Inverse Kinematics Assistance for the Creation of Redirected Walking Paths

Virtual reality interactions that require a specific relationship between the virtual and physical coordinate systems, such as passive haptic interactions, are not possible with locomotion techniques using redirected walking. To address this limitation, recent research has introduced environmental a...

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Published in2022 IEEE International Symposium on Mixed and Augmented Reality (ISMAR) pp. 593 - 602
Main Authors Thomas, Jerald, Yong, Seraphina, Rosenberg, Evan Suma
Format Conference Proceeding
LanguageEnglish
Published IEEE 01.10.2022
Subjects
Authoring systems
Computer graphics
Computing methodologies
Graphics systems and interfaces
Haptic interfaces
Human computer interaction (HCI)
Human-centered computing
Interaction paradigms
Kinematics
Legged locomotion
Prediction algorithms
Predictive models
Solid modeling
Virtual reality
Online AccessGet full text
DOI10.1109/ISMAR55827.2022.00076

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Abstract Virtual reality interactions that require a specific relationship between the virtual and physical coordinate systems, such as passive haptic interactions, are not possible with locomotion techniques using redirected walking. To address this limitation, recent research has introduced environmental alignment, which is the notion of using redirected walking techniques to align the virtual and physical coordinate systems such that these interactions are possible. However, the previous research has only implemented environmental alignment in a reactive manner, and the authors posited that better results could be achieved if a predictive algorithm was instead used. In this work, we introduce a novel way to model the environmental alignment problem as a version of the inverse kinematics problem which can be incorporated into several existing predictive algorithms, as well as a simple proof-of-concept implementation. An exploratory human subject study (N=17) was conducted to evaluate this implementation's usability as a tool for authoring planned path redirected walking scenarios that incorporate physical interactivity. To our knowledge, this is the first study to evaluate redirected walking experience design tools and provides a possible framework for future studies. Our qualitative analysis of the results generated both guidance for integrating automatic solvers and broad recommendations for designing redirected path authoring tools.
AbstractList Virtual reality interactions that require a specific relationship between the virtual and physical coordinate systems, such as passive haptic interactions, are not possible with locomotion techniques using redirected walking. To address this limitation, recent research has introduced environmental alignment, which is the notion of using redirected walking techniques to align the virtual and physical coordinate systems such that these interactions are possible. However, the previous research has only implemented environmental alignment in a reactive manner, and the authors posited that better results could be achieved if a predictive algorithm was instead used. In this work, we introduce a novel way to model the environmental alignment problem as a version of the inverse kinematics problem which can be incorporated into several existing predictive algorithms, as well as a simple proof-of-concept implementation. An exploratory human subject study (N=17) was conducted to evaluate this implementation's usability as a tool for authoring planned path redirected walking scenarios that incorporate physical interactivity. To our knowledge, this is the first study to evaluate redirected walking experience design tools and provides a possible framework for future studies. Our qualitative analysis of the results generated both guidance for integrating automatic solvers and broad recommendations for designing redirected path authoring tools.
Author Thomas, Jerald
Rosenberg, Evan Suma
Yong, Seraphina
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  surname: Rosenberg
  fullname: Rosenberg, Evan Suma
  email: suma@umn.edu
  organization: Virginia Tech
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SubjectTerms Authoring systems
Computer graphics
Computing methodologies
Graphics systems and interfaces
Haptic interfaces
Human computer interaction (HCI)
Human-centered computing
Interaction paradigms
Kinematics
Legged locomotion
Prediction algorithms
Predictive models
Solid modeling
Virtual reality
Title Inverse Kinematics Assistance for the Creation of Redirected Walking Paths
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