2018
Min Fan, Sheng Jin, Alissa N. Antle. 2018. Designing Colours and Materials in Tangible Reading Products for Foreign Language Learners of English Proceedings Article . In Extended Abstracts of the 2018 CHI Conference on Human Factors in Computing Systems, CHI EA '18 Association for Computing Machinery, Montreal QC, Canada, 1–6, .
Abstract | BibTeX | Tags: colours, design implications, english foreign language learners, materials, reading, Tangible User Interfaces
@inproceedings{10.1145/3170427.3188577,
title = {Designing Colours and Materials in Tangible Reading Products for Foreign Language Learners of English},
author = {Min Fan and Sheng Jin and Alissa N. Antle},
url = {https://doi.org/10.1145/3170427.3188577},
doi = {10.1145/3170427.3188577},
isbn = {9781450356213},
year = {2018},
date = {2018-01-01},
booktitle = {Extended Abstracts of the 2018 CHI Conference on Human Factors in Computing Systems},
pages = {1–6},
publisher = {Association for Computing Machinery},
address = {Montreal QC, Canada},
series = {CHI EA '18},
abstract = {One design challenge of tangible reading systems is how to leverage the design of physical properties to best support the learning process. In this paper, we present an exploratory study which investigated how 18 young adults who learn English as a foreign language associated colours and materials to English letter-sound pairs. The preliminary results indicate that the letter-sound-colour mappings are influenced mainly by the literacy meaning of the letters while the letter-sound-material mappings are strongly affected by the characteristics of letter sounds. We discuss the design implications and future work for designing tangible reading systems for foreign language learners.},
keywords = {colours, design implications, english foreign language learners, materials, reading, Tangible User Interfaces},
pubstate = {published},
tppubtype = {inproceedings}
}
One design challenge of tangible reading systems is how to leverage the design of physical properties to best support the learning process. In this paper, we present an exploratory study which investigated how 18 young adults who learn English as a foreign language associated colours and materials to English letter-sound pairs. The preliminary results indicate that the letter-sound-colour mappings are influenced mainly by the literacy meaning of the letters while the letter-sound-material mappings are strongly affected by the characteristics of letter sounds. We discuss the design implications and future work for designing tangible reading systems for foreign language learners.
2016
Min Fan, Alissa N. Antle, Emily S. Cramer. 2016. Design Rationale: Opportunities and Recommendations for Tangible Reading Systems for Children Proceedings Article . In Proceedings of the The 15th International Conference on Interaction Design and Children, IDC '16 Association for Computing Machinery, Manchester, United Kingdom, 101–112, .
Abstract | BibTeX | Tags: children, design rationale, Dyslexia, literacy, reading, spelling, Tangible User Interfaces
@inproceedings{10.1145/2930674.2930690,
title = {Design Rationale: Opportunities and Recommendations for Tangible Reading Systems for Children},
author = {Min Fan and Alissa N. Antle and Emily S. Cramer},
url = {https://doi-org.proxy.lib.sfu.ca/10.1145/2930674.2930690},
doi = {10.1145/2930674.2930690},
isbn = {9781450343138},
year = {2016},
date = {2016-01-01},
booktitle = {Proceedings of the The 15th International Conference on Interaction Design and Children},
pages = {101–112},
publisher = {Association for Computing Machinery},
address = {Manchester, United Kingdom},
series = {IDC '16},
abstract = {Tangible User Interfaces (TUIs) have been suggested to have the potential to support learning for children. Despite the increasing number of TUI reading systems there are few design guidelines for children, especially for those with dyslexia (a specific difficulty in language acquisition skills). In this paper we discuss four design opportunities and five design recommendations for designing tangible reading systems for children, particularly those with dyslexia. We ground our analysis using theories of the causes and interventions for dyslexia, best multisensory training practices and existing research on TUIs that support learning to read for children. We describe our tangible reading system, called PhonoBlocks, focusing on two core design features which take advantage of these opportunities. We also describe how we iteratively fine-tuned the details of our design based on our recommendations, an expert review and feedback from tutors who work with children with dyslexia every day. We include a discussion of design trade-offs in our process. This design rationale paper contributes to the growing research on designing tangible spelling and reading systems for children.},
keywords = {children, design rationale, Dyslexia, literacy, reading, spelling, Tangible User Interfaces},
pubstate = {published},
tppubtype = {inproceedings}
}
Tangible User Interfaces (TUIs) have been suggested to have the potential to support learning for children. Despite the increasing number of TUI reading systems there are few design guidelines for children, especially for those with dyslexia (a specific difficulty in language acquisition skills). In this paper we discuss four design opportunities and five design recommendations for designing tangible reading systems for children, particularly those with dyslexia. We ground our analysis using theories of the causes and interventions for dyslexia, best multisensory training practices and existing research on TUIs that support learning to read for children. We describe our tangible reading system, called PhonoBlocks, focusing on two core design features which take advantage of these opportunities. We also describe how we iteratively fine-tuned the details of our design based on our recommendations, an expert review and feedback from tutors who work with children with dyslexia every day. We include a discussion of design trade-offs in our process. This design rationale paper contributes to the growing research on designing tangible spelling and reading systems for children.
