Through optimal design of the human machine interfaces, especially the hand-handle contact surface, high usability of hand-operated products can be achieved. The complexity of the user specific hand anthropometry has to be considered in the design of load transfer handles. Use case optimized, personalized, and adaptively morphing handles aim at fulfilling this requirement. To identify design parameters for adaptive handles an experimental design for systematic analysis of user and use case requirements is proposed and evaluated showing the potential of adaptive handles.
%0 Conference Paper
%1 kiessling2022exploratory
%A Kiessling, Jonathan
%A Hilbig, Karl
%A Dinkel, Johanna
%A Schmid, Markus
%A Maier, Thomas
%A Vietor, Thomas
%B Proceedings of the Design Society
%D 2022
%K 2023 TD TID Tagungsbeitrag
%R 10.1017/pds.2022.214
%T Exploratory Analysis of Adaptively Morphing Handle Forms for Load Transfer Use Cases
%X Through optimal design of the human machine interfaces, especially the hand-handle contact surface, high usability of hand-operated products can be achieved. The complexity of the user specific hand anthropometry has to be considered in the design of load transfer handles. Use case optimized, personalized, and adaptively morphing handles aim at fulfilling this requirement. To identify design parameters for adaptive handles an experimental design for systematic analysis of user and use case requirements is proposed and evaluated showing the potential of adaptive handles.
@inproceedings{kiessling2022exploratory,
abstract = {Through optimal design of the human machine interfaces, especially the hand-handle contact surface, high usability of hand-operated products can be achieved. The complexity of the user specific hand anthropometry has to be considered in the design of load transfer handles. Use case optimized, personalized, and adaptively morphing handles aim at fulfilling this requirement. To identify design parameters for adaptive handles an experimental design for systematic analysis of user and use case requirements is proposed and evaluated showing the potential of adaptive handles.},
added-at = {2023-06-14T11:13:56.000+0200},
author = {Kiessling, Jonathan and Hilbig, Karl and Dinkel, Johanna and Schmid, Markus and Maier, Thomas and Vietor, Thomas},
biburl = {https://puma.ub.uni-stuttgart.de/bibtex/2b382c483d2fd03c5883e90d492b544ce/iktd_group},
booktitle = {Proceedings of the Design Society},
doi = {10.1017/pds.2022.214},
interhash = {46745a9c2d9dea4e4deb4386b0f46598},
intrahash = {b382c483d2fd03c5883e90d492b544ce},
keywords = {2023 TD TID Tagungsbeitrag},
language = {english},
timestamp = {2023-06-15T08:31:05.000+0200},
title = {Exploratory Analysis of Adaptively Morphing Handle Forms for Load Transfer Use Cases},
year = 2022
}