Calibration algorithms for polarization filter array camera: survey and evaluation

Giménez, Yilbert; Lapray, Pierre-Jean; Foulonneau, Alban; Bigué, Laurent

doi:10.1117/1.jei.29.4.041011

Cited by 17 publications

(26 citation statements)

References 24 publications

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“…2. It is grounded on the super-pixel calibration method detailed in [11], [23], which is a well-established method in the literature. The originality of our calibration algorithm is that no information about the input light polarization state is required.…”

Section: Calibration Methodsmentioning

confidence: 99%

“…( 10) constitutes the super-pixel calibration equation, and it can be solved for A if the polarization states of the N input calibration light samples are known . These states corresponds to the N columns of the matrix: (11) where S 0n is the intensity of the n th calibration light sample, ρ n is its degree of linear polarization (DoLP), and α n is its angle of linear polarization (AoLP), for n = 1, ..., N . These parameters can be obtained with high accuracy but at the expense of a complex laboratory set-up and time consuming experiments.…”

Section: A Description Of the Methodsmentioning

confidence: 99%

“…In this section, we describe how to estimate the angles of linear polarization of the N calibration light samples represented by α n with n = 1, ..., N in Eq. (11). For the visible light wavelengths, the polarization angle measured by a single super-pixel can be considered independent of the color.…”

Section: B Input Light Angle Of Polarization Estimationmentioning

confidence: 99%

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A Practical Calibration Method for RGB Micro-Grid Polarimetric Cameras

Rodriguez

Voon

Martins

et al. 2022

IEEE Robot. Autom. Lett.

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Polarimetric imaging has been applied in a growing number of applications in robotic vision (ex. underwater navigation, glare removal, de-hazing, object classification, and depth estimation). One can find on the market RGB Polarization cameras that can capture both color and polarimetric state of the light in a single snapshot. Due to the sensor's characteristic dispersion, and the use of lenses, it is crucial to calibrate these types of cameras so as to obtain correct polarization measurements. The calibration methods that have been developed so far are either not adapted to this type of cameras, or they require complex equipment and time consuming experiments in strict setups. In this paper, we propose a new method to overcome the need for complex optical systems to efficiently calibrate these cameras. We show that the proposed calibration method has several advantages such as that any user can easily calibrate the camera using a uniform, linearly polarized light source without any a priori knowledge of its polarization state, and with a limited number of acquisitions. We will make our calibration code publicly available.

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Section: Calibration Methodsmentioning

confidence: 99%

Section: A Description Of the Methodsmentioning

confidence: 99%

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A Practical Calibration Method for RGB Micro-Grid Polarimetric Cameras

Rodriguez

Voon

Martins

et al. 2022

IEEE Robot. Autom. Lett.

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“…(Using the polarimetric characterization in Ref. 42, we found that the polarization measurement is near to ideal for these sensors (very high extinction ratios of the micropolarizers), so there is no need to calibrate polarimetrically. )…”

Section: Calibrationmentioning

confidence: 99%

Snapshot spectropolarimetric imaging using a pair of filter array cameras

et al. 2022

Self Cite

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Spectral and polarization imaging (SPI) is an emerging sensing method that permits the analysis of both spectral and polarization information of a scene. The existing acquisition systems are limited by several factors, such as the space requirement, the inability to capture quickly the information, and the high cost. We propose an SPI acquisition system with a high spatial resolution that combines six spectral channels and four polarization channels. The optical setup employs two color-polarization filter array cameras and a pair of bandpass filters. We define the processing pipeline, consisting of preprocessing, geometric calibration, spectral calibration, and data transformation. We show that, around specular highlights, the spectral reconstruction can be improved by filtering the polarized intensity. We provide a database of 28 spectropolarimetric scenes with different materials for future simulation and analysis by the research community.

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“…Number of acquisitions needed, along with the selection of the angle of analysis have been previously discussed by Tyo et al 14 Angles could differ from the ones used to calculate the Stokes vector in Eq. 2, and polarization elements do not need to be ideal, thus the polarimeter has to be polarimetrically calibrated [15][16][17] by estimating W. Afterward, S can be deduced by an inversion procedure, and polarization properties of light beams like Angle Of Linear Polarization (AOLP), Degree Of Polarization (DOP), or ellipticity, can be derived from the Stokes vector.…”

Section: Polarization Imaging Modelmentioning

confidence: 99%

Review of spectral and polarization imaging systems

Sattar

Lapray

Foulonneau

et al. 2020

Unconventional Optical Imaging II

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Spectral and Polarization Imaging (SPI) is an emerging sensing method that combines the acquisition of both spectral and polarization information of a scene. It could benefit for various applications like appearance characterization from measurement, reflectance property estimation, diffuse/specular component separation, material classification, etc. In this paper, we present a review of recent SPI systems from the literature. We propose a description of the existing SPI systems in terms of technology employed, imaging conditions, and targeted application.

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Calibration algorithms for polarization filter array camera: survey and evaluation

Cited by 17 publications

References 24 publications

A Practical Calibration Method for RGB Micro-Grid Polarimetric Cameras

A Practical Calibration Method for RGB Micro-Grid Polarimetric Cameras

Snapshot spectropolarimetric imaging using a pair of filter array cameras

Review of spectral and polarization imaging systems

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