Your search keyword '"Taehyun Rhee"' showing total 5 results

1. Augmented Virtual Teleportation for High-Fidelity Telecollaboration

Author

Stephen Thompson, Andrew Chalmers, Rafael Kuffner dos Anjos, Taehyun Rhee, and Daniel Medeiros

Subjects

FOS: Computer and information sciences, Artificial Intelligence and Image Processing, Computer science, media_common.quotation_subject, Fidelity, Computation Theory and Mathematics, Video camera, Computer Graphics and Computer-Aided Design, Teleportation, Mixed reality, Rendering (computer graphics), law.invention, Visualization, Human–computer interaction, law, Signal Processing, Computer Vision and Pattern Recognition, Telecollaboration, Software, media_common

Abstract

Telecollaboration involves the teleportation of a remote collaborator to another real-world environment where their partner is located. The fidelity of the environment plays an important role for allowing corresponding spatial references in remote collaboration. We present a novel asymmetric platform, Augmented Virtual Teleportation (AVT), which provides high-fidelity telepresence of a remote VR user ( VR-Traveler ) into a real-world collaboration space to interact with a local AR user ( AR-Host ). AVT uses a 360° video camera (360-camera) that captures and live-streams the omni-directional scenes over a network. The remote VR-Traveler watching the video in a VR headset experiences live presence and co-presence in the real-world collaboration space. The VR-Traveler's movements are captured and transmitted to a 3D avatar overlaid onto the 360-camera which can be seen in the AR-Host's display. The visual and audio cues for each collaborator are synchronized in the Mixed Reality Collaboration space (MRC-space), where they can interactively edit virtual objects and collaborate in the real environment using the real objects as a reference. High fidelity, real-time rendering of virtual objects and seamless blending into the real scene allows for unique mixed reality use-case scenarios. Our working prototype has been tested with a user study to evaluate spatial presence, co-presence, and user satisfaction during telecollaboration. Possible applications of AVT are identified and proposed to guide future usage.

Published

2020

2. Low-Rank Matrix Completion to Reconstruct Incomplete Rendering Images

Author

Taehyun Rhee, John P. Lewis, and Ping Liu

Subjects

Matrix completion, business.industry, Computer science, Monte Carlo method, Matrix norm, 020207 software engineering, Low-rank approximation, Pattern recognition, 02 engineering and technology, Iterative reconstruction, Missing data, Computer Graphics and Computer-Aided Design, Convolutional neural network, Rendering (computer graphics), Matrix (mathematics), Compressed sensing, Signal Processing, 0202 electrical engineering, electronic engineering, information engineering, 020201 artificial intelligence & image processing, Computer vision, Computer Vision and Pattern Recognition, Artificial intelligence, business, Software

Abstract

Path tracing provides photo-realistic rendering in many applications but intermediate previsualization often suffers from distracting noise. Since the fundamental underlying problem is insufficient samples, we exploit the coherence of the visual signal to reconstruct missing samples, using a low-rank matrix completion framework. We present novel methods to construct low rank matrices for incomplete images including missing pixel, missing sub-pixel, and multi-frame scenarios. A convolutional neural network provides fast pre-completion for initialising missing values, and subsequent weighted nuclear norm minimisation (WNNM) with a parameter adjustment strategy (PAWNNM) efficiently recovers missing values even in high frequency details. The result shows better visual quality than recent methods including compressed sensing based reconstruction.

Published

2018

3. Casual 6-DoF: free-viewpoint panorama using a handheld 360° camera

Author

Rongsen, Chen, Fang-Lue, Zhang, Simon, Finnie, Andrew, Chalmers, and Taehyun, Rhee

Subjects

Signal Processing, Computer Vision and Pattern Recognition, Computer Graphics and Computer-Aided Design, Software

Abstract

Six degrees-of-freedom (6-DoF) video provides telepresence by enabling users to move around in the captured scene with a wide field of regard. Compared to methods requiring sophisticated camera setups, the image-based rendering method based on photogrammetry can work with images captured with any poses, which is more suitable for casual users. However, existing image-based-rendering methods are based on perspective images. When used to reconstruct 6-DoF views, it often requires capturing hundreds of images, making data capture a tedious and time-consuming process. In contrast to traditional perspective images, 360° images capture the entire surrounding view in a single shot, thus, providing a faster capturing process for 6-DoF view reconstruction. This paper presents a novel method to provide 6-DoF experiences over a wide area using an unstructured collection of 360° panoramas captured by a conventional 360° camera. Our method consists of 360° data capturing, novel depth estimation to produce a high-quality spherical depth panorama, and high-fidelity free-viewpoint generation. We compared our method against state-of-the-art methods, using data captured in various environments. Our method shows better visual quality and robustness in the tested scenes.

