We present a novel method for synthesising new views of endoscopic images, utilising an innovative 3D shape representation technique known as Gaussian splatting. Structure from Motion (SfM) has traditionally been employed for this purpose to recover 3D shapes of feature points and poses from video sequences, but has only been effective in limited situations due to the featureless, shiny and deformable organ internal surfaces of endoscopic images.To address this challenge, we propose a hybrid method that combines a single depth map estimation using deep neural networks (DNNs) with a Gaussian splatting approach. Our method incorporates 4D Gaussian splatting, optimising the shape and colour Gaussians of the point cloud to align with the input image and synthesising new views by considering deformations. Experiments demonstrate that the proposed method produces less degraded results compared to Gaussian splatting using SfM, a conventional method, using real endoscopic images, and is useful in cases where a conventional method, e.g. SfM, cannot be used.
Download full-text PDF |
Source |
|---|---|
| http://dx.doi.org/10.1109/EMBC53108.2024.10782148 | DOI Listing |
Publication Analysis
Top Keywords
Similar Publications
Multi-Layer Gaussian Splatting for Immersive Anatomy Visualization.
IEEE Trans Vis Comput Graph
March 2025
In medical image visualization, path tracing of volumetric medical data like computed tomography (CT) scans produces lifelike three-dimensional visualizations. Immersive virtual reality (VR) displays can further enhance the understanding of complex anatomies. Going beyond the diagnostic quality of traditional 2D slices, they enable interactive 3D evaluation of anatomies, supporting medical education and planning.
View Article and Find Full Text PDFSplatLoc: 3D Gaussian Splatting-based Visual Localization for Augmented Reality.
IEEE Trans Vis Comput Graph
March 2025
Visual localization plays an important role in the applications of Augmented Reality (AR), which enable AR devices to obtain their 6-DoF pose in the pre-build map in order to render virtual content in real scenes. However, most existing approaches can not perform novel view rendering and require large storage capacities for maps. To overcome these limitations, we propose an efficient visual localization method capable of high-quality rendering with fewer parameters.
View Article and Find Full Text PDFMPGS: Multi-plane Gaussian Splatting for Compact Scenes Rendering.
IEEE Trans Vis Comput Graph
March 2025
Accurate reconstruction of heterogeneous scenes for high-fidelity rendering in an efficient manner remains a crucial but challenging task in many Virtual Reality and Augmented Reality applications. The recent 3D Gaussian Splatting (3DGS) has shown impressive quality in scene rendering with real-time performance. However, for heterogeneous scenes with many weak-textured regions, the original 3DGS can easily produce numerously wrong floaters with unbalanced reconstruction using redundant 3D Gaussians, which often leads to unsatisfied scene rendering.
View Article and Find Full Text PDFEnhancing Patient Acceptance of Robotic Ultrasound through Conversational Virtual Agent and Immersive Visualizations.
IEEE Trans Vis Comput Graph
March 2025
Robotic ultrasound systems have the potential to improve medical diagnostics, but patient acceptance remains a key challenge. To address this, we propose a novel system that combines an AI-based virtual agent, powered by a large language model (LLM), with three mixed reality visualizations aimed at enhancing patient comfort and trust. The LLM enables the virtual assistant to engage in natural, conversational dialogue with patients, answering questions in any format and offering real-time reassurance, creating a more intelligent and reliable interaction.
View Article and Find Full Text PDFFrequency-aware Uncertainty Gaussian Splatting for Dynamic Scene Reconstruction.
IEEE Trans Vis Comput Graph
March 2025
3D Gaussian splatting has recently achieved remarkable progress in dynamic scene reconstruction. However, there remain two practical challenges: (1) Existing methods typically employ a strict point-wise deformation structure to model dynamic attributes, while neglecting the uncertain motion correlation in local space, leading to inferior adaptability to complex scenes. (2) The inherent low-frequency bias properties of Gaussians often lead to blurring artifacts due to the insufficient high-frequency learning of variable motions.
View Article and Find Full Text PDFWant AI Summaries of new PubMed Abstracts delivered to your In-box?
Enter search terms and have AI summaries delivered each week - change queries or unsubscribe any time!