Increasing the Accuracy of Feature Evaluation Benchmarks Using Differential Evolution

Publikation: Beitrag in Buch/Bericht/Sammelwerk/KonferenzbandAufsatz in KonferenzbandForschungPeer-Review

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OriginalspracheEnglisch
Titel des SammelwerksIEEE SSCI 2011 - Symposium Series on Computational Intelligence
UntertitelSDE 2011 IEEE Symposium on Differential Evolution
Seiten104-111
Seitenumfang8
PublikationsstatusVeröffentlicht - 2011
VeranstaltungSymposium Series on Computational Intelligence, IEEE SSCI 2011 - 2011 IEEE Symposium on Differential Evolution, SDE 2011 - Paris, Frankreich
Dauer: 11 Apr. 201115 Apr. 2011

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NameIEEE SSCI 2011 - Symposium Series on Computational Intelligence - SDE 2011: 2011 IEEE Symposium on Differential Evolution

Abstract

The accuracy evaluation of image feature detectors is done using the repeatability criterion. Therefore, a well-known data set consisting of image sequences and homography matrices is processed. This data serves as ground truth mapping information for the evaluation and is used in many computer vision papers. An accuracy validation of the benchmarks has not been done so far and is provided in this work. The accuracy is limited and evaluations of feature detectors may result in erroneous conclusions. Using a differential evolution approach for the optimization of a new, feature-independent cost function, the accuracy of the ground truth homographies is increased. The results are validated using comparisons between the repeatability rates before and after the proposed optimization. The new homographies provide better repeatability results for each detector. The repeatability rate is increased by up to 20%.

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Increasing the Accuracy of Feature Evaluation Benchmarks Using Differential Evolution. / Cordes, Kai; Rosenhahn, Bodo; Ostermann, Jörn.
IEEE SSCI 2011 - Symposium Series on Computational Intelligence: SDE 2011 IEEE Symposium on Differential Evolution. 2011. S. 104-111 5952056 (IEEE SSCI 2011 - Symposium Series on Computational Intelligence - SDE 2011: 2011 IEEE Symposium on Differential Evolution).

Publikation: Beitrag in Buch/Bericht/Sammelwerk/KonferenzbandAufsatz in KonferenzbandForschungPeer-Review

Cordes, K, Rosenhahn, B & Ostermann, J 2011, Increasing the Accuracy of Feature Evaluation Benchmarks Using Differential Evolution. in IEEE SSCI 2011 - Symposium Series on Computational Intelligence: SDE 2011 IEEE Symposium on Differential Evolution., 5952056, IEEE SSCI 2011 - Symposium Series on Computational Intelligence - SDE 2011: 2011 IEEE Symposium on Differential Evolution, S. 104-111, Symposium Series on Computational Intelligence, IEEE SSCI 2011 - 2011 IEEE Symposium on Differential Evolution, SDE 2011, Paris, Frankreich, 11 Apr. 2011. https://doi.org/10.1109/SDE.2011.5952056
Cordes, K., Rosenhahn, B., & Ostermann, J. (2011). Increasing the Accuracy of Feature Evaluation Benchmarks Using Differential Evolution. In IEEE SSCI 2011 - Symposium Series on Computational Intelligence: SDE 2011 IEEE Symposium on Differential Evolution (S. 104-111). Artikel 5952056 (IEEE SSCI 2011 - Symposium Series on Computational Intelligence - SDE 2011: 2011 IEEE Symposium on Differential Evolution). https://doi.org/10.1109/SDE.2011.5952056
Cordes K, Rosenhahn B, Ostermann J. Increasing the Accuracy of Feature Evaluation Benchmarks Using Differential Evolution. in IEEE SSCI 2011 - Symposium Series on Computational Intelligence: SDE 2011 IEEE Symposium on Differential Evolution. 2011. S. 104-111. 5952056. (IEEE SSCI 2011 - Symposium Series on Computational Intelligence - SDE 2011: 2011 IEEE Symposium on Differential Evolution). doi: 10.1109/SDE.2011.5952056
Cordes, Kai ; Rosenhahn, Bodo ; Ostermann, Jörn. / Increasing the Accuracy of Feature Evaluation Benchmarks Using Differential Evolution. IEEE SSCI 2011 - Symposium Series on Computational Intelligence: SDE 2011 IEEE Symposium on Differential Evolution. 2011. S. 104-111 (IEEE SSCI 2011 - Symposium Series on Computational Intelligence - SDE 2011: 2011 IEEE Symposium on Differential Evolution).
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abstract = "The accuracy evaluation of image feature detectors is done using the repeatability criterion. Therefore, a well-known data set consisting of image sequences and homography matrices is processed. This data serves as ground truth mapping information for the evaluation and is used in many computer vision papers. An accuracy validation of the benchmarks has not been done so far and is provided in this work. The accuracy is limited and evaluations of feature detectors may result in erroneous conclusions. Using a differential evolution approach for the optimization of a new, feature-independent cost function, the accuracy of the ground truth homographies is increased. The results are validated using comparisons between the repeatability rates before and after the proposed optimization. The new homographies provide better repeatability results for each detector. The repeatability rate is increased by up to 20%.",
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