Joseph Meola scite author profile

The majority of hyperspectral data exploitation algorithms are developed using statistical models for the data that include sensor noise. Hyperspectral data collected using charge-coupled devices or other photon detectors have sensor noise that is directly dependent on the amplitude of the signal collected. However, this signal dependence is often ignored. Additionally, the statistics of the noise can vary spatially and spectrally as a result of camera characteristics and the calibration process applied to the data. Here, we examine the expected noise characteristics of both raw and calibrated visible/near-infrared hyperspectral data and provide a method for estimating the noise statistics using calibration data or directly from the imagery if calibration data is unavailable.

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Detecting Changes in Hyperspectral Imagery Using a Model-Based Approach

Meola

Eismann

Moses

et al. 2011

IEEE Trans. Geosci. Remote Sensing

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Hyperspectral image unmixing via bilinear generalized approximate message passing

Vila

Schniter

Meola

2013

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Joseph Meola

Hyperspectral Change Detection in the Presenceof Diurnal and Seasonal Variations

The SHARE 2012 data campaign

Modeling and estimation of signal-dependent noise in hyperspectral imagery

Detecting Changes in Hyperspectral Imagery Using a Model-Based Approach

Hyperspectral image unmixing via bilinear generalized approximate message passing

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