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Assistive technology (AT) plays a significant role in improving academic activities of visually impaired students. Through these ATs, visually impaired students can be empowered to engage actively in academic activities. To investigate the impact of JAWS® (job access with speech) and NVDA® (nonvisual desktop access) on the academic performance of visually impaired students. This study employed a prospective analytical design. Age-matched groups of severely visually impaired students were enrolled and divided into two groups: Group A ( N = 25) received NVDA® and Group B ( N = 25) received JAWS®. The MNREAD acuity chart was used to measure the reading acuity, maximum reading speed, and critical print size. In addition, a self-designed questionnaire was employed to gather qualitative data on the features of the software and the students’ experiences while using it. Statistical Package for Social Science (SPSS) was used for data tabulation and analysis. An independent samples t-test was conducted to analyze the differences between variables. Furthermore, a qualitative assessment was performed using Pearson’s chi-square association test to determine the association between software usage and student experience. Statistical significance was set at p < .05. The results revealed that NVDA® exhibited better outcomes than JAWS® in terms of improved academic activity among visually impaired students. These findings contribute to the existing literature on AT and underscore the potential of NVDA® in supporting the educational experiences of visually impaired students. Use of screen reader software not only enhanced the reading and learning experience but also promoted independence in the classroom. NVDA is the superior choice for several reasons. It caters to the individual needs of students, effectively supports their learning processes, and demonstrates a high level of appreciation among the users.
Assistive technology (AT) plays a significant role in improving academic activities of visually impaired students. Through these ATs, visually impaired students can be empowered to engage actively in academic activities. To investigate the impact of JAWS® (job access with speech) and NVDA® (nonvisual desktop access) on the academic performance of visually impaired students. This study employed a prospective analytical design. Age-matched groups of severely visually impaired students were enrolled and divided into two groups: Group A ( N = 25) received NVDA® and Group B ( N = 25) received JAWS®. The MNREAD acuity chart was used to measure the reading acuity, maximum reading speed, and critical print size. In addition, a self-designed questionnaire was employed to gather qualitative data on the features of the software and the students’ experiences while using it. Statistical Package for Social Science (SPSS) was used for data tabulation and analysis. An independent samples t-test was conducted to analyze the differences between variables. Furthermore, a qualitative assessment was performed using Pearson’s chi-square association test to determine the association between software usage and student experience. Statistical significance was set at p < .05. The results revealed that NVDA® exhibited better outcomes than JAWS® in terms of improved academic activity among visually impaired students. These findings contribute to the existing literature on AT and underscore the potential of NVDA® in supporting the educational experiences of visually impaired students. Use of screen reader software not only enhanced the reading and learning experience but also promoted independence in the classroom. NVDA is the superior choice for several reasons. It caters to the individual needs of students, effectively supports their learning processes, and demonstrates a high level of appreciation among the users.
Though speaking skills in the mother tongue develop naturally, developing reading skills requires training. Dyslexia is a language-based learning disability that can affect the reading ability in any language. Although many literature is available to address these challenges, the need to teach sentence reading was neglected. This paper addresses problems faced while reading sentences. As computer-based multi-sensory teaching is considered as an effective way to teach children with dyslexia (CwD), the proposed system uses multisensory teaching methods to teach sentence reading in Hindi and Bangla languages. It shows sentences as word packages to teach word sequence and help with comprehension. The platform records the response time of the user to generate a performance report to monitor her performance. For evaluating the system, an expert survey was conducted with 26 special educators in two phases, pre-test and post-test. The questionnaires were prepared following previous literature under the expert’s supervision. The pre-test data helped in understanding the educators’ experience and opinions about assistive technology and the post-test data were used to evaluate the system. In the evaluation, all educators agreed that the system will be very useful for their students and it will give a generalised solution for all the challenges their students face.
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