Stochastic Segmentation Networks: Modelling Spatially Correlated Aleatoric Uncertainty
In image segmentation, there is often more than one plausible solution for a given input. In medical imaging, for example, experts will often disagree about the exact location of object boundaries. Estimating this inherent uncertainty and predicting multiple plausible hypotheses is of great interest...
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| creator | Monteiro, Miguel Folgoc, Loïc Le de Castro, Daniel Coelho Pawlowski, Nick Marques, Bernardo Kamnitsas, Konstantinos van der Wilk, Mark Glocker, Ben |
| description | In image segmentation, there is often more than one plausible solution for a
given input. In medical imaging, for example, experts will often disagree about
the exact location of object boundaries. Estimating this inherent uncertainty
and predicting multiple plausible hypotheses is of great interest in many
applications, yet this ability is lacking in most current deep learning
methods. In this paper, we introduce stochastic segmentation networks (SSNs),
an efficient probabilistic method for modelling aleatoric uncertainty with any
image segmentation network architecture. In contrast to approaches that produce
pixel-wise estimates, SSNs model joint distributions over entire label maps and
thus can generate multiple spatially coherent hypotheses for a single image. By
using a low-rank multivariate normal distribution over the logit space to model
the probability of the label map given the image, we obtain a spatially
consistent probability distribution that can be efficiently computed by a
neural network without any changes to the underlying architecture. We tested
our method on the segmentation of real-world medical data, including lung
nodules in 2D CT and brain tumours in 3D multimodal MRI scans. SSNs outperform
state-of-the-art for modelling correlated uncertainty in ambiguous images while
being much simpler, more flexible, and more efficient. |
| doi_str_mv | 10.48550/arxiv.2006.06015 |
| format | Article |
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given input. In medical imaging, for example, experts will often disagree about
the exact location of object boundaries. Estimating this inherent uncertainty
and predicting multiple plausible hypotheses is of great interest in many
applications, yet this ability is lacking in most current deep learning
methods. In this paper, we introduce stochastic segmentation networks (SSNs),
an efficient probabilistic method for modelling aleatoric uncertainty with any
image segmentation network architecture. In contrast to approaches that produce
pixel-wise estimates, SSNs model joint distributions over entire label maps and
thus can generate multiple spatially coherent hypotheses for a single image. By
using a low-rank multivariate normal distribution over the logit space to model
the probability of the label map given the image, we obtain a spatially
consistent probability distribution that can be efficiently computed by a
neural network without any changes to the underlying architecture. We tested
our method on the segmentation of real-world medical data, including lung
nodules in 2D CT and brain tumours in 3D multimodal MRI scans. SSNs outperform
state-of-the-art for modelling correlated uncertainty in ambiguous images while
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given input. In medical imaging, for example, experts will often disagree about
the exact location of object boundaries. Estimating this inherent uncertainty
and predicting multiple plausible hypotheses is of great interest in many
applications, yet this ability is lacking in most current deep learning
methods. In this paper, we introduce stochastic segmentation networks (SSNs),
an efficient probabilistic method for modelling aleatoric uncertainty with any
image segmentation network architecture. In contrast to approaches that produce
pixel-wise estimates, SSNs model joint distributions over entire label maps and
thus can generate multiple spatially coherent hypotheses for a single image. By
using a low-rank multivariate normal distribution over the logit space to model
the probability of the label map given the image, we obtain a spatially
consistent probability distribution that can be efficiently computed by a
neural network without any changes to the underlying architecture. We tested
our method on the segmentation of real-world medical data, including lung
nodules in 2D CT and brain tumours in 3D multimodal MRI scans. SSNs outperform
