"Drawing on case studies from news media to visualization research, we identify distinct genres of narrative visualization. We characterize these design differences, together with interactivity and messaging, in terms of the balance between the narrative flow intended by the author (imposed by graphical elements and the interface) and story discovery on the part of the reader (often through interactive exploration). Our framework suggests design strategies for narrative visualization, including promising under-explored approaches to journalistic storytelling and educational media."
"The Visual Understanding Environment (VUE) is an Open Source project based at Tufts University. The VUE project is focused on creating flexible tools for managing and integrating digital resources in support of teaching, learning and research. VUE provides a flexible visual environment for structuring, presenting, and sharing digital information. "
All kinds of resources, from Twitter applications for physicians to visualizations of various categories of medical research on PubMed. Fantastic blog; do NOT miss it!
Finding the right way view your data is as much an art as a science. The visualizations provided on Many Eyes range from the ordinary to the experimental.
"The frequency of accurate observations on a 1-h visual skills examination was used to evaluate pre- vs. post-course descriptions of patient photographs and art imagery. "
"People love to learn by examining visual representations of data. That's been proven time and time again by the popularity of both infographics and Pinterest. So what if you could make your own infographics? "
"Today I am going to walk you through the anatomy of an infographic, its different levels and sub-levels and a 5-step process to ensure that your infographic is not only conceptually sound, but accurate and easily understood."
"The PIE group works on multiple projects aimed at improving medical education outcomes. Our work ranges from online patient simulations to three-dimensional anatomical visualizations. "
"Award winning Pocket Body features a fully anatomically accurate human character with nine layers of musculoskeletal, neurovascular, and internal organ visual content...plus over 30,000 words of learning material.
"
The purpose of this website is to create a collection of free medical mindmaps in order to facilitate learning of complex topics.
Mindmaping is a way of incorporating imagery, colour, and visual-spatial arrangement to your notes. These elements have been separately shown to improve recall of learnt material.
Mindmapping allows for the whole topic to be displayed on a single page, which increases revision speed and allows you to see connections between different ideas more easily.
The difficulty in using mindmaps for revision is that it often takes a fair amount of time to design them and there are many topics to be covered in medicine. In preparation for exams, it would be very difficult for a student to make a good mindmap for every topic. One of the aims of this website is to help you overcome this problem.
SNAPP is a software tool that allows users to visualize the network of interactions resulting from discussion forum posts and replies. The network visualisations of forum interactions provide an opportunity for teachers to rapidly identify patterns of user behaviour - at any stage of course progression. SNAPP has been developed to extract all user interactions from various commercial and open source learning management systems (LMS) such as BlackBoard (including the former WebCT), and Moodle. SNAPP is compatible for both Mac and PC users and operates in Internet Explorer, Firefox and Safari.
charles bonnett syndrome [hallucinations in 10% of visual/hearing impaired] ; unlike psychotic hallucinations don't address/accuse/abuse/seduce/interact with the patient.
Download this "medical decision-making algorithm tool" here. Medical professionals can create visual algorithms to explain processes and collaborate on projects.