中国空间科学技术

Chinese Space Science and Technology ›› 2014, Vol. 34 ›› Issue (3): 61-66.doi: 10.3780/j.issn.1000-758X.2014.03.009

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AnImprovedNon-uniformityCalibrationTechnologywithMulti-positionFusedData

CAOWei,DONGShuli,LIChunmei   

  1. (BeijingInstituteofSpaceMechanics&Electricity,Beijing100094)
  • Received:2013-08-14 Revised:2014-01-03 Published:2014-06-25 Online:2014-06-25

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Abstract: Thecalibrationaccuracydeclineswhenthereisrelativelocationchangebetweenthecameraandtheintegratingsphereintheprocessofnon-uniformitycalibration.Anewmethodofrelativeradiometriccalibrationusingmulti-positionfuseddatawasproposed.Toeliminatetheshortcomingofangularandfacialnon-uniformityoftheintegratingsphere,thecalibrationcoefficientswereobtainedbyalotofimagesfrommulti-positions.Experimentresultsshowthattheproposedmethodcandecreasetheeffectofnon-uniformityofthespherelightintensityonthecalibrationcoefficients,undertheconditionthatthelightintensityoftheintegratingsphereisunevenandtherelativepositionbetweenthecameraandthespherecannotbefixed.Thisnewmethodcanimprovethenon-uniformitycalibrationaccuracy.

Key words: Multi-positionfuseddata, Non-uniformity, Calibrationcoefficient, Relativelocation, Spacecamera