Add to ORKGAlthough there has been a lot of progress in the domain of automatic knowledge discovery (e.g., deep learning), we believe humans play a central role in the data analysis task. Therefore, we propose to build a visual stream processing system for supporting the analysis and exploration of data streams in real-time, by exploiting human’s natural ability for discovering patterns. Our work combines stream processing and data storage techniques [2, 3], with data visualization theory. We study strategies for visualizing different types of data considering constraints related to real time and data volume. This paper presents our stream processing and visualization system adapted to the requirements of the neuroscience domain
Visual knowledge plays an important role in many highly skilled applications, such as medical diagno...
Recent progress in large-volume microscopy, tissue-staining, as well as in image processing methods ...
What if we could effectively read the mind and transfer human visual capabilities to computer vision...
Although there has been a lot of progress in the domain of automatic knowledge discovery (e.g., deep...
Currently, the focus of research within Information Visualisation is steering towards genomic data v...
With advances in computing techniques, a large amount of high- resolution high-quality multimedia da...
We present here a novel, lightweight, web-based application for visualizing patterns of connectivity...
Neuroscientists are increasingly overwhelmed by new recordings of the nervous system. These recordin...
In visualization applications, the data has been increasing its size at very big rates. Processing o...
The file(s) associated with this record are no longer available. [jc][04.02.2013]Neuroscientists are...
We will demonstrate the visual analytics system V istreamT, that supports interactive mining of comp...
The field of neuroscience explains how the neural networks in the brain work together to perform a v...
The overarching objective of this work is to bridge neuroscience and artificial intelligence to ulti...
We present a method for automatically evaluating and optimizing visualizations using a computational...
This thesis describes the research underpinning and the development of a cross platform application ...
Visual knowledge plays an important role in many highly skilled applications, such as medical diagno...
Recent progress in large-volume microscopy, tissue-staining, as well as in image processing methods ...
What if we could effectively read the mind and transfer human visual capabilities to computer vision...
Although there has been a lot of progress in the domain of automatic knowledge discovery (e.g., deep...
Currently, the focus of research within Information Visualisation is steering towards genomic data v...
With advances in computing techniques, a large amount of high- resolution high-quality multimedia da...
We present here a novel, lightweight, web-based application for visualizing patterns of connectivity...
Neuroscientists are increasingly overwhelmed by new recordings of the nervous system. These recordin...
In visualization applications, the data has been increasing its size at very big rates. Processing o...
The file(s) associated with this record are no longer available. [jc][04.02.2013]Neuroscientists are...
We will demonstrate the visual analytics system V istreamT, that supports interactive mining of comp...
The field of neuroscience explains how the neural networks in the brain work together to perform a v...
The overarching objective of this work is to bridge neuroscience and artificial intelligence to ulti...
We present a method for automatically evaluating and optimizing visualizations using a computational...
This thesis describes the research underpinning and the development of a cross platform application ...
Visual knowledge plays an important role in many highly skilled applications, such as medical diagno...
Recent progress in large-volume microscopy, tissue-staining, as well as in image processing methods ...
What if we could effectively read the mind and transfer human visual capabilities to computer vision...