Crowdsourcing Spatial Phenomena Using Trust-Based Heteroskedastic Gaussian Processes
Crowdsourcing Spatial Phenomena Using Trust-Based Heteroskedastic Gaussian Processes
Many crowdsourcing applications require spatial modelling of data to make sense of location-based observations provided by multiple users. In this context, We propose a new spatial function modelling approach to address the problem of fusing multiple spatial observations reported by possibly untrustworthy users in the domains of participatory sensing and crowdsourcing applications. Specifically, we use a heteroskedastic Gaussian process model to incorporate user trust modelling into Bayesian spatial regression. In particular, by training the model with the reports gathered from the crowd, we are able to estimate the spatial function at any location of interest and also learn the level of trustworthiness of each user. We show that our method outperforms other standard homoskedastic and heteroskedastic Gaussian processes by up to 23% on a crowdsourced radiation dataset collected during the 2011 Fukushima earthquake in Japan. We also show that our method is able to improve the quality of spatial predictions on synthetic data by up to 70% and is robust in settings of up to 30% presence of untrustworthy users within the crowd.
978-1-57735-607-3
182-189
Venanzi, Matteo
ba24a77f-31a6-4c05-a647-babf8f660440
Rogers, Alex
f9130bc6-da32-474e-9fab-6c6cb8077fdc
Jennings, N. R.
ab3d94cc-247c-4545-9d1e-65873d6cdb30
2013
Venanzi, Matteo
ba24a77f-31a6-4c05-a647-babf8f660440
Rogers, Alex
f9130bc6-da32-474e-9fab-6c6cb8077fdc
Jennings, N. R.
ab3d94cc-247c-4545-9d1e-65873d6cdb30
Venanzi, Matteo, Rogers, Alex and Jennings, N. R.
(2013)
Crowdsourcing Spatial Phenomena Using Trust-Based Heteroskedastic Gaussian Processes.
First Conference on Human Computation and Crowdsourcing (HCOMP), Palm Springs, California, United States.
.
Record type:
Conference or Workshop Item
(Paper)
Abstract
Many crowdsourcing applications require spatial modelling of data to make sense of location-based observations provided by multiple users. In this context, We propose a new spatial function modelling approach to address the problem of fusing multiple spatial observations reported by possibly untrustworthy users in the domains of participatory sensing and crowdsourcing applications. Specifically, we use a heteroskedastic Gaussian process model to incorporate user trust modelling into Bayesian spatial regression. In particular, by training the model with the reports gathered from the crowd, we are able to estimate the spatial function at any location of interest and also learn the level of trustworthiness of each user. We show that our method outperforms other standard homoskedastic and heteroskedastic Gaussian processes by up to 23% on a crowdsourced radiation dataset collected during the 2011 Fukushima earthquake in Japan. We also show that our method is able to improve the quality of spatial predictions on synthetic data by up to 70% and is robust in settings of up to 30% presence of untrustworthy users within the crowd.
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XivelyParser.java
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trustgp.pdf
- Author's Original
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XivelyData.csv
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Accepted/In Press date: November 2013
Published date: 2013
Venue - Dates:
First Conference on Human Computation and Crowdsourcing (HCOMP), Palm Springs, California, United States, 2013-11-01
Organisations:
Agents, Interactions & Complexity
Identifiers
Local EPrints ID: 354861
URI: http://eprints.soton.ac.uk/id/eprint/354861
ISBN: 978-1-57735-607-3
PURE UUID: 76a83a7e-74cc-4dbe-92da-4f960a964fc0
Catalogue record
Date deposited: 26 Jul 2013 13:37
Last modified: 14 Mar 2024 14:25
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Contributors
Author:
Matteo Venanzi
Author:
Alex Rogers
Author:
N. R. Jennings
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