FITS: Ensuring Safe and Effective Touchscreen Use in Moving Vehicles

Daan M. Pool; Yasemin Vardar

doi:10.1016/j.ifacol.2025.01.189

FITS: Ensuring Safe and Effective Touchscreen Use in Moving Vehicles

Daan M. Pool, Yasemin Vardar

Research output: Contribution to journal › Conference article › Scientific › peer-review

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Abstract

Touch interfaces are replacing physical buttons, dials, and switches in the new generation of cars, aircraft, and vessels. However, vehicle vibrations and accelerations perturb finger movements and cause erroneous touchscreen inputs by users. Furthermore, unlike physical buttons, touchscreens cannot be operated by touch alone and always require users' visual focus. Hence, despite their numerous benefits, touchscreens are not inherently suited for use in vehicles, which results in an increased risk of accidents. In a recently awarded research project, titled "Right Touch Right Time: Future In-vehicle Touchscreens (FITS)", we aim to address these problems by developing novel in-vehicle touchscreens that actively predict and correct perturbed finger movements and simulate physical touch interactions with artificial tactile feedback.

Original language	English
Pages (from-to)	248-253
Number of pages	6
Journal	IFAC-PapersOnline
Volume	58
Issue number	30
DOIs	https://doi.org/10.1016/j.ifacol.2025.01.189
Publication status	Published - 2024
Event	5th IFAC Workshop on Cyber-Physical Human Systems, CPHS 2024 - Antalya, Turkey Duration: 12 Dec 2024 → 13 Dec 2024

Keywords

biodynamic feedthrough
haptics
tactile feedback
touchscreens
vehicle motion

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10.1016/j.ifacol.2025.01.189

1-s2.0-S2405896325001892-mainFinal published version, 1.18 MBLicence: CC BY-NC-ND

Cite this

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title = "FITS: Ensuring Safe and Effective Touchscreen Use in Moving Vehicles",

abstract = "Touch interfaces are replacing physical buttons, dials, and switches in the new generation of cars, aircraft, and vessels. However, vehicle vibrations and accelerations perturb finger movements and cause erroneous touchscreen inputs by users. Furthermore, unlike physical buttons, touchscreens cannot be operated by touch alone and always require users' visual focus. Hence, despite their numerous benefits, touchscreens are not inherently suited for use in vehicles, which results in an increased risk of accidents. In a recently awarded research project, titled {"}Right Touch Right Time: Future In-vehicle Touchscreens (FITS){"}, we aim to address these problems by developing novel in-vehicle touchscreens that actively predict and correct perturbed finger movements and simulate physical touch interactions with artificial tactile feedback.",

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T2 - 5th IFAC Workshop on Cyber-Physical Human Systems, CPHS 2024

AU - Pool, Daan M.

AU - Vardar, Yasemin

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N2 - Touch interfaces are replacing physical buttons, dials, and switches in the new generation of cars, aircraft, and vessels. However, vehicle vibrations and accelerations perturb finger movements and cause erroneous touchscreen inputs by users. Furthermore, unlike physical buttons, touchscreens cannot be operated by touch alone and always require users' visual focus. Hence, despite their numerous benefits, touchscreens are not inherently suited for use in vehicles, which results in an increased risk of accidents. In a recently awarded research project, titled "Right Touch Right Time: Future In-vehicle Touchscreens (FITS)", we aim to address these problems by developing novel in-vehicle touchscreens that actively predict and correct perturbed finger movements and simulate physical touch interactions with artificial tactile feedback.

AB - Touch interfaces are replacing physical buttons, dials, and switches in the new generation of cars, aircraft, and vessels. However, vehicle vibrations and accelerations perturb finger movements and cause erroneous touchscreen inputs by users. Furthermore, unlike physical buttons, touchscreens cannot be operated by touch alone and always require users' visual focus. Hence, despite their numerous benefits, touchscreens are not inherently suited for use in vehicles, which results in an increased risk of accidents. In a recently awarded research project, titled "Right Touch Right Time: Future In-vehicle Touchscreens (FITS)", we aim to address these problems by developing novel in-vehicle touchscreens that actively predict and correct perturbed finger movements and simulate physical touch interactions with artificial tactile feedback.

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FITS: Ensuring Safe and Effective Touchscreen Use in Moving Vehicles

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