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CCD arrays, cameras, and displays /

MARC Record from Harvard University

Record ID harvard_bibliographic_metadata/20220215_002.bib.mrc:69971750:6936
Source Harvard University
Download Link /show-records/harvard_bibliographic_metadata/20220215_002.bib.mrc:69971750:6936?format=raw

LEADER: 06936pam a2200301 a 4500
005 20020606104010.5
008 980109s1998 flua b 001 0 eng
001 990079578760203941
010 $a^^^98010770^
020 $a0964000040 (JCD)$0(uri) http://www.isbnsearch.org/isbn/0964000040
020 $a0819428531 (SPIE)$0(uri) http://www.isbnsearch.org/isbn/0819428531
035 $a(OCoLC)38216530$0(uri) http://www.worldcat.org/oclc/38216530
040 $aDLC$cDLC$dDLC
050 00 $aTK7871.99.C45$bH65 1998
082 00 $a621.36/7$221
100 1 $aHolst, Gerald C.$0(uri) http://id.loc.gov/authorities/names/n91034872$0(uri) http://viaf.org/viaf/sourceID/LC|n91034872
245 10 $aCCD arrays, cameras, and displays /$cGerald C. Holst.
246 3 $aCharge-coupled devices arrays, cameras, and displays
250 $a2nd ed.
260 $aWinter Park, FL :$bJCD Publishing ;$aBellingham, Wash., USA :$bSPIE Optical Engineering,$cc1998.
300 $axxiii, 378 p. :$bill. ;$c24 cm.
504 $aIncludes bibliographical references and index.
505 00 $g1.1.$tCCDs and CIDs$g2 --$g1.2.$tImaging system applications$g3 --$g1.2.1.$tProfessional television and consumer camcorders$g5 --$g1.2.2.$tMachine vision$g5 --$g1.2.3.$tScientific$g6 --$g1.2.4.$tMilitary$g7 --$g1.3.$tConfigurations$g7 --$g1.4.$tImage quality$g11 --$g2.$tRadiometry and Photometry$g16 --$g2.1.$tRadiative transfer$g17 --$g2.1.1.$tPlanck's blackbody law$g19 --$g2.1.2.$tConservation of energy$g22 --$g2.1.3.$tCamera formula$g22 --$g2.2.$tPhotometry$g26 --$g2.2.1.$tUnits$g28 --$g2.2.2.$tNatural illumination levels$g30 --$g2.3.1.$tCalibration sources$g32 --$g2.3.2.$tReal sources$g33 --$g2.4.$tNormalization$g35 --$g2.5.$tResponsivity$g37 --$g3.$tCCD Arrays$g42 --$g3.1.$tCCD operation$g43 --$g3.2.$tArray architecture$g53 --$g3.2.1.$tLinear arrays$g54 --$g3.2.2.$tFull-frame arrays$g55 --$g3.2.3.$tFrame transfer$g58 --$g3.2.4.$tInterline transfer$g60 --$g3.2.5.$tProgressive scan$g64 --$g3.2.6.$tTime-delay and integration$g66 --$g3.2.7.$tColor filter arrays$g70 --$g3.3.$tDark current$g73 --$g3.4.$tDark pixels$g76 --$g3.5.$tAnti-blooming drain$g78 --$g3.6.$tCharge transfer efficiency$g79 --$g3.7.$tCharge conversion (output structure)$g82 --$g3.8.$tCorrelated double sampling$g83 --$g3.9.$tMicrolenses$g85 --$g3.10.$tVideo chip size$g86 --$g3.11.$tDefects$g87 --$g4.$tArray Performance$g90 --$g4.1.$tSignal$g91 --$g4.1.1.$tSpectral response$g92 --$g4.1.2.$tResponsivity$g97 --$g4.1.3.$tMinimum signal$g102 --$g4.1.4.$tMaximum signal$g102 --$g4.1.5.$tDynamic range$g103 --$g4.2.$tNoise$g104 --$g4.2.1.$tShot noise$g108 --$g4.2.2.$tReset noise$g109 --$g4.2.3.$tOn-chip amplifier noise$g110 --$g4.2.4.$tOff-chip amplifier noise$g111 --$g4.2.5.$tQuantization noise$g111 --$g4.2.6.$tPattern noise$g113 --$g4.2.7.$tPhoton transfer$g115 --$g4.3.$tArray signal-to-noise ratio$g119 --$g5.$tCameras$g122 --$g5.1.$tCamera operation$g123 --$g5.2.$tVideo formats$g125 --$g5.2.1.$tVideo timing$g127 --$g5.2.2.$tComponent/composite signals$g131 --$g5.2.3.$tIRE units$g132 --$g5.2.4.$tDigital television$g134 --$g5.2.5.$tHDTV$g135 --$g5.3.$tConsumer/broadcast cameras$g137 --$g5.3.1.$tThe knee$g138 --$g5.3.2.$tColor correction$g138 --$g5.3.3.$tGamma compensation$g142 --$g5.3.4.$t"Aperture" correction$g145 --$g5.4.$tIndustrial/scientific cameras$g146 --$g5.4.1.$tAnalog-to-digital converters$g148 --$g5.4.2.