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Rifatul Islam
ORCID
Publication Activity (10 Years)
Years Active: 2020-2023
Publications (10 Years): 12
Top Topics
Chest Ct
Machine Learning
Automatic Detection
Physiological Signals
Top Venues
ISMAR
CoRR
VR Workshops
VR
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Publications
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Ripan Kumar Kundu
,
Rifatul Islam
,
John Quarles
,
Khaza Anuarul Hoque
LiteVR: Interpretable and Lightweight Cybersickness Detection using Explainable AI.
VR
(2023)
Ripan Kumar Kundu
,
Rifatul Islam
,
John Quarles
,
Khaza Anuarul Hoque
LiteVR: Interpretable and Lightweight Cybersickness Detection using Explainable AI.
CoRR
(2023)
Kebin Peng
,
Rifatul Islam
,
John Quarles
,
Kevin Desai
TMVNet : Using Transformers for Multi-view Voxel-based 3D Reconstruction.
CVPR Workshops
(2022)
Ripan Kumar Kundu
,
Rifatul Islam
,
Prasad Calyam
,
Khaza Anuarul Hoque
TruVR: Trustworthy Cybersickness Detection using Explainable Machine Learning.
CoRR
(2022)
Ripan Kumar Kundu
,
Rifatul Islam
,
Prasad Calyam
,
Khaza Anuarul Hoque
TruVR: Trustworthy Cybersickness Detection using Explainable Machine Learning.
ISMAR
(2022)
Rifatul Islam
,
Kevin Desai
,
John Quarles
Towards Forecasting the Onset of Cybersickness by Fusing Physiological, Head-tracking and Eye-tracking with Multimodal Deep Fusion Network.
ISMAR
(2022)
Rifatul Islam
,
Kevin Desai
,
John Quarles
VR Sickness Prediction from Integrated HMD's Sensors using Multimodal Deep Fusion Network.
CoRR
(2021)
Rifatul Islam
,
Samuel Ang
,
John Quarles
CyberSense: A Closed-Loop Framework to Detect Cybersickness Severity and Adaptively apply Reduction Techniques.
VR Workshops
(2021)
Rifatul Islam
,
Kevin Desai
,
John Quarles
Cybersickness Prediction from Integrated HMD's Sensors: A Multimodal Deep Fusion Approach using Eye-tracking and Head-tracking Data.
ISMAR
(2021)
Rifatul Islam
,
Yonggun Lee
,
Mehrad Jaloli
,
Imtiaz Muhammad
,
Dakai Zhu
,
John Quarles
Automatic Detection of Cybersickness from Physiological Signal in a Virtual Roller Coaster Simulation.
VR Workshops
(2020)
Rifatul Islam
A Deep Learning based Framework for Detecting and Reducing onset of Cybersickness.
VR Workshops
(2020)
Rifatul Islam
,
Yonggun Lee
,
Mehrad Jaloli
,
Imtiaz Muhammad
,
Dakai Zhu
,
Paul Rad
,
Yufei Huang
,
John Quarles
Automatic Detection and Prediction of Cybersickness Severity using Deep Neural Networks from user's Physiological Signals.
ISMAR
(2020)