Published

2022

4. MR360: Mixed Reality Rendering for 360° Panoramic Videos

Author

Taehyun Rhee, Lohit Petikam, Benjamin Allen, and Andrew Chalmers

Subjects

Computer science, media_common.quotation_subject, ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION, Illusion, 02 engineering and technology, Virtual reality, Rendering (computer graphics), Computer graphics (images), Shadow, 0202 electrical engineering, electronic engineering, information engineering, Immersion (virtual reality), Computer vision, ComputingMethodologies_COMPUTERGRAPHICS, media_common, business.industry, 020207 software engineering, Computer Graphics and Computer-Aided Design, Mixed reality, Visualization, Image-based lighting, Salient, Signal Processing, 020201 artificial intelligence & image processing, Computer Vision and Pattern Recognition, Artificial intelligence, business, Software

Abstract

This paper presents a novel immersive system called MR360 that provides interactive mixed reality (MR) experiences using a conventional low dynamic range (LDR) 360° panoramic video (360-video) shown in head mounted displays (HMDs). MR360 seamlessly composites 3D virtual objects into a live 360-video using the input panoramic video as the lighting source to illuminate the virtual objects. Image based lighting (IBL) is perceptually optimized to provide fast and believable results using the LDR 360-video as the lighting source. Regions of most salient lights in the input panoramic video are detected to optimize the number of lights used to cast perceptible shadows. Then, the areas of the detected lights adjust the penumbra of the shadow to provide realistic soft shadows. Finally, our real-time differential rendering synthesizes illumination of the virtual 3D objects into the 360-video. MR360 provides the illusion of interacting with objects in a video, which are actually 3D virtual objects seamlessly composited into the background of the 360-video. MR360 was implemented in a commercial game engine and tested using various 360-videos. Since our MR360 pipeline does not require any pre-computation, it can synthesize an interactive MR scene using a live 360-video stream while providing realistic high performance rendering suitable for HMDs.

Published

2017

5. Scan-Based Volume Animation Driven by Locally Adaptive Articulated Registrations

Author

Taehyun Rhee, Krishna S. Nayak, John P. Lewis, and Ulrich Neumann

Subjects

Computer science, business.industry, Initialization, Image registration, Animation, Computer Graphics and Computer-Aided Design, Pattern Recognition, Automated, Imaging, Three-Dimensional, Signal Processing, Humans, Whole Body Imaging, Body region, Computer vision, Computer Vision and Pattern Recognition, Artificial intelligence, business, Correspondence problem, Algorithms, Software, Computer animation

Abstract

This paper describes a complete system to create anatomically accurate example-based volume deformation and animation of articulated body regions, starting from multiple in vivo volume scans of a specific individual. In order to solve the correspondence problem across volume scans, a template volume is registered to each sample. The wide range of pose variations is first approximated by volume blend deformation (VBD), providing proper initialization of the articulated subject in different poses. A novel registration method is presented to efficiently reduce the computation cost while avoiding strong local minima inherent in complex articulated body volume registration. The algorithm highly constrains the degrees of freedom and search space involved in the nonlinear optimization, using hierarchical volume structures and locally constrained deformation based on the biharmonic clamped spline. Our registration step establishes a correspondence across scans, allowing a data-driven deformation approach in the volume domain. The results provide an occlusion-free person-specific 3D human body model, asymptotically accurate inner tissue deformations, and realistic volume animation of articulated movements driven by standard joint control estimated from the actual skeleton. Our approach also addresses the practical issues arising in using scans from living subjects. The robustness of our algorithms is tested by their applications on the hand, probably the most complex articulated region in the body, and the knee, a frequent subject area for medical imaging due to injuries.

Published

2011