$tIntensified CCDs$g149 --$g6.$tCamera Performance$g155 --$g6.1.$tStandard camera$g155 --$g6.1.1.$tSignal$g156 --$g6.1.2.$tCamera signal-to-noise ratio$g160 --$g6.1.3.$tNoise equivalent input$g161 --$g6.1.4.$tNoise equivalent reflectance$g162 --$g6.2.$tIntensified CCD camera$g163 --$g6.2.1.$tSignal$g164 --$g6.2.2.$tICCD noise$g165 --$g6.2.3.$tICCD SNR$g166 --$g7.$tCRT-Based Displays$g169 --$g7.1.$tThe observer$g171 --$g7.2.$tCRT overview$g173 --$g7.2.1.$tMonochrome displays$g175 --$g7.2.2.$tColor displays$g176 --$g7.2.3.$tHDTV$g178 --$g7.3.$tSpot size$g178 --$g7.4.$tPixels$g181 --$g7.5.$tResolution$g186 --$g7.5.1.$tVertical resolution$g186 --$g7.5.2.$tTheoretical horizontal resolution$g187 --$g7.5.3.$tTV limiting resolution$g187 --$g7.5.4.$tMTF$g188 --$g7.6.$tAddressability$g189 --$g7.7.$tShades of gray$g194 --$g7.8.$tCharacter recognition$g195 --$g7.9.$tContrast$g197 --$g8.$tSampling Theory$g199 --$g8.1.$tSampling theorem$g202 --$g8.2.$tAliasing$g202 --$g8.3.$tThe detector as a sampler$g206 --$g8.3.1.$tDetector MTF$g206 --$g8.3.2.$tDetector array nyquist frequency$g209 --$g8.3.3.$tImage distortion$g212 --$g8.4.$tAliasing in frame grabbers and displays$g217 --$g9.$tMTF Theory$g219 --$g9.1.$tMTF definition$g221 --$g9.2.$tLinear filter theory$g223 --$g9.2.1.$tThe EO system as a linear system$g223 --$g9.2.2.$tCascading MTFs$g225 --$g9.3.$tSuperposition applied to optical systems$g226 --$g9.4.$tContrast transfer function$g228 --$g10.$tSystem MTF$g233 --$g10.1.$tSpatial frequency$g235 --$g10.2.$tOptics MTF$g238 --$g10.3.$tDetectors$g240 --$g10.3.1.$tDiffusion MTF$g241 --$g10.3.2.$tCharge transfer efficiency$g244 --$g10.3.3.$tTDI$g245 --$g10.3.4.$tOptical anti-alias filter$g248 --$g10.4.$tMotion$g251 --$g10.4.1.$tLinear motion$g251 --$g10.4.2.$tRandom motion (jitter)$g252 --$g10.5.$tElectronic filters$g254 --$g10.5.1.$tDigital filters$g256 --$g10.5.2.$tSample-and-hold$g259 --$g10.5.3.$tPost-reconstruction filter$g260 --$g10.5.4.$tBoost$g261 --$g10.6.$tDisplay$g262 --$g10.7.$tEye response$g265 --$g10.8.$tIntensified CCD$g269 --$g10.9.$tSampling effects$g270 --$g11.$tImage Quality$g275 --$g11.1.$tResolution metrics$g277 --$g11.1.1.$tAnalog resolution metrics$g279 --$g11.1.2.$tSampled data systems$g281 --$g11.1.3.$tShade's equivalent resolution$g285 --$g11.2.$tMTFA$g286 --$g11.3.$tSubjective quality factor$g288 --$g11.4.$tSquare-root integral$g289 --$g12.$tMinimum Resolvable Contrast$g293 --$g12.1.$tThe observer$g294 --$g12.1.1.$tPerceived signal-to-noise ratio$g295 --$g12.1.2.$tPerceived resolution$g299 --$g12.1.3.$tThe eye/brain "filter"$g300 --$g12.2.$tThree-dimensional noise model$g301 --$g12.3.$tThe MRC model$g306 --$g12.4.$tSnrth and te$g310 --$g12.5.$tTwo-dimensional MRC$g313 --$g12.6.$tRange predictions$g314 --$g12.6.1.$tContrast transmittance$g314 --$g12.6.2.$tJohnson criteria$g317 --$g12.6.3.$tTarget transfer probability function$g318 --$g12.6.4.$tRange prediction methodology$g320 --$g12.6.5.$tSampling effects$g323.
650 0 $aCharge coupled devices.$0(uri) http://id.loc.gov/authorities/subjects/sh85022642
650 0 $aInformation display systems.$0(uri) http://id.loc.gov/authorities/subjects/sh85066140
776 08 $iOnline version:$aHolst, Gerald C.$tCCD arrays, cameras, and displays.$b2nd ed.$dWinter Park, FL : JCD Pub. ; Bellingham, Wash., USA : SPIE Optical Engineering, ©1998$w(OCoLC)742487960
852 0 $bWOL$cGENS$hTK7871.99.C45$iH65 1998$8222038076970003941
876 $8222038076970003941$q1$70$mGENS$yBOOK$p32044029740818$cGENS$0232038076940003941$h01$nTK7871.99.C45 H65 1998$bWOL$lWOL