User-Experience with Haptic Feedback Technologies and Text Input in Interactive Multimedia Devices

Silva, Bruno; Costelha, Hugo; Bento, Luis Conde; Barata, Marcio; Assunção, Pedro

doi:10.3390/s20185316

Cited by 6 publications

(3 citation statements)

References 25 publications

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“…However, haptic studies on touch screens have mainly focused on modeling the click vibrations that occur at moments of state transition of a button rather than on basic perceptual characteristics [31]. Since Fukumoto and Sugimura [32] first introduced the "active touch(click)" concept, studies have been conducted on the magnitude, duration, and stimulator for vibration signals to implement a significantly realistic haptic feedback of the press-and-release stroke of a virtual button on a touch screen [33][34][35][36][37][38]. These studies have important implications because pressing a button is preferred over using touch screens in vehicles, where visual distraction can be a problem.…”

Section: Related Workmentioning

confidence: 99%

Development of a Human-Display Interface with Vibrotactile Feedback for Real-World Assistive Applications

Kim

Jeong

Cho

et al. 2021

Sensors

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It is important to operate devices with control panels and touch screens assisted by haptic feedback in mobile environments such as driving automobiles and electric power wheelchairs. A lot of consideration is needed to give accurate haptic feedback, especially, presenting clear touch feedback to the elderly and people with reduced sensation is a very critical issue from healthcare and safety perspectives. In this study, we aimed to identify the perceptual characteristics for the frequency and direction of haptic vibration on the touch screen with vehicle-driving vibration and to propose an efficient haptic system based on these characteristics. As a result, we demonstrated that the detection threshold shift decreased at frequencies above 210 Hz due to the contact pressure during active touch, but the detection threshold shift increased at below 210 Hz. We found that the detection thresholds were 0.30–0.45 gpeak with similar sensitivity in the 80–270 Hz range. The haptic system implemented by reflecting the experimental results achieved characteristics suitable for use scenarios in automobiles. Ultimately, it could provide practical guidelines for the development of touch screens to give accurate touch feedback in the real-world environment.

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Section: Related Workmentioning

confidence: 99%

Development of a Human-Display Interface with Vibrotactile Feedback for Real-World Assistive Applications

Kim

Jeong

Cho

et al. 2021

Sensors

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“…ERM and LRA actuators are commonly applied for the same purposes [6,7], mainly used in smartphones. From study [8], it was concluded that LRA actuators are much more battery efficient than ERM actuators. Piezo actuators have also been recently embedded on the new Windows 11 trackpads, according to Boréas Technologies [9].…”

Section: Introductionmentioning

confidence: 99%

Usability Tests for Texture Comparison in an Electroadhesion-Based Haptic Device

Castiço

Cardoso

2022

MTI

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Haptic displays have been gaining more relevance over the recent years, in part because of the multiple advantages they present compared with standard displays, especially for improved user experience and their many different fields of application. Among the various haptic technologies, electroadhesion is seen as capable of better interaction with a user, through a display. TanvasTouch is an economically competitive haptic device using electroadhesion, providing an API and respective haptic engine, which makes the development of applications much easier and more systematic than in the past, back when the creation of these haptic solutions required a greater amount of work and resulted in ad-hoc solutions. Despite these advantages, it is important to access its ability to describe textures in a way understandable by the user’s touch. The current paper presents a set of experiments using TanvasTouch electroadhesion-based haptic technology to access how a texture created on a TanvasTouch device can be perceived as a representation of a real-world object.

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“…In [ 2 ], the problem of remote control devices commonly used for interaction with multimedia equipment and applications (smart TVs, gaming, etc.) was addressed.…”

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confidence: 99%

Data, Signal and Image Processing and Applications in Sensors

Reis

2021

Sensors

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User-Experience with Haptic Feedback Technologies and Text Input in Interactive Multimedia Devices

Cited by 6 publications

References 25 publications

Development of a Human-Display Interface with Vibrotactile Feedback for Real-World Assistive Applications

Development of a Human-Display Interface with Vibrotactile Feedback for Real-World Assistive Applications

Usability Tests for Texture Comparison in an Electroadhesion-Based Haptic Device

Data, Signal and Image Processing and Applications in Sensors

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