and produce analytical results. However, although extremely
important, the Big Data Analytics function is only one of the
functions that can be achieved with the engineering techniques
involved in the Big Data area. Even more important are data
mining, data assimilation, and machine learning techniques;
Machine learning techniques are used for data analysis and pattern
recognition and thus they can play a key role in the development of
data assimilation procedure (Fig.6), data mining applications, and,
in the near future, artificial intelligence.
Data analysis can be performed after acquisition of biological
data. Correlations between different biological factors, clinical and
non-clinical data and molecular analysis variants can be performed,
giving, i.e., an estimation of the probability of developing a pathol-
ogy, given the presence of each one of the risk factors; a predictive
model can be constructed during the follow-up time to monitor
the disease’s onset.3 Notes
- Here, we will look at some image analysis tools to analyze and
visualize our imaging data. Some open source software includes
ImageJ, Fiji, Meta Morph, Amira, Imaris; these softwares are
able to offer microscopy data analysis with direct linking to
imaging instrumentations.
The open source software is helpful for the image analysis
and image informatics workflow to visualize the data in an
easier way such as: Bioimage XD [22], Icy, Fiji [23], Cell
profiler.
There are image database in which the public repositories are
available for the data associated with the number of articles
already published. These include as follows:
model
data
assimilationforecast
(background)state update
(analysis)observationsFig. 6Schematic illustration of the data assimilation
Imaging and Systems Biology 353