Assessing touchscreen operations under vibration: effects of vibrational environments, button size, and button spacing on digit- and letter-entry task performance
Touchscreen interfaces are increasingly used in vibration contexts. However, little is known about how they should be designed to cope with vibrations. This study aimed to examine the effects of button size and button spacing on entry performance in varied vibrational environments. Twenty participan...
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| Veröffentlicht in: | Universal access in the information society 2024-03, Vol.23 (1), p.293-303 |
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| creator | Liu, Kaifeng Zeng, Jihong Tao, Da |
| description | Touchscreen interfaces are increasingly used in vibration contexts. However, little is known about how they should be designed to cope with vibrations. This study aimed to examine the effects of button size and button spacing on entry performance in varied vibrational environments. Twenty participants were instructed to perform a series of digit- and letter-entry tasks with a touchscreen interface. Vibrational environments (static, low vibration, and high vibration), button sizes (7.5–27.5 mm with 5-mm increments), and button spacings (0, 1, and 3 mm) were factorially combined. Increased vibration level was associated with increased time to complete task, lower accuracy rate, higher perceived workload, and increased perceived discomfort. User performance improved as button size increased up to 17.5 mm. A button spacing of 1 mm was favorable in terms of entry efficiency. The detrimental effects of vibration on information entry performance and users’ perceptions were observed. The results indicated that touchscreen interfaces should be carefully designed to cater for use in vibrational environments. Favorable button size and button spacing to deal with vibrational environments were identified. |
| doi_str_mv | 10.1007/s10209-022-00935-2 |
| format | Article |
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However, little is known about how they should be designed to cope with vibrations. This study aimed to examine the effects of button size and button spacing on entry performance in varied vibrational environments. Twenty participants were instructed to perform a series of digit- and letter-entry tasks with a touchscreen interface. Vibrational environments (static, low vibration, and high vibration), button sizes (7.5–27.5 mm with 5-mm increments), and button spacings (0, 1, and 3 mm) were factorially combined. Increased vibration level was associated with increased time to complete task, lower accuracy rate, higher perceived workload, and increased perceived discomfort. User performance improved as button size increased up to 17.5 mm. A button spacing of 1 mm was favorable in terms of entry efficiency. The detrimental effects of vibration on information entry performance and users’ perceptions were observed. The results indicated that touchscreen interfaces should be carefully designed to cater for use in vibrational environments. 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However, little is known about how they should be designed to cope with vibrations. This study aimed to examine the effects of button size and button spacing on entry performance in varied vibrational environments. Twenty participants were instructed to perform a series of digit- and letter-entry tasks with a touchscreen interface. Vibrational environments (static, low vibration, and high vibration), button sizes (7.5–27.5 mm with 5-mm increments), and button spacings (0, 1, and 3 mm) were factorially combined. Increased vibration level was associated with increased time to complete task, lower accuracy rate, higher perceived workload, and increased perceived discomfort. User performance improved as button size increased up to 17.5 mm. A button spacing of 1 mm was favorable in terms of entry efficiency. The detrimental effects of vibration on information entry performance and users’ perceptions were observed. 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| subjects | Computer Communication Networks Computer Science Computers and Society Information Storage and Retrieval Information Systems Applications (incl.Internet) Interactive computer systems IT in Business Long Paper Touch screens User Interfaces and Human Computer Interaction Vibration Vibration effects |
| title | Assessing touchscreen operations under vibration: effects of vibrational environments, button size, and button spacing on digit- and letter-entry task performance |
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