A Wizard of Oz Study of Human Interest Towards Robot Initiated Human-Robot Interaction

To generate context-aware behaviors in robots, robots are required to have a careful evaluation of its encounters with humans. Unwrapping emotional hints in observable cues in an encounter will improve a robot’s etiquettes in a social encounter. This article presents an extended human study conducted to examine how several factors in an encounter influence a person’s preferences upon an interaction at a particular moment. We analyzed the nature of conversation preferred by a user considering the type of conversation a robot could have with its user, having the interaction initiated by the robot itself. We took an effort to explore how such preferences differ as the factors present in the surrounding alter. A social robot equipped with the capability to initiate a conversation is deployed to conduct the study by means of a wizard-of-oz (WoZ) experiment. During this study, conversational preferences of users could vary from “no interaction at all” to a “long conversation.” We changed three factors in an encounter which can be different from each other in each circumstance: the audience or outsiders in the environment, user’s task, and the domestic area in which the interaction takes place. Conversational preferences of users within the abovementioned conditions were analyzed in a later stage, and critical observations are highlighted. Finally, implications that could be helpful in shaping future social human-robot encounters were derived from the analysis of the results.

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Escaping Oz: Autonomy in Socially Assistive Robotics

Annual Review of Control Robotics and Autonomous Systems ◽

10.1146/annurev-control-060117-104911 ◽

2019 ◽

Vol 2 (1) ◽

pp. 33-61 ◽

Cited By ~ 7

Author(s):

Caitlyn Clabaugh ◽

Maja Matarić

Keyword(s):

Design Patterns ◽

Human Robot Interaction ◽

Assistive Robotics ◽

Robot Interaction ◽

Wizard Of Oz ◽

Socially Assistive Robotics ◽

Special Needs Education ◽

Engineering Practices ◽

And Robotics

The field of socially assistive robotics (SAR) aims to supplement the efforts of clinicians, therapists, educators, and caregivers through individualized, socially mediated interventions with robots. SAR is faced with the interdisciplinary challenge to balance sensitive domain needs with current technical limitations. Many researchers in SAR and the broader human–robot interaction community overcome technical barriers by using a Wizard of Oz approach, or teleoperation of the robot or aspects of the interaction. Although Wizard of Oz is a well-established practice, it becomes intractable in critical SAR domains that require long-term, situated support, such as aging in place and special needs education. In this article, we define a set of autonomy-centric design properties for SAR interventions based on concepts from artificial intelligence and robotics. These properties structure a systematic review of the last decade of autonomous SAR research. From the review, we draw and discuss common computational methods, engineering practices, and design patterns that enable autonomy in SAR.

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Development and Usability Testing of a Remote Control App for An Interactive RoboT

Proceedings of the Human Factors and Ergonomics Society Annual Meeting ◽

10.1177/1541931213601695 ◽

2017 ◽

Vol 61 (1) ◽

pp. 808-812 ◽

Cited By ~ 1

Author(s):

Eric Vasey ◽

Maryam S. FakhrHosseini ◽

Zhi Zheng ◽

Chung-Hyuk Park ◽

Ayanna Howard ◽

...

Keyword(s):

Remote Control ◽

Human Robot Interaction ◽

Ease Of Use ◽

Usability Study ◽

Robot Interaction ◽

Wizard Of Oz ◽

User Input ◽

Nao Robot ◽

Future Work

Experimenters need robots that are easier to control for experimental purposes. In this paper, we conducted interviews for eliciting interaction requirements for human-robot interaction scenarios. User input was then incorporated into an Android application for remotely controlling an Aldebaran Nao robot for use in Wizard-of-Oz experiments and demos. The app was used in a usability study to compare it with an existing Nao remote control app. Results were positive, highlighting the ease-of-use and organization of the app. Future work includes a more complete usability trial evaluating the unique functionality of the app, as well as a case study of the app in a real Wizard-of-Oz experiment.

