Investigating pointing tasks across angularly coupled display areas

Fabian Hennecke; Alexander De Luca; Ngo Dieu Huong Nguyen; Sebastian Boring; Andreas Butz

doi:10.1007/978-3-642-40483-2_50

Investigating pointing tasks across angularly coupled display areas

Fabian Hennecke, Alexander De Luca, Ngo Dieu Huong Nguyen, Sebastian Boring, Andreas Butz

Research output: Contribution to book/anthology/report/conference proceeding › Article in proceeding › Research › peer-review

3 Citations (Scopus)

Abstract

Pointing tasks are a crucial part of today’s graphical user interfaces. They are well understood for flat displays and most prominently are modeled through Fitts’ Law. For novel displays (e.g., curved displays with multi-purpose areas), however, it remains unclear whether such models for predicting user performance still hold – in particular when pointing is performed across differently oriented areas. To answer this question, we conducted an experiment on an angularly coupled display – the Curve – with two input conditions: direct touch and indirect mouse pointer. Our findings show that the target position affects overall pointing speed and offset in both conditions. However, we also found that Fitts’ Law can in fact still be used to predict performance as on flat displays. Our results help designers to optimize user interfaces on angularly coupled displays when pointing tasks are involved.

Original language	English
Title of host publication	Human-Computer Interaction – INTERACT 2013
Publication date	2013
ISBN (Print)	978-3-642-40483-2, 978-3-642-40482-5
DOIs	https://doi.org/10.1007/978-3-642-40483-2_50
Publication status	Published - 2013

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title = "Investigating pointing tasks across angularly coupled display areas",

abstract = "Pointing tasks are a crucial part of today{\textquoteright}s graphical user interfaces. They are well understood for flat displays and most prominently are modeled through Fitts{\textquoteright} Law. For novel displays (e.g., curved displays with multi-purpose areas), however, it remains unclear whether such models for predicting user performance still hold – in particular when pointing is performed across differently oriented areas. To answer this question, we conducted an experiment on an angularly coupled display – the Curve – with two input conditions: direct touch and indirect mouse pointer. Our findings show that the target position affects overall pointing speed and offset in both conditions. However, we also found that Fitts{\textquoteright} Law can in fact still be used to predict performance as on flat displays. Our results help designers to optimize user interfaces on angularly coupled displays when pointing tasks are involved.",

author = "Fabian Hennecke and Luca, {Alexander De} and Nguyen, {Ngo Dieu Huong} and Sebastian Boring and Andreas Butz",

year = "2013",

doi = "10.1007/978-3-642-40483-2_50",

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AU - Hennecke, Fabian

AU - Luca, Alexander De

AU - Nguyen, Ngo Dieu Huong

AU - Boring, Sebastian

AU - Butz, Andreas

PY - 2013

Y1 - 2013

N2 - Pointing tasks are a crucial part of today’s graphical user interfaces. They are well understood for flat displays and most prominently are modeled through Fitts’ Law. For novel displays (e.g., curved displays with multi-purpose areas), however, it remains unclear whether such models for predicting user performance still hold – in particular when pointing is performed across differently oriented areas. To answer this question, we conducted an experiment on an angularly coupled display – the Curve – with two input conditions: direct touch and indirect mouse pointer. Our findings show that the target position affects overall pointing speed and offset in both conditions. However, we also found that Fitts’ Law can in fact still be used to predict performance as on flat displays. Our results help designers to optimize user interfaces on angularly coupled displays when pointing tasks are involved.

AB - Pointing tasks are a crucial part of today’s graphical user interfaces. They are well understood for flat displays and most prominently are modeled through Fitts’ Law. For novel displays (e.g., curved displays with multi-purpose areas), however, it remains unclear whether such models for predicting user performance still hold – in particular when pointing is performed across differently oriented areas. To answer this question, we conducted an experiment on an angularly coupled display – the Curve – with two input conditions: direct touch and indirect mouse pointer. Our findings show that the target position affects overall pointing speed and offset in both conditions. However, we also found that Fitts’ Law can in fact still be used to predict performance as on flat displays. Our results help designers to optimize user interfaces on angularly coupled displays when pointing tasks are involved.

UR - https://curis.ku.dk/portal/en/publications/investigating-pointing-tasks-across-angularly-coupled-display-areas(286c0b13-c503-4a8a-8a23-9ad69c96c37b).html

U2 - 10.1007/978-3-642-40483-2_50

DO - 10.1007/978-3-642-40483-2_50

M3 - Article in proceeding

SN - 978-3-642-40483-2

SN - 978-3-642-40482-5

BT - Human-Computer Interaction – INTERACT 2013

ER -

Investigating pointing tasks across angularly coupled display areas

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