A generic framework for assessing the performance bounds of image feature detectors
A generic framework for assessing the performance bounds of image feature detectors
Since local feature detection has been one of the most active research areas in computer vision during the last decade and has found wide range of applications (such as matching and registration of remotely sensed image data), a large number of detectors have been proposed. The interest in feature-based applications continues to grow and has thus rendered the task of characterizing the performance of various feature detection methods an important issue in vision research. Inspired by the good practices of electronic system design, a generic framework based on the repeatability measure is presented in this paper that allows assessment of the upper and lower bounds of detector performance and finds statistically significant performance differences between detectors as a function of image transformation amount by introducing a new variant of McNemar’s test in an effort to design more reliable and effective vision systems. The proposed framework is then employed to establish operating and guarantee regions for several state-of-the art detectors and to identify their statistical performance differences for three specific image transformations: JPEG compression, uniform light changes and blurring. The results are obtained using a newly acquired, large image database (20,482 images) with 539 different scenes. These results provide new insights into the behavior of detectors and are also useful from the vision systems design perspective. Finally, results for some local feature detectors are presented for a set of remote sensing images to showcase the potential and utility of this framework for remote sensing applications in general.
local feature detection, evaluation framework, performance analysis
Ehsan, Shoaib
ae8922f0-dbe0-4b22-8474-98e84d852de7
Clark, Adrian E.
ed08b8cb-870a-46fa-9c11-bcf85218d458
Leonardis, Ales
ed38f4ad-444e-4850-9391-34aaf12ce8fd
Rehman, Naveed Ur
8cd2ee50-73fb-4df1-9bb5-b278b911b70f
Khaliq, Ahmad
d307e38a-904f-4a24-9071-004e3b9bfeca
Fasli, Maria
0628512e-ac16-48a8-b679-b940f61dd45e
McDonald-Maier, Klaus D.
d35c2e77-744a-4318-9d9d-726459e64db9
9 November 2016
Ehsan, Shoaib
ae8922f0-dbe0-4b22-8474-98e84d852de7
Clark, Adrian E.
ed08b8cb-870a-46fa-9c11-bcf85218d458
Leonardis, Ales
ed38f4ad-444e-4850-9391-34aaf12ce8fd
Rehman, Naveed Ur
8cd2ee50-73fb-4df1-9bb5-b278b911b70f
Khaliq, Ahmad
d307e38a-904f-4a24-9071-004e3b9bfeca
Fasli, Maria
0628512e-ac16-48a8-b679-b940f61dd45e
McDonald-Maier, Klaus D.
d35c2e77-744a-4318-9d9d-726459e64db9
Ehsan, Shoaib, Clark, Adrian E., Leonardis, Ales, Rehman, Naveed Ur, Khaliq, Ahmad, Fasli, Maria and McDonald-Maier, Klaus D.
(2016)
A generic framework for assessing the performance bounds of image feature detectors.
Remote Sensing, 8 (11), [928].
(doi:10.3390/rs8110928).
Abstract
Since local feature detection has been one of the most active research areas in computer vision during the last decade and has found wide range of applications (such as matching and registration of remotely sensed image data), a large number of detectors have been proposed. The interest in feature-based applications continues to grow and has thus rendered the task of characterizing the performance of various feature detection methods an important issue in vision research. Inspired by the good practices of electronic system design, a generic framework based on the repeatability measure is presented in this paper that allows assessment of the upper and lower bounds of detector performance and finds statistically significant performance differences between detectors as a function of image transformation amount by introducing a new variant of McNemar’s test in an effort to design more reliable and effective vision systems. The proposed framework is then employed to establish operating and guarantee regions for several state-of-the art detectors and to identify their statistical performance differences for three specific image transformations: JPEG compression, uniform light changes and blurring. The results are obtained using a newly acquired, large image database (20,482 images) with 539 different scenes. These results provide new insights into the behavior of detectors and are also useful from the vision systems design perspective. Finally, results for some local feature detectors are presented for a set of remote sensing images to showcase the potential and utility of this framework for remote sensing applications in general.
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More information
Accepted/In Press date: 4 November 2016
Published date: 9 November 2016
Keywords:
local feature detection, evaluation framework, performance analysis
Identifiers
Local EPrints ID: 477758
URI: http://eprints.soton.ac.uk/id/eprint/477758
ISSN: 2072-4292
PURE UUID: 33a08b82-093f-4350-9103-4393f1c5e070
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Date deposited: 14 Jun 2023 16:35
Last modified: 17 Mar 2024 04:16
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Contributors
Author:
Shoaib Ehsan
Author:
Adrian E. Clark
Author:
Ales Leonardis
Author:
Naveed Ur Rehman
Author:
Ahmad Khaliq
Author:
Maria Fasli
Author:
Klaus D. McDonald-Maier
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