state-of-the-art for modelling correlated uncertainty in ambiguous images while
being much simpler, more flexible, and more efficient.</description><subject>Computer Science - Computer Vision and Pattern Recognition</subject><subject>Computer Science - Learning</subject><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2020</creationdate><recordtype>article</recordtype><sourceid>GOX</sourceid><recordid>eNotz71OwzAUBWAvDKjwAEz4BRJuG9ux2aqIP6mFIW3X6Ma5KRZuXDkWkLenFKYzHJ0jfYzdzCEXWkq4w_jtPvMFgMpBwVxesl2dgn3HMTnLa9ofaEiYXBj4K6WvED_Ge74OHXnvhj2vj6cOvZ94FWIkj4k6vvSEKcTTfjtYigndkKYrdtGjH-n6P2ds8_iwqZ6z1dvTS7VcZahKmWlJogUwBmhBfaGlaftWS6FsDxp12UltUQpjelQClLJojUEttdJt2ZItZuz27_YMa47RHTBOzS-wOQOLHwx1TO8</recordid><startdate>20200610</startdate><enddate>20200610</enddate><creator>Monteiro, Miguel</creator><creator>Folgoc, Loïc Le</creator><creator>de Castro, Daniel Coelho</creator><creator>Pawlowski, Nick</creator><creator>Marques, Bernardo</creator><creator>Kamnitsas, Konstantinos</creator><creator>van der Wilk, Mark</creator><creator>Glocker, Ben</creator><scope>AKY</scope><scope>GOX</scope></search><sort><creationdate>20200610</creationdate><title>Stochastic Segmentation Networks: Modelling Spatially Correlated Aleatoric Uncertainty</title><author>Monteiro, Miguel ; Folgoc, Loïc Le ; de Castro, Daniel Coelho ; Pawlowski, Nick ; Marques, Bernardo ; Kamnitsas, Konstantinos ; van der Wilk, Mark ; Glocker, Ben</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-a675-85e4b00990e2ef3859bfb8546cf08a87d58ca5499fa64066cac99a85868b7bec3</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>2020</creationdate><topic>Computer Science - Computer Vision and Pattern Recognition</topic><topic>Computer Science - Learning</topic><toplevel>online_resources</toplevel><creatorcontrib>Monteiro, Miguel</creatorcontrib><creatorcontrib>Folgoc, Loïc Le</creatorcontrib><creatorcontrib>de Castro, Daniel Coelho</creatorcontrib><creatorcontrib>Pawlowski, Nick</creatorcontrib><creatorcontrib>Marques, Bernardo</creatorcontrib><creatorcontrib>Kamnitsas, Konstantinos</creatorcontrib><creatorcontrib>van der Wilk, Mark</creatorcontrib><creatorcontrib>Glocker, Ben</creatorcontrib><collection>arXiv Computer Science</collection><collection>arXiv.org</collection></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext_linktorsrc</fulltext></delivery><addata><au>Monteiro, Miguel</au><au>Folgoc, Loïc Le</au><au>de Castro, Daniel Coelho</au><au>Pawlowski, Nick</au><au>Marques, Bernardo</au><au>Kamnitsas, Konstantinos</au><au>van der Wilk, Mark</au><au>Glocker, Ben</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Stochastic Segmentation Networks: Modelling Spatially Correlated Aleatoric Uncertainty</atitle><date>2020-06-10</date><risdate>2020</risdate><abstract>In image segmentation, there is often more than one plausible solution for a
given input. In medical imaging, for example, experts will often disagree about
the exact location of object boundaries. Estimating this inherent uncertainty
and predicting multiple plausible hypotheses is of great interest in many
applications, yet this ability is lacking in most current deep learning
methods. In this paper, we introduce stochastic segmentation networks (SSNs),
an efficient probabilistic method for modelling aleatoric uncertainty with any
image segmentation network architecture. In contrast to approaches that produce
pixel-wise estimates, SSNs model joint distributions over entire label maps and
thus can generate multiple spatially coherent hypotheses for a single image. By
using a low-rank multivariate normal distribution over the logit space to model
the probability of the label map given the image, we obtain a spatially
consistent probability distribution that can be efficiently computed by a
neural network without any changes to the underlying architecture. We tested
our method on the segmentation of real-world medical data, including lung
nodules in 2D CT and brain tumours in 3D multimodal MRI scans. SSNs outperform
state-of-the-art for modelling correlated uncertainty in ambiguous images while
being much simpler, more flexible, and more efficient.</abstract><doi>10.48550/arxiv.2006.06015</doi><oa>free_for_read</oa></addata></record> |
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| subjects | Computer Science - Computer Vision and Pattern Recognition Computer Science - Learning |
| title | Stochastic Segmentation Networks: Modelling Spatially Correlated Aleatoric Uncertainty |
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