E-Thesis 345 views 141 downloads
ReConstructibles: Physically Reconfigurable Shape-Changing Interfaces / ANDREW PULSIPHER
Swansea University Author: ANDREW PULSIPHER
DOI (Published version): 10.23889/SUthesis.63177
Abstract
Most widely used devices have a single display which cannot adapt to specific contentor applications. A "cell-composed" device is an alternative to static, flat displays. Itdecomposes the display into a system of multiple smaller touchscreen devices. Thefundamental strength of this interfa...
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Swansea, Wales, UK
2023
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Institution: | Swansea University |
Degree level: | Master of Research |
Degree name: | MRes |
Supervisor: | Robinson, S. |
URI: | https://cronfa.swan.ac.uk/Record/cronfa63177 |
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v2 63177 2023-04-17 ReConstructibles: Physically Reconfigurable Shape-Changing Interfaces 08d13e816d23425f91fd5b52d444d409 ANDREW PULSIPHER ANDREW PULSIPHER true false 2023-04-17 Most widely used devices have a single display which cannot adapt to specific contentor applications. A "cell-composed" device is an alternative to static, flat displays. Itdecomposes the display into a system of multiple smaller touchscreen devices. Thefundamental strength of this interface is it can be subdivided into smaller devices andcells can be rearranged into new devices. We propose the term reconstructibility todescribe cell-composed devices. This term emphasizes the ability of the user to construct,deconstruct, and reconstruct devices from cells.We further introduce the ReConstructibles research vision for cell-composed devices.Any ReConstructible device can be subdivided into multiple devices or reconfiguredto provide the user with new functionality.This project contributes a deeper understanding of the user experience with ReConstructibles through several user studies. First, we conducted design workshops, which gaveinsights into potential application domains for ReConstructibles and how device size affectsthe user experience. Second, we ran a week-long deployment with low-fidelity prototypes,which increased our understanding of user perspectives on cell-composed devices and narrowed our search for application domains. After several months developing high-fidelityprototypes, we conducted a second deployment study, this time with functioning devices.Deployment studies are extremely rare in SCI research, but offer invaluable insights. In thisfinal study, participants reported receiving real benefits to their workflow and productivity.This is evidence supporting several potential application domains for ReConstructibles.We present ReConstructibles as a hardware and software toolkit for research in cell-composed devices. We provide detailed documentation, 3D model files, code listings, andinstructions for other researchers to replicate and expand upon our work. E-Thesis Swansea, Wales, UK HCI, shape-changing interface, modular, reconfigurable, touchscreen 3 3 2023 2023-03-03 10.23889/SUthesis.63177 COLLEGE NANME COLLEGE CODE Swansea University Robinson, S. Master of Research MRes 2023-10-27T15:11:27.1220367 2023-04-17T14:49:09.2594343 Faculty of Science and Engineering School of Mathematics and Computer Science - Computer Science ANDREW PULSIPHER 1 63177__27085__aec03cf04b4e420c8ca7fa421321f081.pdf 2023_Pulsipher_AD_final.63177.pdf 2023-04-17T16:21:43.1386557 Output 121596287 application/pdf E-Thesis – open access true Copyright: The author, Andrew D. Pulsipher, 2023. true eng |
title |
ReConstructibles: Physically Reconfigurable Shape-Changing Interfaces |
spellingShingle |
ReConstructibles: Physically Reconfigurable Shape-Changing Interfaces ANDREW PULSIPHER |
title_short |
ReConstructibles: Physically Reconfigurable Shape-Changing Interfaces |
title_full |
ReConstructibles: Physically Reconfigurable Shape-Changing Interfaces |
title_fullStr |
ReConstructibles: Physically Reconfigurable Shape-Changing Interfaces |
title_full_unstemmed |
ReConstructibles: Physically Reconfigurable Shape-Changing Interfaces |
title_sort |
ReConstructibles: Physically Reconfigurable Shape-Changing Interfaces |
author_id_str_mv |
08d13e816d23425f91fd5b52d444d409 |
author_id_fullname_str_mv |
08d13e816d23425f91fd5b52d444d409_***_ANDREW PULSIPHER |
author |
ANDREW PULSIPHER |
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ANDREW PULSIPHER |
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E-Thesis |
publishDate |
2023 |
institution |
Swansea University |
doi_str_mv |
10.23889/SUthesis.63177 |
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Faculty of Science and Engineering |
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facultyofscienceandengineering |
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Faculty of Science and Engineering |
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facultyofscienceandengineering |
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Faculty of Science and Engineering |
department_str |
School of Mathematics and Computer Science - Computer Science{{{_:::_}}}Faculty of Science and Engineering{{{_:::_}}}School of Mathematics and Computer Science - Computer Science |
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description |
Most widely used devices have a single display which cannot adapt to specific contentor applications. A "cell-composed" device is an alternative to static, flat displays. Itdecomposes the display into a system of multiple smaller touchscreen devices. Thefundamental strength of this interface is it can be subdivided into smaller devices andcells can be rearranged into new devices. We propose the term reconstructibility todescribe cell-composed devices. This term emphasizes the ability of the user to construct,deconstruct, and reconstruct devices from cells.We further introduce the ReConstructibles research vision for cell-composed devices.Any ReConstructible device can be subdivided into multiple devices or reconfiguredto provide the user with new functionality.This project contributes a deeper understanding of the user experience with ReConstructibles through several user studies. First, we conducted design workshops, which gaveinsights into potential application domains for ReConstructibles and how device size affectsthe user experience. Second, we ran a week-long deployment with low-fidelity prototypes,which increased our understanding of user perspectives on cell-composed devices and narrowed our search for application domains. After several months developing high-fidelityprototypes, we conducted a second deployment study, this time with functioning devices.Deployment studies are extremely rare in SCI research, but offer invaluable insights. In thisfinal study, participants reported receiving real benefits to their workflow and productivity.This is evidence supporting several potential application domains for ReConstructibles.We present ReConstructibles as a hardware and software toolkit for research in cell-composed devices. We provide detailed documentation, 3D model files, code listings, andinstructions for other researchers to replicate and expand upon our work. |
published_date |
2023-03-03T15:11:25Z |
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1780918135838212096 |
score |
11.031661 |