Min Fan, Alissa N. Antle, Emily S. Cramer. 2016. Exploring the Design Space of Tangible Systems Supported for Early Reading Acquisition in Children with Dyslexia Proceedings Article . In Proceedings of the TEI '16: Tenth International Conference on Tangible, Embedded, and Embodied Interaction, TEI '16 Association for Computing Machinery, Eindhoven, Netherlands, 689–692, .
@inproceedings{10.1145/2839462.2854104,
title = {Exploring the Design Space of Tangible Systems Supported for Early Reading Acquisition in Children with Dyslexia},
author = {Min Fan and Alissa N. Antle and Emily S. Cramer},
url = {https://doi.org/10.1145/2839462.2854104},
doi = {10.1145/2839462.2854104},
isbn = {9781450335829},
year = {2016},
date = {2016-01-01},
booktitle = {Proceedings of the TEI '16: Tenth International Conference on Tangible, Embedded, and Embodied Interaction},
pages = {689–692},
publisher = {Association for Computing Machinery},
address = {Eindhoven, Netherlands},
series = {TEI '16},
abstract = {Tangible user interfaces have the potential to support children in learning to read. This research explores the design space of school-based tangible learning systems that support early reading acquisition in children, particularly in children with reading difficulties. Informed by theories of the causes and interventions for dyslexia and research on TUIs for learning, we present the design of a tangible reading system that uses the dynamic colour and tactile cues to help children with dyslexia to learn English letter-sound correspondences. We then propose a case study design that investigates how this system can support children with dyslexia aged 7-8 years old in learning letter-sound correspondences in a school context. We conclude by discussing the future work and potential contributions of this research.},
keywords = {Children with Dyslexia, reading, tangible user interface},
pubstate = {published},
tppubtype = {inproceedings}
}
Tangible user interfaces have the potential to support children in learning to read. This research explores the design space of school-based tangible learning systems that support early reading acquisition in children, particularly in children with reading difficulties. Informed by theories of the causes and interventions for dyslexia and research on TUIs for learning, we present the design of a tangible reading system that uses the dynamic colour and tactile cues to help children with dyslexia to learn English letter-sound correspondences. We then propose a case study design that investigates how this system can support children with dyslexia aged 7-8 years old in learning letter-sound correspondences in a school context. We conclude by discussing the future work and potential contributions of this research.
2015
Alissa N. Antle, Min Fan, Emily S. Cramer. 2015. PhonoBlocks: A Tangible System for Supporting Dyslexic Children Learning to Read Proceedings Article . In Proceedings of the Ninth International Conference on Tangible, Embedded, and Embodied Interaction, TEI '15 Association for Computing Machinery, Stanford, California, USA, 533–538, .
