bibtype C - Conference Paper (international conference)
ARLID 0490308
utime 20240103220122.2
mtime 20180614235959.9
title (primary) (eng) Employing Bayesian Networks for Subjective Well-being Prediction
specification
page_count 16 s.
media_type P
serial
ARLID cav_un_epca*0490306
ISBN 978-80-7378-361-7
title Proceedings of the 11th Workshop on Uncertainty Processing (WUPES’18)
page_num 189-204
publisher
place Praha
name MatfyzPress, Publishing House of the Faculty of Mathematics and Physics Charles University
year 2018
editor
name1 Kratochvíl
name2 Václav
editor
name1 Vejnarová
name2 Jiřina
keyword Subjective well-being
keyword Bayesian networks
author (primary)
ARLID cav_un_auth*0361639
full_dept (cz) Matematická teorie rozhodování
full_dept (eng) Department of Decision Making Theory
department (cz) MTR
department (eng) MTR
full_dept Department of Decision Making Theory
name1 Švorc
name2 Jan
institution UTIA-B
country CZ
fullinstit Ústav teorie informace a automatizace AV ČR, v. v. i.
author
ARLID cav_un_auth*0101228
full_dept (cz) Matematická teorie rozhodování
full_dept Department of Decision Making Theory
department (cz) MTR
department MTR
full_dept Department of Decision Making Theory
name1 Vomlel
name2 Jiří
institution UTIA-B
fullinstit Ústav teorie informace a automatizace AV ČR, v. v. i.
source
url http://library.utia.cas.cz/2018/MTR/svorc-0490308.pdf
cas_special
project
project_id GA17-08182S
agency GA ČR
ARLID cav_un_auth*0348851
abstract (eng) This contribution aims at using Bayesian networks for modelling the relations between the individual subjective well-being (SWB) and the individual material situation. The material situation is approximated by subjective measures (perceived economic strain, subjective evaluation of the income relative to most people in the country and to own past) and objective measures (household’s income, material deprivation, financial problems and housing defects). The suggested Bayesian network represents the relations among SWB and the variables approximating the material situation. The structure is established based on the expertise gained from literature, whereas the parameters are learnt based on empirical data from 3rd edition of European Quality of Life Study for the Czech Republic, Hungary, Poland and Slovakia conducted in 2011. Prediction accuracy of SWB is tested and compared with two benchmark models whose structures are learnt using Gobnilp software and a greedy algorithm built in Hugin software. SWB prediction accuracy of the expert model is 66,83%, which is significantly different from no information rate of 55,16%. It is slightly lower than the two machine learnt benchmark models.
action
ARLID cav_un_auth*0361637
name Workshop on Uncertainty Processing (WUPES’18)
dates 20180606
place Třeboň
country CZ
mrcbC20-s 20180609
RIV AO
FORD0 50000
FORD1 50700
FORD2 50701
reportyear 2019
num_of_auth 2
inst_support RVO:67985556
permalink http://hdl.handle.net/11104/0284593
confidential S
arlyear 2018
mrcbU14 SCOPUS
mrcbU24 PUBMED
mrcbU34 WOS
mrcbU63 cav_un_epca*0490306 Proceedings of the 11th Workshop on Uncertainty Processing (WUPES’18) MatfyzPress, Publishing House of the Faculty of Mathematics and Physics Charles University 2018 Praha 189 204 978-80-7378-361-7
mrcbU67 340 Kratochvíl Václav
mrcbU67 340 Vejnarová Jiřina