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© Modeling Obesity Using Abductive Networks Abdel-Aal, RE; Mangoud, AM ACADEMIC PRESS INC, COMPUTERS AND BIOMEDICAL RESEARCH; pp: 451-471; Vol: 30 King.

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Presentation on theme: "© Modeling Obesity Using Abductive Networks Abdel-Aal, RE; Mangoud, AM ACADEMIC PRESS INC, COMPUTERS AND BIOMEDICAL RESEARCH; pp: 451-471; Vol: 30 King."— Presentation transcript:

1 © Modeling Obesity Using Abductive Networks Abdel-Aal, RE; Mangoud, AM ACADEMIC PRESS INC, COMPUTERS AND BIOMEDICAL RESEARCH; pp: 451-471; Vol: 30 King Fahd University of Petroleum & Minerals http://www.kfupm.edu.sa Summary This paper investigates the use of abductive-network machine learning for modeling and predicting outcome parameters in terms of input parameters in medical survey data. Here we consider modeling obesity as represented by the waist-to-hip ratio (WHR) risk factor to investigate the influence of various parameters. The same approach would be useful in predicting values of clinical parameters that are difficult or expensive to measure from others that are more readily available. The AIM abductive network machine learning tool was used to model the WHR from 13 other health parameters. Survey data were collected for a randomly selected sample of 1100 persons aged 20 yr and over attending nine primary health care centers at Al-Khobar, Saudi Arabia. Models were synthesized by training on a randomly selected set of 800 cases, using both continuous and categorical representations of the parameters, and evaluated by predicting the WHR value for the remaining 300 cases. Models for WHR as a continuous variable predict the actual values within an error of 7.5% at the 90% confidence limits. Categorical models predict the correct logical value of WHR with an error in only 2 of the 300 evaluation cases. Analytical relationships derived from simple categorical models explain global observations on the total survey population to an accuracy as high as 99%. Simple continuous models represented as analytical functions highlight global relationships and trends. Results confirm the strong correlation between WHR and diastolic blood pressure, cholesterol level, and family history of obesity. Compared to other statistical and neural network approaches, AIM abductive networks provide faster and more automated model synthesis. A review is given of other areas where the proposed modeling approach can be useful in clinical practice. (C) 1997 Academic Press. Copyright: King Fahd University of Petroleum & Minerals; http://www.kfupm.edu.sa

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3 44. 45. 46. 47. 48. 49. 50. 51. 52. 53. 54. 55. © REVICKI DA, 1986, AM J PUBLIC HEALTH, V76, P992 RUMELHART D, 1986, PARALLEL DISTRIBUTED SCOTT DE, 1984, SELF ORG METHODS MOD SOLER JT, 1988, J CLIN EPIDEMIOL, V41, P1075 SZOLOVITS P, 1978, ARTIF INTELL, V11, P115 VANSANT G, 1988, INT J OBESITY, V12, P133 WADDEN TA, 1988, AM J CLIN NUTR, V47, P229 WARNICK GR, 1978, J LIPID RES, V19, P65 WEISS SM, 1991, COMPUTER SYSTEMS LEA WOOLERY LK, 1994, J AM MED INFORM ASSN, V1, P439 WU YZ, 1993, RADIOLOGY, V187, P81 ZHU K, P 2 INT C ART NEUR N, P205 For pre-prints please write to: radwan@dpc.kfupm.edu.sa Copyright: King Fahd University of Petroleum & Minerals; http://www.kfupm.edu.sa

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