Multi-sensor registration of earth remotely sensed imagery

Jacqueline Le Moigne; Arlene Cole-Rhodes; Roger Eastman; Kisha Johnson; Jeffrey Morisette; Nathan S. Netanyahu; Harold S. Stone; Ilya Zavorin

doi:10.1117/12.454140

Multi-sensor registration of earth remotely sensed imagery

Jacqueline Le Moigne, Arlene Cole-Rhodes, Roger Eastman, Kisha Johnson, Jeffrey Morisette, Nathan S. Netanyahu, Harold S. Stone, Ilya Zavorin

Research output: Contribution to journal › Article › peer-review

8 Scopus citations

Abstract

Assuming that approximate registration is given within a few pixels by a systematic correction system, we develop automatic image registration methods for multi-sensor data with the goal of achieving sub-pixel accuracy. Automatic image registration is usually defined by three steps; feature extraction, feature matching, and data resampling or fusion. Our previous work focused on image correlation methods based on the use of different features. In this paper, we study different feature matching techniques and present five algorithms where the features are either original gray levels or wavelet-like features, and the feature matching is based on gradient descent optimization, statistical robust matching, and mutual information. These algorithms are tested and compared on several multi-sensor datasets covering one of the EOS Core Sites, the Konza Prairie in Kansas, from four different sensors: IKONOS (4m), Landsat-7/ETM+ (30m), MODIS (500m), and SeaWIFS (1000m).

Original language	English
Pages (from-to)	1-10
Number of pages	10
Journal	Proceedings of SPIE - The International Society for Optical Engineering
Volume	4541
DOIs	https://doi.org/10.1117/12.454140
State	Published - 2002
Externally published	Yes

Keywords

Hausdorff distance
Image registration
Multi-sensor
Mutual information
Optimization
Wavelet representation

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abstract = "Assuming that approximate registration is given within a few pixels by a systematic correction system, we develop automatic image registration methods for multi-sensor data with the goal of achieving sub-pixel accuracy. Automatic image registration is usually defined by three steps; feature extraction, feature matching, and data resampling or fusion. Our previous work focused on image correlation methods based on the use of different features. In this paper, we study different feature matching techniques and present five algorithms where the features are either original gray levels or wavelet-like features, and the feature matching is based on gradient descent optimization, statistical robust matching, and mutual information. These algorithms are tested and compared on several multi-sensor datasets covering one of the EOS Core Sites, the Konza Prairie in Kansas, from four different sensors: IKONOS (4m), Landsat-7/ETM+ (30m), MODIS (500m), and SeaWIFS (1000m).",

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AU - Le Moigne, Jacqueline

AU - Cole-Rhodes, Arlene

AU - Eastman, Roger

AU - Johnson, Kisha

AU - Morisette, Jeffrey

AU - Netanyahu, Nathan S.

AU - Stone, Harold S.

AU - Zavorin, Ilya

PY - 2002

Y1 - 2002

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AB - Assuming that approximate registration is given within a few pixels by a systematic correction system, we develop automatic image registration methods for multi-sensor data with the goal of achieving sub-pixel accuracy. Automatic image registration is usually defined by three steps; feature extraction, feature matching, and data resampling or fusion. Our previous work focused on image correlation methods based on the use of different features. In this paper, we study different feature matching techniques and present five algorithms where the features are either original gray levels or wavelet-like features, and the feature matching is based on gradient descent optimization, statistical robust matching, and mutual information. These algorithms are tested and compared on several multi-sensor datasets covering one of the EOS Core Sites, the Konza Prairie in Kansas, from four different sensors: IKONOS (4m), Landsat-7/ETM+ (30m), MODIS (500m), and SeaWIFS (1000m).

KW - Hausdorff distance

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KW - Multi-sensor

KW - Mutual information

KW - Optimization

KW - Wavelet representation

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Multi-sensor registration of earth remotely sensed imagery

Abstract

Keywords

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