On-the-Fly Detection of User Engagement Decrease in Spontaneous Human–Robot Interaction Using Recurrent and Deep Neural Networks

Atef Ben-Youssef; Giovanna Varni; Slim Essid; Chloé Clavel

doi:10.1007/s12369-019-00591-2

On-the-Fly Detection of User Engagement Decrease in Spontaneous Human–Robot Interaction Using Recurrent and Deep Neural Networks

Atef Ben-Youssef
, Giovanna Varni
, Slim Essid
, Chloé Clavel

Institut Polytechnique de Paris

Research output: Contribution to journal › Article › peer-review

Abstract

In this paper we consider the detection of a decrease of engagement by users spontaneously interacting with a socially assistive robot in a public space. We first describe the UE-HRI dataset that collects spontaneous human–robot interactions following the guidelines provided by the affective computing research community to collect data “in-the-wild”. We then analyze the users’ behaviors, focusing on proxemics, gaze, head motion, facial expressions and speech during interactions with the robot. Finally, we investigate the use of deep leaning techniques (recurrent and deep neural networks) to detect user engagement decrease in real-time. The results of this work highlight, in particular, the relevance of taking into account the temporal dynamics of a user’s behavior. Allowing 1–2 s as buffer delay improves the performance of taking a decision on user engagement.

Original language	English
Pages (from-to)	815-828
Number of pages	14
Journal	International Journal of Social Robotics
Volume	11
Issue number	5
DOIs	https://doi.org/10.1007/s12369-019-00591-2
Publication status	Published - 1 Dec 2019

Keywords

HRI in public space
Real-time detection
Socially assistive robot
User engagement decrease

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10.1007/s12369-019-00591-2

Cite this

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title = "On-the-Fly Detection of User Engagement Decrease in Spontaneous Human–Robot Interaction Using Recurrent and Deep Neural Networks",

abstract = "In this paper we consider the detection of a decrease of engagement by users spontaneously interacting with a socially assistive robot in a public space. We first describe the UE-HRI dataset that collects spontaneous human–robot interactions following the guidelines provided by the affective computing research community to collect data “in-the-wild”. We then analyze the users{\textquoteright} behaviors, focusing on proxemics, gaze, head motion, facial expressions and speech during interactions with the robot. Finally, we investigate the use of deep leaning techniques (recurrent and deep neural networks) to detect user engagement decrease in real-time. The results of this work highlight, in particular, the relevance of taking into account the temporal dynamics of a user{\textquoteright}s behavior. Allowing 1–2 s as buffer delay improves the performance of taking a decision on user engagement.",

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author = "Atef Ben-Youssef and Giovanna Varni and Slim Essid and Chlo{\'e} Clavel",

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AU - Clavel, Chloé

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On-the-Fly Detection of User Engagement Decrease in Spontaneous Human–Robot Interaction Using Recurrent and Deep Neural Networks

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Keywords

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