Saturday, October 26, 2019
Studies of Bilateral Visual Fields on Word Recognition Essays -- Visio
Studies of Bilateral Visual Fields on Word Recognition Previous research suggests a significant difference in word recognition time between the left and right visual fields, with word recognition and response time of the right visual field significantly faster than the left visual field. The current study investigated bilateral visual fields on word recognition time by means of an online computer program consisting of 55 participants. It was hypothesized that men would respond faster than women, and the right visual field reaction times would be faster than the left. Results indicate that sex had no significant effect on reaction time. However, words presented in the right visual field were responded to significantly faster than words in the left. Supporting previous findings of a right visual (left hemispheric) advantage. The Effect of Bilateral Visual Fields on Word Recognition When examining word recognition, there are a variety of factors that come into play. These factors include the role each hemisphere plays in terms of language processing as well as the physiology of the brain. Further, when examining word recognition one must further understand the assortment of variables that come into play when dealing with word recognition. These include, but are not limited to the handedness of participants in word recognition studies, the type of words that are being studies (for example words of differing length, commonly used words versus less commonly used words), the manner by which participants are attending to the stimuli that are being presented, and the manner that words are presented. Understanding the role that each hemisphere of the brain plays in recognizing words, and the physiology of the brain is fundamental to the understanding of studies of word recognition. A primary tenet of neuropsychology is that the left hemisphere specializes in language, and language processing, while the right hemisphere plays less of a role in the processing of language (Grimshaw, 1998, Nicholls & Wood, 1998). It should also be noted that stimuli presented to the right visual field has direct access to the left hemisphere, while information presented to the left visual field must first go to the right hemisphere, cross the corpus callosum, and then be interpreted in the left hemisphere (Grimshaw, 1998, Nicholls & Wood, 1998). Because each hemisphere of t... ...bral hemispheres. Brain and Language, 80, 45-62. Leventhal, G. (1988). Cerebral dominance and attentional bias in word recognition. Perceptual & Motor Skills, 66, 791-800. Lindell, A. K., & Nicholls, M. E. (2003). Attentional deployment in visual half-field tasks: The effect of cue position on word naming latency. Brain and Cognition, 53(2), 273-277. Nicholls, M. E. R., & Wood, A. G. (1998). The contribution of attention to the right visual field advantage for word recognition. Brain and Cognition, 38, 339-357. Ohnesorge, C., & Van Lancker, D. (2001). Cerebral laterality for famous proper nouns: Visual recognition by normal subjects. Brain & Language, 77, 135-165. Proverbio, A. M., Zani, A., & Avella, C. (1997). Notes and discussion: Hemispheric asymmetries for spatial frequency discrimination in a selective attention task. Brain and Cognition, 34, 311-320. Voyer, D. (2003). Word Frequency and laterality effects in lexical decision: Right hemisphere mechanisms. Brain & Language, 87, 421-431. Weems, S., Reggia, J. (2004). Hemispheric specialization and independence for word recognition: A comparison of three computational models. Brain & Language, 89, 554-568.
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