Interactive Data Physicalizations : How natural science museums might engage visitors through tangible and embodied interaction

Sueiro, Vinicius

January 2021

For thousands of years, physical objects have been used to represent data, in order to support cognition, communication and learning. Such representations, especially newly computer-supported ones, became the focus of an emerging field called data physicalization. Although most physicalizations are passive (i.e., static), a growing number of active (i.e., dynamic) representations have been recently created. There is still, however, an immense opportunity in exploring interactive data physicalizations. This thesis proposes a tangible artifact (a shovel equipped with orientation sensors) that could be used by visitors of Earth sciences museums. SuperTunnel Simulator calculates a hole through Earth, indicating where in the world visitors would end up if they dug in a certain direction. Feedback from participants indicate such embodied interaction might influence learning by igniting visitors’ curiosity and stimulating hypothesis formulation. Finally, we point to research opportunities in conveying data not through an object’s shape, but through our interaction with it.

embodied interaction

tangible interfaces

data physicalization

data visualization

information visualization

web development

museums

earth sciences

Natural Sciences

Naturvetenskap

Geology

Geologi

Geosciences, Multidisciplinary

Multidisciplinär geovetenskap

Physical Geography

Naturgeografi

Geophysics

Geofysik

Software Engineering

Programvaruteknik

Interaction Technologies

Interaktionsteknik

Computer and Information Sciences

Data- och informationsvetenskap

Information Studies

Biblioteks- och informationsvetenskap

Human Computer Interaction

Instructing workers through a head-worn Augmented Reality display and through a stationary screen on manual industrial assembly tasks : A comparison study

Kenklies, Kai Malte

January 2020

It was analyzed if instructions on a head-worn Augmented Reality display (AR-HWD) are better for manual industrial assembly tasks than instructions on a stationary screen. A prototype was built which consisted of virtual instruction screens for two example assembly tasks. In a comparison study participants performed the tasks with instructions through an AR-HWD and alternatively through a stationary screen. Questionnaires, interviews and observation notes were used to evaluate the task performances and the user experience. The study revealed that the users were excited and enjoyed trying the technology. The perceived usefulness at the current state was diverse, but the users saw a huge potential in AR-HWDs for the future. The task accuracy with instructions on the AR-HWD was equally good as with instructions on the screen. AR-HWDs are found to be a better approach than a stationary screen, but technological limitations need to be overcome and workers need to train using the new technology to make its application efficient.

Augmented Reality (AR)

head-worn display (HWD)

head-mounted display (HMD)

Technology Acceptance Model (TAM)

User Experience (UX)

Embodied Interaction

industrial assembly line

instruction

visual support

Computer Vision

Artificial Intelligence (AI)

object recognition

support system

Industry 4.0

Industrial Internet of Things (IIoT)

Human Aspects of ICT

Mänsklig interaktion med IKT