Use of a sonification system for science learning by people who are blind

Journal of assistive technologies Pub Date : 2016-11-24 DOI:10.1108/JAT-11-2015-0032

O. Lahav, Nuha Chagab, V. Talis

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引用次数: 1

Abstract

Purpose The purpose of this paper is to examine a central need of students who are blind: the ability to access science curriculum content. Design/methodology/approach Agent-based modeling is a relatively new computational modeling paradigm that models complex dynamic systems. NetLogo is a widely used agent-based modeling language that enables exploration and construction of models of complex systems by programming and running the rules and behaviors. Sonification of variables and events in an agent-based NetLogo computer model of gas in a container is used to convey phenomena information. This study examined mainly two research topics: the scientific conceptual knowledge and systems reasoning that were learned as a result of interaction with the listen-to-complexity (L2C) environment as appeared in answers to the pre- and post-tests and the learning topics of kinetic molecular theory of gas in chemistry that was learned as a result of interaction with the L2C environment. The case study research focused on A., a woman who is adventitiously blind, for eight sessions. Findings The participant successfully completed all curricular assignments; her scientific conceptual knowledge and systems reasoning became more specific and aligned with scientific knowledge. Practical implications A practical implication of further studies is that they are likely to have an impact on the accessibility of learning materials, especially in science education for students who are blind, as equal access to low-cost learning environments that are equivalent to those used by sighted users would support their inclusion in the K-12 academic curriculum. Originality/value The innovative and low-cost learning system that is used in this research is based on transmittal of visual information of dynamic and complex systems, providing perceptual compensation by harnessing auditory feedback. For the first time the L2C system is based on sound that represents a dynamic rather than a static array. In this study, the authors explore how a combination of several auditory representations may affect cognitive learning ability.

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盲人使用声波系统进行科学学习

本文的目的是研究盲人学生的一个核心需求:获取科学课程内容的能力。基于agent的建模是一种相对较新的计算建模范式，用于对复杂的动态系统进行建模。NetLogo是一种广泛使用的基于代理的建模语言，它可以通过编程和运行规则和行为来探索和构建复杂系统的模型。在基于代理的容器气体NetLogo计算机模型中，使用变量和事件的声音化来传递现象信息。本研究主要考察了两个研究课题:一是学生在前、后测试答案中通过与聆听-复杂性(L2C)环境相互作用而学习到的科学概念知识和系统推理，二是学生在与L2C环境相互作用中学习到的化学气体分子动力学理论。这个案例研究集中在A，一个偶然失明的女人身上，进行了八个疗程。参与者顺利完成所有课程作业;她的科学概念知识和系统推理变得更加具体，并与科学知识保持一致。进一步研究的一个实际意义是，它们可能会对学习材料的可及性产生影响，特别是对盲人学生的科学教育，因为平等地获得与视力正常的人相同的低成本学习环境将有助于将他们纳入K-12学术课程。本研究中使用的创新和低成本学习系统是基于动态和复杂系统的视觉信息传递，通过利用听觉反馈提供感知补偿。L2C系统第一次基于声音，它代表了一个动态而不是静态阵列。在这项研究中，作者探讨了几种听觉表征的组合如何影响认知学习能力。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Journal of assistive technologies

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