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WoZ4U: An Open-Source Wizard-of-Oz Interface for Easy, Efficient and Robust HRI Experiments

Frontiers in Robotics and AI ◽

10.3389/frobt.2021.668057 ◽

2021 ◽

Vol 8 ◽

Author(s):

Finn Rietz ◽

Alexander Sutherland ◽

Suna Bensch ◽

Stefan Wermter ◽

Thomas Hellström

Keyword(s):

Vital Role ◽

Human Robot Interaction ◽

Graphical Interface ◽

Robot Interaction ◽

Wizard Of Oz ◽

User Input ◽

Simple Hypothesis ◽

Individual Experiment ◽

Speed Up ◽

General Tool

Wizard-of-Oz experiments play a vital role in Human-Robot Interaction (HRI), as they allow for quick and simple hypothesis testing. Still, a publicly available general tool to conduct such experiments is currently not available in the research community, and researchers often develop and implement their own tools, customized for each individual experiment. Besides being inefficient in terms of programming efforts, this also makes it harder for non-technical researchers to conduct Wizard-of-Oz experiments. In this paper, we present a general and easy-to-use tool for the Pepper robot, one of the most commonly used robots in this context. While we provide the concrete interface for Pepper robots only, the system architecture is independent of the type of robot and can be adapted for other robots. A configuration file, which saves experiment-specific parameters, enables a quick setup for reproducible and repeatable Wizard-of-Oz experiments. A central server provides a graphical interface via a browser while handling the mapping of user input to actions on the robot. In our interface, keyboard shortcuts may be assigned to phrases, gestures, and composite behaviors to simplify and speed up control of the robot. The interface is lightweight and independent of the operating system. Our initial tests confirm that the system is functional, flexible, and easy to use. The interface, including source code, is made commonly available, and we hope that it will be useful for researchers with any background who want to conduct HRI experiments.

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Wizard of Oz for Designing Hand Gesture Vocabulary in Human-Robot Interaction

2011 Third International Conference on Knowledge and Systems Engineering ◽

10.1109/kse.2011.44 ◽

2011 ◽

Cited By ~ 2

Author(s):

Nguyen Thi Thanh Mai ◽

Tran Thi Thanh Hai ◽

Nguyen Viet Son

Keyword(s):

Human Robot Interaction ◽

Hand Gesture ◽

Robot Interaction ◽

Wizard Of Oz

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A Survey on Behavior Control Architectures for Social Robots in Healthcare Interventions

International Journal of Humanoid Robotics ◽

10.1142/s0219843617500219 ◽

2017 ◽

Vol 14 (04) ◽

pp. 1750021 ◽

Cited By ~ 5

Author(s):

Hoang-Long Cao ◽

Pablo Gómez Esteban ◽

Albert De Beir ◽

Ramona Simut ◽

Greet van de Perre ◽

...

Keyword(s):

Social Robots ◽

Human Robot Interaction ◽

Behavior Control ◽

Robot Interaction ◽

Research Attention ◽

Wizard Of Oz ◽

Autonomous Behavior ◽

Robot Behavior ◽

Healthcare Interventions ◽

Rat Study

The use of Robot-Assisted Therapy (RAT) in healthcare interventions has increasingly received research attention. However, a lot of RAT studies are conducted under Wizard of Oz (WoZ) techniques in which the robots are teleoperated or pre-programmed. The trend of RAT is moving towards (partially) autonomous control in which the robot behavior control architecture plays a significant role in creating effective human–robot interaction by engaging and motivating human users into the therapeutic processes. This paper describes the state-of-the-art of the autonomous behavior control architectures currently developed for social robots in healthcare interventions, considering both clinical and exploratory studies. We also present certain requirements that an architecture used in RAT study should acquire, which provide roboticists and therapists an inspiration to orient their designs and implementations on the basis of their targeted RAT applications.

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