Architecture of a web-based DICOM viewer showing segmentations and simulations

Abstract: In teleradiology doctors view the image data of a healthcare institution from a remote site. To do so they typically connect to an image repository, download the necessary data and finally view it in a locally installed DICOM viewer. Recent research activities in teleradiology [1, 2, 3, 4] focus on the implementation of ubiquitously accessible web-based DICOM viewers which simplify the access and the collaboration among radiologists. However, these solutions either have a weak performance, they run on the clie… Show more

“…The OpenAugury framework comprises two primary facets: a highly-adaptable simulation domain model (see Figure 2) and a compatible technical architecture. This structure draws on work performed in a clinical context [29] to create a clinicianfacing, model-independent simulation framework for multi-modal cancer treatments [30,31]. The present work is a case study of the existing OpenAugury framework-built with support from OpenDataNIapplied to the KSA context and open data, thereby demonstrating the framework's adaptability, to allow the dynamic addition of physical phenomena, geographic settings, data sources in a highly contrasting context.…”

Building Educational Simulations Using KSA Open Data

“…The OpenAugury framework comprises two primary facets: a highly-adaptable simulation domain model (see Figure 2) and a compatible technical architecture. This structure draws on work performed in a clinical context [29] to create a clinicianfacing, model-independent simulation framework for multi-modal cancer treatments [30,31]. The present work is a case study of the existing OpenAugury framework-built with support from OpenDataNIapplied to the KSA context and open data, thereby demonstrating the framework's adaptability, to allow the dynamic addition of physical phenomena, geographic settings, data sources in a highly contrasting context.…”

Building Educational Simulations Using KSA Open Data

Efficient Web-Based Review for Automatic Segmentation of Volumetric DICOM Images

Applying trajectory mining in medical image data