ABSTRACT
Modern scientific instruments are becoming essential for discoveries because they provide unprecedented insight into physical or biological events - often in real time. However, these instruments may generate large amounts of data, and increasingly they require sophisticated e-infrastructure for analysis, storage and archive. The increasing complexity and scale of the data, processing steps and systems has made it difficult for domain scientists to perform their research, narrowing the user base to a select few. In this paper, we present a framework that democratises large-scale instrument-based science, increasing the number of researchers who can engage. We discuss a prototype at the University of Queensland. The system is illustrated through two case studies, one involving light microscopy imaging of the innate immune system, and the other electron microscopy imaging of the SARS-CoV-2 viral proteins. © 2022 IEEE.
ABSTRACT
Medical tourism attracts medical vacationers by promoting its uniform vacation ease, healthcare know-how, proficiency, and comprehensible amenities. With the upsurge in COVID-19 cases and no therapeutic treatment, non-pharmaceutical intrusions are the utmost priority. Unprecedented travel limitations and homestay restrictions are posing a huge economic burden to the tourism industry. The present study aims to identify determinants inciting sustainable e-medical tourism post COVID-19 pandemic. The study is advanced from the theoretical outlook, systematically determining and scrutinizing the prior literature to discuss the determinants which encourage e-medical tourism. The results of the study highlight that resource and management assistance, electronic supporting facilities, demand issues, technological intervention, and situational glitches act as major aspects of perseverance of e-medical tourism. An apparent limitation of the present study is the absence of contributions based on empirical data.