Method of estimating video quality at any resolution
First Claim
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1. A method of estimating the perceived quality of a video sequence represented, on the one hand, at a maximum spatial resolution and a maximum temporal resolution and, on the other hand, at a lower spatial and/or temporal resolution, said method comprising:
- filtering said video sequence represented at the lower temporal resolution and/or the lower spatial resolution in order to produce a filtered video sequence (203a, 204b) represented at the maximum spatial and temporal resolutions;
determining a reference sequence that is equal at most to the content of said video sequence represented at the maximum spatial and temporal resolutions; and
calculating a metric of perceived quality of said sequence video (203, 204) represented at the lower temporal resolution and/or the lower spatial resolution, the calculating comprising;
calculating the luminance of the reference sequence and of the filtered sequence,subtracting from the reference sequence and from the filtered sequence the respective results of the calculation of their luminance,determining, on the basis of the results of said subtractions, a measurement of the contrast of the reference sequence and of the filtered sequence,normalizing the result of said subtractions by said measurement of the contrast of the reference sequence and of the filtered sequence respectively in order to produce a measurement of the structure of the reference sequence and of the filtered sequence respectively,determining a comparison function l(x,y) comparing the luminances of the reference sequence and of the filtered sequence,determining a comparison function c(x,y) comparing the contrasts of the reference sequence and of the filtered sequence,determining a comparison function s(x,y) comparing the structures of the reference sequence and of the filtered sequence, andcarrying out a combination of said comparison functions in order to produce said metric of perceived quality M(X,y)=l(X,y)α
·
c(x,y)β
·
s(x,y)γ
, where α
, β
, γ
are strictly positive integers.
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Abstract
Method of estimating the perceived quality of a video sequence at a maximum spatial resolution and a maximum temporal resolution, and at a lower spatial resolution and/or temporal resolution, said method including filtering said video sequence at the lower temporal resolution and/or the lower spatial resolution so as to produce a filtered video sequence at the maximum spatial and temporal resolutions; determining a reference sequence that is, at most, equal to the content of said video sequence at the maximum spatial and temporal resolutions; and calculating a metric of perceived quality of said video sequence at the lower temporal resolution and/or the lower spatial resolution.
16 Citations
6 Claims
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1. A method of estimating the perceived quality of a video sequence represented, on the one hand, at a maximum spatial resolution and a maximum temporal resolution and, on the other hand, at a lower spatial and/or temporal resolution, said method comprising:
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filtering said video sequence represented at the lower temporal resolution and/or the lower spatial resolution in order to produce a filtered video sequence (203a, 204b) represented at the maximum spatial and temporal resolutions; determining a reference sequence that is equal at most to the content of said video sequence represented at the maximum spatial and temporal resolutions; and calculating a metric of perceived quality of said sequence video (203, 204) represented at the lower temporal resolution and/or the lower spatial resolution, the calculating comprising; calculating the luminance of the reference sequence and of the filtered sequence, subtracting from the reference sequence and from the filtered sequence the respective results of the calculation of their luminance, determining, on the basis of the results of said subtractions, a measurement of the contrast of the reference sequence and of the filtered sequence, normalizing the result of said subtractions by said measurement of the contrast of the reference sequence and of the filtered sequence respectively in order to produce a measurement of the structure of the reference sequence and of the filtered sequence respectively, determining a comparison function l(x,y) comparing the luminances of the reference sequence and of the filtered sequence, determining a comparison function c(x,y) comparing the contrasts of the reference sequence and of the filtered sequence, determining a comparison function s(x,y) comparing the structures of the reference sequence and of the filtered sequence, and carrying out a combination of said comparison functions in order to produce said metric of perceived quality M(X,y)=l(X,y)α
·
c(x,y)β
·
s(x,y)γ
, where α
, β
, γ
are strictly positive integers. - View Dependent Claims (2, 3, 4, 5, 6)
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Specification
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Current AssigneeThales SA
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Original AssigneeThales SA
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InventorsLamy-Bergot, Catherine, Marcille, Sbastien
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Primary Examiner(s)KOSTAK, VICTOR R
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Application NumberUS13/514,831Publication NumberTime in Patent Office956 DaysField of Search348/180, 348/192, 375/224, 375/240.02, 375/240.27, 375/240.29, 375/240.26, 702/66, 702/69, 702/71, 702/75, 702/76, 702/81, 382/234, 382/240US Class Current348/192CPC Class CodesH04N 17/00 Diagnosis, testing or measu...H04N 17/004 for digital television systemsH04N 19/31 in the temporal domainH04N 19/33 in the spatial domain
