Standard
Head-mounted Augmented Reality for Guided Surface Reflectance Capture. / Belongie, Serge; Haraldsson, Harald; Skovsen, Søren ; Lim, Ser Nam; Marschner, Steve; Davis, Abe.
2020. Paper præsenteret ved CVPR Workshop on Computer Vision for Augmented and Virtual Reality.
Publikation: Konferencebidrag › Paper › Forskning › fagfællebedømt
Harvard
Belongie, S, Haraldsson, H, Skovsen, S, Lim, SN, Marschner, S & Davis, A 2020, '
Head-mounted Augmented Reality for Guided Surface Reflectance Capture', Paper fremlagt ved CVPR Workshop on Computer Vision for Augmented and Virtual Reality,
15/06/2020 -
20/06/2021. <
https://vision.cornell.edu/se3/wp-content/uploads/2020/06/Head-mounted-Augmented-Reality-for-Guided-Surface-Reflectance-Capture.pdf>
APA
Belongie, S., Haraldsson, H., Skovsen, S., Lim, S. N., Marschner, S., & Davis, A. (2020).
Head-mounted Augmented Reality for Guided Surface Reflectance Capture. Paper præsenteret ved CVPR Workshop on Computer Vision for Augmented and Virtual Reality.
https://vision.cornell.edu/se3/wp-content/uploads/2020/06/Head-mounted-Augmented-Reality-for-Guided-Surface-Reflectance-Capture.pdf
Vancouver
Belongie S, Haraldsson H, Skovsen S, Lim SN, Marschner S, Davis A. Head-mounted Augmented Reality for Guided Surface Reflectance Capture. 2020. Paper præsenteret ved CVPR Workshop on Computer Vision for Augmented and Virtual Reality.
Author
Belongie, Serge ; Haraldsson, Harald ; Skovsen, Søren ; Lim, Ser Nam ; Marschner, Steve ; Davis, Abe. / Head-mounted Augmented Reality for Guided Surface Reflectance Capture. Paper præsenteret ved CVPR Workshop on Computer Vision for Augmented and Virtual Reality.3 s.
Bibtex
@conference{3e4bf60ecb444227a57c279bd815cd7f,
title = "Head-mounted Augmented Reality for Guided Surface Reflectance Capture",
abstract = "In this project, we explore the design of a system for helping users capture surface reflectance functions with a headmounted augmented reality (AR) device and a hand-held controller. We supplement a standard 6-DOF controller with a mountable light source that we track during capture. Users begin by using the controller to select a surface region for capture. We then record images through the head-mounted camera while guiding the user{\textquoteright}s control of the hand-held light source with real-time feedback through the AR display. Our system provides a simple and efficient way to capture information about surface reflectance in the wild.",
author = "Serge Belongie and Harald Haraldsson and S{\o}ren Skovsen and Lim, {Ser Nam} and Steve Marschner and Abe Davis",
year = "2020",
month = jun,
language = "English",
note = "CVPR Workshop on Computer Vision for Augmented and Virtual Reality ; Conference date: 15-06-2020 Through 20-06-2021",
}
RIS
TY - CONF
T1 - Head-mounted Augmented Reality for Guided Surface Reflectance Capture
AU - Belongie, Serge
AU - Haraldsson, Harald
AU - Skovsen, Søren
AU - Lim, Ser Nam
AU - Marschner, Steve
AU - Davis, Abe
PY - 2020/6
Y1 - 2020/6
N2 - In this project, we explore the design of a system for helping users capture surface reflectance functions with a headmounted augmented reality (AR) device and a hand-held controller. We supplement a standard 6-DOF controller with a mountable light source that we track during capture. Users begin by using the controller to select a surface region for capture. We then record images through the head-mounted camera while guiding the user’s control of the hand-held light source with real-time feedback through the AR display. Our system provides a simple and efficient way to capture information about surface reflectance in the wild.
AB - In this project, we explore the design of a system for helping users capture surface reflectance functions with a headmounted augmented reality (AR) device and a hand-held controller. We supplement a standard 6-DOF controller with a mountable light source that we track during capture. Users begin by using the controller to select a surface region for capture. We then record images through the head-mounted camera while guiding the user’s control of the hand-held light source with real-time feedback through the AR display. Our system provides a simple and efficient way to capture information about surface reflectance in the wild.
M3 - Paper
T2 - CVPR Workshop on Computer Vision for Augmented and Virtual Reality
Y2 - 15 June 2020 through 20 June 2021
ER -