies related to the perception of shape/curvature found superior performance for unimanual exploration, indicating that shape comparison is more effective when only one hemisphere is utilized. The current results, obtained for naturally shaped solid objects (bell peppers, Capsicum annuum) and simple cylindrical surfaces demonstrate otherwise: bimanual haptic exploration can be as effective as unimanual exploration, showing that there is no necessary reduction in ability when haptic shape comparison requires interhemispheric communication. We found that while successive bimanual exploration produced high shape discriminability, the participants' bimanual performance deteriorated for simultaneous shape comparisons. This outcome suggests that either interhemispheric interference or the need to attend to multiple objects simultaneously reduces shape discrimination ability. The current results also reveal a significant effect of age: older adults' shape discrimination abilities are moderately reduced relative to younger adults, regardless of how objects are manipulated (left hand only, right hand only, or bimanual exploration).

Published

2018

2. Aging and solid shape recognition: Vision and haptics.

Author

Norman JF, Cheeseman JR, Adkins OC, Cox AG, Rogers CE, Dowell CJ, Baxter MW, Norman HF, and Reyes CM

Subjects

Adult, Analysis of Variance, Discrimination, Psychological physiology, Female, Humans, Male, Photic Stimulation methods, Vegetables, Young Adult, Aging physiology, Form Perception physiology, Recognition, Psychology physiology, Visual Perception physiology

Abstract

The ability of 114 younger and older adults to recognize naturally-shaped objects was evaluated in three experiments. The participants viewed or haptically explored six randomly-chosen bell peppers (Capsicum annuum) in a study session and were later required to judge whether each of twelve bell peppers was "old" (previously presented during the study session) or "new" (not presented during the study session). When recognition memory was tested immediately after study, the younger adults' (Experiment 1) performance for vision and haptics was identical when the individual study objects were presented once. Vision became superior to haptics, however, when the individual study objects were presented multiple times. When 10- and 20-min delays (Experiment 2) were inserted in between study and test sessions, no significant differences occurred between vision and haptics: recognition performance in both modalities was comparable. When the recognition performance of older adults was evaluated (Experiment 3), a negative effect of age was found for visual shape recognition (younger adults' overall recognition performance was 60% higher). There was no age effect, however, for haptic shape recognition. The results of the present experiments indicate that the visual recognition of natural object shape is different from haptic recognition in multiple ways: visual shape recognition can be superior to that of haptics and is affected by aging, while haptic shape recognition is less accurate and unaffected by aging., (Copyright © 2015 Elsevier Ltd. All rights reserved.)

Published

2015

3. Aging and the visual perception of exocentric distance.

Author

Norman JF, Adkins OC, Norman HF, Cox AG, and Rogers CE

Subjects

Adult, Aged, Aged, 80 and over, Female, Humans, Male, Young Adult, Aging physiology, Distance Perception physiology, Judgment physiology, Visual Perception physiology

Abstract

The ability of 18 younger and older adults to visually perceive exocentric distances was evaluated. The observers judged the extent of fronto-parallel and in-depth spatial intervals at a variety of viewing distances from 50cm to 164.3cm. Most of the observers perceived in-depth intervals to be significantly smaller than fronto-parallel intervals, a finding that is consistent with previous studies. While none of the individual observers' judgments of exocentric distance were accurate, the judgments of the older observers were significantly more accurate than those of the younger observers. The precision of the observers' judgments across repeated trials, however, was not affected by age. The results demonstrate that increases in age can produce significant improvements in the visual ability to perceive the magnitude of exocentric distances., (Copyright © 2015 Elsevier Ltd. All rights reserved.)

Published

2015

4. Stereopsis and aging.

Author

Norman JF, Norman HF, Craft AE, Walton CL, Bartholomew AN, Burton CL, Wiesemann EY, and Crabtree CE

Subjects

Adolescent, Adult, Aged, Aged, 80 and over, Aging physiology, Discrimination, Psychological physiology, Humans, Middle Aged, Orientation, Pattern Recognition, Visual physiology, Photic Stimulation methods, Psychophysics, Sensory Thresholds physiology, Vision Disparity physiology, Vision, Binocular physiology, Aging psychology, Depth Perception physiology

Abstract

Three experiments investigated whether and to what extent increases in age affect the functionality of stereopsis. The observers' ages ranged from 18 to 83 years. The overall goal was to challenge the older stereoscopic visual system by utilizing high magnitudes of binocular disparity, ambiguous binocular disparity [cf., Julesz, B., & Chang, J. (1976). Interaction between pools of binocular disparity detectors tuned to different disparities. Biological Cybernetics, 22, 107-119], and by making binocular matching more difficult. In particular, Experiment 1 evaluated observers' abilities to discriminate ordinal depth differences away from the horopter using standing disparities of 6.5-46 min arc. Experiment 2 assessed observers' abilities to discriminate stereoscopic shape using line-element stereograms. The direction (crossed vs. uncrossed) and magnitude of the binocular disparity (13.7 and 51.5 min arc) were manipulated. Binocular matching was made more difficult by varying the orientations of corresponding line elements across the two eyes' views. The purpose of Experiment 3 was to determine whether the aging stereoscopic system can resolve ambiguous binocular disparities in a manner similar to that of younger observers. The results of all experiments demonstrated that older observers' stereoscopic vision is functionally comparable to that of younger observers in many respects. For example, both age groups exhibited a similar ability to discriminate depth and surface shape. The results also showed, however, that age-related differences in stereopsis do exist, and they become most noticeable when the older stereoscopic system is challenged by multiple simultaneous factors.

Published

2008

5. Visual discrimination of local surface structure: slant, tilt, and curvedness.

Author

Norman JF, Todd JT, Norman HF, Clayton AM, and McBride TR

Subjects

Humans, Judgment physiology, Orientation, Photic Stimulation methods, Psychometrics, Sensory Thresholds physiology, Vision Disparity physiology, Vision, Binocular physiology, Depth Perception physiology, Discrimination, Psychological physiology, Form Perception physiology

Abstract

In four experiments, observers were required to discriminate interval or ordinal differences in slant, tilt, or curvedness between designated probe points on randomly shaped curved surfaces defined by shading, texture, and binocular disparity. The results reveal that discrimination thresholds for judgments of slant or tilt typically range between 4 degrees and 10 degrees; that judgments of one component are unaffected by simultaneous variations in the other; and that the individual thresholds for either the slant or tilt components of orientation are approximately equal to those obtained for judgments of the total orientation difference between two probed regions. Performance was much worse, however, for judgments of curvedness, and these judgments were significantly impaired when there were simultaneous variations in the shape index parameter of curvature.

Published

2006