Clustering real-world data is a challenging task, since many real-data collections are characterized by an inherent sparseness and variable distribution. An appealing domain that generates such data collections is the medical care scenario where collected data include a large
cardinality of patient records and a variety of medical treatments usually adopted for a given disease pathology.
This paper proposes a two-phase data mining methodology to iteratively analyze dierent dataset portions and locally identify groups of objects
with common properties. Discovered cohesive clusters are then analyzed using sequential patterns to characterize temporal relationships among
data features. To support an automatic classication of a new data objects within one of the discovered groups, a classication model is created
starting from the computed cluster set. A mobile application has been also designed and developed to visualize and update data under analysis
as well as categorizing new unlabeled records.
A comparative study has been conducted on real datasets in the medical care scenario using diverse clustering algorithms. Results were compared
in terms of cluster quality, execution time, classication performance and discovered sequential patterns. The experimental evaluation showed
the eectiveness of MLC to discover interesting knowledge items and to easily exploit them through a mobile application. Results have been also
discussed from a medical perspective
