Paper Info
Title
Probabilistic change detection and visualization methods for the assessment of temporal stability in biomedical data quality
Abstract
Knowledge discovery on biomedical data can be based on on-line, data-stream analyses, or using retrospective, timestamped, off-line datasets. In both cases, changes in the processes that generate data or in their quality features through time may hinder either the knowledge discovery process or the generalization of past knowledge. These problems can be seen as a lack of data temporal stability. This work establishes the temporal stability as a data quality dimension and proposes new methods for its assessment based on a probabilistic framework. Concretely, methods are proposed for (1) monitoring changes, and (2) characterizing changes, trends and detecting temporal subgroups. First, a probabilistic change detection algorithm is proposed based on the Statistical Process Control of the posterior Beta distribution of the Jensen---Shannon distance, with a memoryless forgetting mechanism. This algorithm (PDF-SPC) classifies the degree of current change in three states: In-Control, Warning, and Out-of-Control. Second, a novel method is proposed to visualize and characterize the temporal changes of data based on the projection of a non-parametric information-geometric statistical manifold of time windows. This projection facilitates the exploration of temporal trends using the proposed IGT-plot and, by means of unsupervised learning methods, discovering conceptually-related temporal subgroups. Methods are evaluated using real and simulated data based on the National Hospital Discharge Survey (NHDS) dataset.
Year
DOI
Venue
2015
10.1007/s10618-014-0378-6
Data Mining and Knowledge Discovery
Keywords
Field
DocType
Data quality,Change detection,Information theory,Information geometry,Visual analytics,Biomedical data
Data mining,Change detection,Data quality,Visualization,Computer science,Unsupervised learning,Knowledge extraction,Statistical process control,Artificial intelligence,Probabilistic logic,Statistical manifold,Machine learning
Journal
Volume
Issue
ISSN
29
4
1384-5810
Citations 
PageRank 
References 
6
0.59
29
Authors
5
Name
Order
Citations
PageRank
Carlos Sáez1487.97
Pedro Pereira Rodrigues275250.81
João Gama33785271.37
Montserrat Robles4106458.83
Juan Miguel García-Gómez524915.21