Multiple-point geostatistical simulation for post-processing a remotely sensed land cover classification
Multiple-point geostatistical simulation for post-processing a remotely sensed land cover classification
A post-processing method for increasing the accuracy of a remote sensing classification was developed and tested based on the theory of multiple-point geostatistics. Training images are used to characterise the joint variability and joint continuity of a target spatial pattern, overcoming the limitations of two-point statistical models. Conditional multiple-point simulation (MPS) was applied to a land cover classification derived from a remotely sensed image. Training data were provided in the form of “hard” (land cover labels), and “soft” constraints (class probability surfaces estimated using soft classification). The MPS post-processing method was compared to two alternatives: traditional spatial filtering (also a post-processing method) and the contextual Markov random field (MRF) classifier. The MPS approach increased the accuracy of classification relative to these alternatives, primarily as a result of increasing the accuracy of classification for curvilinear classes. Key advantages of the MPS approach are that, unlike spatial filtering and the MRF classifier, (i) it incorporates a rich model of spatial correlation in the process of smoothing the spectral classification and (ii) it has the advantage of capturing and utilising class-specific spatial training patterns, for example, classes with curvilinear distributions
Tang, Yunwei
dd52c0b3-a303-4667-b9bf-358db45fd054
Atkinson, P.M.
96e96579-56fe-424d-a21c-17b6eed13b0b
Wardrop, Nicola A.
8f3a8171-0727-4375-bc68-10e7d616e176
Zhang, Jingxiong
52b95c2d-3e97-4195-8bb6-a0a1faf67b1b
Tang, Yunwei
dd52c0b3-a303-4667-b9bf-358db45fd054
Atkinson, P.M.
96e96579-56fe-424d-a21c-17b6eed13b0b
Wardrop, Nicola A.
8f3a8171-0727-4375-bc68-10e7d616e176
Zhang, Jingxiong
52b95c2d-3e97-4195-8bb6-a0a1faf67b1b
Tang, Yunwei, Atkinson, P.M., Wardrop, Nicola A. and Zhang, Jingxiong
(2013)
Multiple-point geostatistical simulation for post-processing a remotely sensed land cover classification.
Spatial Statistics.
(doi:10.1016/j.spasta.2013.04.005).
Abstract
A post-processing method for increasing the accuracy of a remote sensing classification was developed and tested based on the theory of multiple-point geostatistics. Training images are used to characterise the joint variability and joint continuity of a target spatial pattern, overcoming the limitations of two-point statistical models. Conditional multiple-point simulation (MPS) was applied to a land cover classification derived from a remotely sensed image. Training data were provided in the form of “hard” (land cover labels), and “soft” constraints (class probability surfaces estimated using soft classification). The MPS post-processing method was compared to two alternatives: traditional spatial filtering (also a post-processing method) and the contextual Markov random field (MRF) classifier. The MPS approach increased the accuracy of classification relative to these alternatives, primarily as a result of increasing the accuracy of classification for curvilinear classes. Key advantages of the MPS approach are that, unlike spatial filtering and the MRF classifier, (i) it incorporates a rich model of spatial correlation in the process of smoothing the spectral classification and (ii) it has the advantage of capturing and utilising class-specific spatial training patterns, for example, classes with curvilinear distributions
This record has no associated files available for download.
More information
e-pub ahead of print date: 2013
Organisations:
Global Env Change & Earth Observation
Identifiers
Local EPrints ID: 356248
URI: http://eprints.soton.ac.uk/id/eprint/356248
ISSN: 2211-6753
PURE UUID: 25ce2877-59e7-445c-8947-30755dc29609
Catalogue record
Date deposited: 30 Aug 2013 13:23
Last modified: 15 Mar 2024 02:47
Export record
Altmetrics
Contributors
Author:
Yunwei Tang
Author:
P.M. Atkinson
Author:
Jingxiong Zhang
Download statistics
Downloads from ePrints over the past year. Other digital versions may also be available to download e.g. from the publisher's website.
View more statistics