Abstract | BibTeX | Tags: children, colour cues, Dyslexia, orton-gillingham, reading, tangible computing, Tangible User Interfaces
@inproceedings{10.1145/2677199.2687897,
title = {PhonoBlocks: A Tangible System for Supporting Dyslexic Children Learning to Read},
author = {Alissa N. Antle and Min Fan and Emily S. Cramer},
url = {https://doi.org/10.1145/2677199.2687897},
doi = {10.1145/2677199.2687897},
isbn = {9781450333054},
year = {2015},
date = {2015-01-01},
booktitle = {Proceedings of the Ninth International Conference on Tangible, Embedded, and Embodied Interaction},
pages = {533–538},
publisher = {Association for Computing Machinery},
address = {Stanford, California, USA},
series = {TEI '15},
abstract = {Dyslexia is defined as severe difficulty learning to read. It affects about 10% of the population in English speaking countries. Severe difficulty learning to read is correlated with tremendous emotional, social and economic costs. In this paper, we describe PhonoBlocks, a tangible user interface to a reading system that uses dynamic colour cues embedded in 3D tangible letters to provide additional decoding information and modalities. PhonoBlocks was developed to support children, aged 5-8 years old, who are having difficulty learning to decode English letter-sound pairs. We present the theoretical foundations as rationale for our core design strategies and decisions. We discuss the assumptions in our design rationale and describe how we will validate our system working with a school for dyslexic children.},
keywords = {children, colour cues, Dyslexia, orton-gillingham, reading, tangible computing, Tangible User Interfaces},
pubstate = {published},
tppubtype = {inproceedings}
}
Dyslexia is defined as severe difficulty learning to read. It affects about 10% of the population in English speaking countries. Severe difficulty learning to read is correlated with tremendous emotional, social and economic costs. In this paper, we describe PhonoBlocks, a tangible user interface to a reading system that uses dynamic colour cues embedded in 3D tangible letters to provide additional decoding information and modalities. PhonoBlocks was developed to support children, aged 5-8 years old, who are having difficulty learning to decode English letter-sound pairs. We present the theoretical foundations as rationale for our core design strategies and decisions. We discuss the assumptions in our design rationale and describe how we will validate our system working with a school for dyslexic children.
Min Fan, Alissa N. Antle. 2015. Tactile Letters: A Tangible Tabletop with Texture Cues Supporting Alphabetic Learning for Dyslexic Children Proceedings Article . In Proceedings of the Ninth International Conference on Tangible, Embedded, and Embodied Interaction, TEI '15 Association for Computing Machinery, Stanford, California, USA, 673–678, .
Abstract | BibTeX | Tags: children, Dyslexia, material, reading, Tangible User Interfaces, texture cues
@inproceedings{10.1145/2677199.2688806,
title = {Tactile Letters: A Tangible Tabletop with Texture Cues Supporting Alphabetic Learning for Dyslexic Children},
author = {Min Fan and Alissa N. Antle},
url = {https://doi.org/10.1145/2677199.2688806},
doi = {10.1145/2677199.2688806},
isbn = {9781450333054},
year = {2015},
date = {2015-01-01},
booktitle = {Proceedings of the Ninth International Conference on Tangible, Embedded, and Embodied Interaction},
pages = {673–678},
publisher = {Association for Computing Machinery},
address = {Stanford, California, USA},
series = {TEI '15},
abstract = {Dyslexic children have great difficulty in learning to read. While research in HCI suggests that tangible user interfaces (TUIs) have the potential to support children learning to read, few studies have explored how to help dyslexic children learn to read. Even fewer studies have specifically investigated the design space of texture cues in TUIs in supporting learning to read. In this paper, we present Tactile Letters, a multimodal tangible tabletop with texture cues developed to support English letter-sound correspondence learning for dyslexic children aged 5-6 years old. This prototype is used as a research instrument to investigate the role of texture cues in a multimodal TUI in alphabetic learning. We discuss the current knowledge gap, the theoretical foundations that informed our core design strategy, and the subsequent design decisions we made while developing Tactile Letters.},
keywords = {children, Dyslexia, material, reading, Tangible User Interfaces, texture cues},
pubstate = {published},
tppubtype = {inproceedings}
}
Dyslexic children have great difficulty in learning to read. While research in HCI suggests that tangible user interfaces (TUIs) have the potential to support children learning to read, few studies have explored how to help dyslexic children learn to read. Even fewer studies have specifically investigated the design space of texture cues in TUIs in supporting learning to read. In this paper, we present Tactile Letters, a multimodal tangible tabletop with texture cues developed to support English letter-sound correspondence learning for dyslexic children aged 5-6 years old. This prototype is used as a research instrument to investigate the role of texture cues in a multimodal TUI in alphabetic learning. We discuss the current knowledge gap, the theoretical foundations that informed our core design strategy, and the subsequent design decisions we made while developing Tactile Letters.