Physical interaction mappings

utilizing cognitive load theory in order to enhance physical product interaction

Research output: Contribution to conferencePaper

84 Downloads (Pure)

Abstract

Learning to physically operate traditional products can be viewed as a learning process akin to any other. As such, many of today's products, such as cars, boats, and planes, which have traditional controls that predate modern user-centered design techniques may be imposing irrelevant or unrelated cognitive loads on their operators.
The availability of working memory has long been identified as a critical aspect of an instructional design. Many conventional instructional procedures impose irrelevant or unrelated cognitive loads on the learner due to the fact that they were created without contemplation, or understanding, of cognitive work load.
The goal of the research was to investigate the fundamental relationships between physical inputs, resulting actions, and learnability. The results showed that individuals can quickly adapt to input/output reversals across dimensions, however, individuals struggle to cope with the input/output when the dimensions are rotated due to the resulting increase in cognitive load.
Original languageEnglish
Number of pages10
Publication statusPublished - 27 Jul 2015
Event20th International Conference on Engineering Design (ICED '15) - Politecnico di Milano, Milan, United Kingdom
Duration: 27 Jul 201530 Jul 2015

Conference

Conference20th International Conference on Engineering Design (ICED '15)
CountryUnited Kingdom
CityMilan
Period27/07/1530/07/15

Fingerprint

Boats
Railroad cars
Availability
Data storage equipment
User centered design

Keywords

  • cognitive load theory
  • instructional design
  • product interactions
  • design theory
  • design cognition

Cite this

Young, B. G., Wodehouse, A., & Sheridan, M. (2015). Physical interaction mappings: utilizing cognitive load theory in order to enhance physical product interaction. Paper presented at 20th International Conference on Engineering Design (ICED '15), Milan, United Kingdom.
Young, Bryan Gough ; Wodehouse, Andrew ; Sheridan, Marion. / Physical interaction mappings : utilizing cognitive load theory in order to enhance physical product interaction. Paper presented at 20th International Conference on Engineering Design (ICED '15), Milan, United Kingdom.10 p.
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Young, BG, Wodehouse, A & Sheridan, M 2015, 'Physical interaction mappings: utilizing cognitive load theory in order to enhance physical product interaction' Paper presented at 20th International Conference on Engineering Design (ICED '15), Milan, United Kingdom, 27/07/15 - 30/07/15, .

Physical interaction mappings : utilizing cognitive load theory in order to enhance physical product interaction. / Young, Bryan Gough; Wodehouse, Andrew; Sheridan, Marion.

2015. Paper presented at 20th International Conference on Engineering Design (ICED '15), Milan, United Kingdom.

Research output: Contribution to conferencePaper

TY - CONF

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T2 - utilizing cognitive load theory in order to enhance physical product interaction

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AU - Wodehouse, Andrew

AU - Sheridan, Marion

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KW - instructional design

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Young BG, Wodehouse A, Sheridan M. Physical interaction mappings: utilizing cognitive load theory in order to enhance physical product interaction. 2015. Paper presented at 20th International Conference on Engineering Design (ICED '15), Milan, United Kingdom.