An Incremental EM-based Learning Approach for On-Line Prediction of Hospital Resource Utilization


Autoria(s): Ng, S. K.; McLachlan, G. J.; Lee, A. H.
Contribuinte(s)

K. P. Adlassnig

Data(s)

01/01/2006

Resumo

Objective: Inpatient length of stay (LOS) is an important measure of hospital activity, health care resource consumption, and patient acuity. This research work aims at developing an incremental expectation maximization (EM) based learning approach on mixture of experts (ME) system for on-line prediction of LOS. The use of a batchmode learning process in most existing artificial neural networks to predict LOS is unrealistic, as the data become available over time and their pattern change dynamically. In contrast, an on-line process is capable of providing an output whenever a new datum becomes available. This on-the-spot information is therefore more useful and practical for making decisions, especially when one deals with a tremendous amount of data. Methods and material: The proposed approach is illustrated using a real example of gastroenteritis LOS data. The data set was extracted from a retrospective cohort study on all infants born in 1995-1997 and their subsequent admissions for gastroenteritis. The total number of admissions in this data set was n = 692. Linked hospitalization records of the cohort were retrieved retrospectively to derive the outcome measure, patient demographics, and associated co-morbidities information. A comparative study of the incremental learning and the batch-mode learning algorithms is considered. The performances of the learning algorithms are compared based on the mean absolute difference (MAD) between the predictions and the actual LOS, and the proportion of predictions with MAD < 1 day (Prop(MAD < 1)). The significance of the comparison is assessed through a regression analysis. Results: The incremental learning algorithm provides better on-line prediction of LOS when the system has gained sufficient training from more examples (MAD = 1.77 days and Prop(MAD < 1) = 54.3%), compared to that using the batch-mode learning. The regression analysis indicates a significant decrease of MAD (p-value = 0.063) and a significant (p-value = 0.044) increase of Prop(MAD

Identificador

http://espace.library.uq.edu.au/view/UQ:79533

Idioma(s)

eng

Publicador

Elsevier Science Bv

Palavras-Chave #Computer Science, Artificial Intelligence #Engineering, Biomedical #Medical Informatics #Em Algorithm #Mixture Of Experts #Incremental Update #Length Of Stay #Machine Learning Algorithm #On-line Prediction #Artificial Neural-network #Mixtures-of-experts #Recurrent Gastroenteritis #Hierarchical Mixtures #Maximum-likelihood #Western-australia #Incomplete Data #Ecm Algorithm #Model #Length #C1 #230204 Applied Statistics #270201 Gene Expression #321011 Medical Genetics #780101 Mathematical sciences #780105 Biological sciences #730305 Diagnostic methods #010401 Applied Statistics
Tipo

Journal Article