Rifatul Islam

Publication Activity (10 Years)

Years Active: 2020-2024
Publications (10 Years): 14

Top Topics

Virtual Reality

Physiological Signals

Automatic Detection

Top Venues

Publications

Umama Tasnim, Rifatul Islam, Kevin Desai, John Quarles
Investigating Personalization Techniques for Improved Cybersickness Prediction in Virtual Reality Environments. IEEE Trans. Vis. Comput. Graph. 30 (5) (2024)
Md. Jahirul Islam, Rifatul Islam
Towards Optimized Cybersickness Prediction for Computationally Constrained Standalone Virtual Reality Devices. VR Workshops (2024)
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)