Teaching motion gestures via recognizer feedback

Kamal, Ankit; Li, Yang; Lank, Edward

doi:10.1145/2557500.2557521

Cited by 19 publications

(22 citation statements)

References 16 publications

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“…Recent work by Kamal et al [19] explored the effect of using various gesture representation systems, with and without visual feedback, on user performance of motion gestures.…”

Section: Visual Feedback Techniquesmentioning

confidence: 99%

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Using audio cues to support motion gesture interaction on mobile devices

Morrison-Smith

Ruiz

2014

CHI '14 Extended Abstracts on Human Factors in Computing Systems

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Using Audio Cues to Support Motion Gesture Interaction on Mobile DevicesMotion gestures are an underutilized input modality for mobile interaction despite numerous potential advantages. Negulescu et al. found that the lack of feedback on attempted motion gestures made it difficult for participants to diagnose and correct errors, resulting in poor recognition performance and user frustration. In this paper, we describe and evaluate a training and feedback technique, Glissando, which uses audio characteristics to provide feedback on the systems interpretation of user input. This technique enables feedback by verbally confirming correct gestures and notifying users of errors in addition to providing continuous feedback by mapping distinct musical notes to each of three axes and manipulating pitch to specify both spatial and temporal information.

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“…Recent work by Kamal et al [19] explored the effect of using various gesture representation systems, with and without visual feedback, on user performance of motion gestures.…”

Section: Visual Feedback Techniquesmentioning

confidence: 99%

“…The control technique was designed in this way since, at the time this research was conducted, there were no other training techniques for motion gestures that did not additional hardware (such as a Kinect [19]). …”

Section: Design and Proceduresmentioning

confidence: 99%

Using audio cues to support motion gesture interaction on mobile devices

Morrison-Smith

Ruiz

2014

CHI '14 Extended Abstracts on Human Factors in Computing Systems

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“…IUI 2017, March 13 -16, 2017, Limassol, Cyprus gestures input from everyday movement [31], teaching appropriate movements necessary to invoke commands [17], and designing reliable recognizers [25].…”

Section: Introductionmentioning

confidence: 99%

Effect of Motion-Gesture Recognizer Error Pattern on User Workload and Behavior

Katsuragawa

Kamal

Lank

2017

Proceedings of the 22nd International Conference on Intelligent User Interfaces

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Bi-level thresholding is a motion gesture recognition technique that mediates between false positives, and false negatives by using two threshold levels: a tighter threshold that limits false positives and recognition errors, and a looser threshold that prevents repeated errors (false negatives) by analyzing movements in sequence. In this paper, we examine the effects of bi-level thresholding on the workload and acceptance of endusers. Using a wizard-of-Oz recognizer, we hold recognition rates constant and adjust for fixed versus bi-level thresholding. Given identical recognition rates, we show that systems using bi-level thresholding result in significant lower workload scores on the NASA-TLX and accelerometer variance. Overall, these results argue for the viability of bi-level thresholding as an effective technique for balancing between false positives, recognition errors and false negatives.

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“…Related research has shown that delivering appropriate feedback to users during gesture input can help with gesture training [7], increase recognition accuracy [8], and improve overall user experience [5]. However, providing feedback beyond visual and audio cues is still subject of technical development and investigation of user perception of vibrotactile stimuli [1,9,11].…”

Section: Introductionmentioning

confidence: 99%

“…These new devices are worn on various body parts and communicate with the user's smartphone, which is emerging as the central unit of a distributed on-body network of devices [2]. Although prior art has investigated vibrotactile feedback delivered on the smartphone itself [7], no work has examined users' perceptions of feedback decoupled from the smartphone and delivered on the body by an accessory wearable during gesture input with the primary device.…”

Section: Introductionmentioning

confidence: 99%