CIE 178 VOL 1-2-2007 26TH SESSION OF THE CIE BEIJING - 4 JULY - 11 JULY 2007 PROCEEDINGS Volume 1 Part 2《国际照明委员会标准(CIE)北京第26届会议 2007年7月4日～7月11日会议录第1卷第2部分》.pdf

1、 26TH SESSION OF THE CIE BEIJING - 4 JULY - 11 JULY 2007 PROCEEDINGS Volume 1 Part 2 CIE 178:2007 ISBN 978 3 901 906 59 6 CIE 2007 - All rights reserved CIE Central Bureau Kegelgasse 27 A-1030 Vienna Austria Tel.: +43 1 714 3187 0 Fax: +43 1 714 3187 18 e-mail: ciecbcie.co.at Web: www.cie.co.at CIE

2、26TH SESSION BEIJING 2007 IIICONTENTS VOLUME 1 Part 1 Page Objectives of the CIE III CIE-CHINA Organizing Committee V Contents VII List of CIE Administrative Bodies XXII Divisions and Technical Committees XXIII Current CIE Publications XXXV Session Programme XXXIX Posters Programme XLV PAPERS: Autho

3、r Title Paper No. PageInvited Papers Sagawa, K. Vision of the Elderly and visually impaired - For accessible Design in Light and Lighting - Inv-1 I-2 Schanda, J. One Hundred years of solid state electroluminescence a challenge for the CIE Inv-2 I-11 Zhan, Q. et al. A brighter China and a more colorf

4、ul life Inv-3 I-20 Division 1 Presented Papers Szab,F. et al. Visual experiments on colour harmony: a formula and a rendering index 2A-P1 D1-2 Yaguchi,H. et al. Relation between elementary color scaling and the perceptive attributes specified with ciecam02 2A-P2 D1-6 Coppel, L. et al. Whiteness asse

5、ssment of paper samples at the vicinity of the upper CIE whiteness limit 2A-P3 D1-10Li, C. et al. A new method for quantifying colour rendering 2A-P4 D1-14Szab, F. et al. A comparative study of new solid state light sources 2A-P5 D1-18Franoise, V. et al. Grading LED illumination : from colour render

6、ing indices to specific light quality indices 2A-P6 D1-22Van der Burgt,P.J.M., van Kemenade J.T.C. About colour rendition of light sources.The balance between simplicity and accuracy. 2A-P7 D1-26Boissard.S. et al. Optimisation of mixing of LED-based light for object presentation 2A-P8 D1-30Pasi,O. e

7、t al. Mesopic spectral sensitivity and related CIE standardisation work 3A-P1 D1-34Sabine,R., Martin,L. Models of mesopic photometry applied to the contrast threshold of peripheral and foveal objects 3A-P2 D1-38Note: * full paper has not been received. the extended or revised paper is included in Vo

8、lume IICIE 26TH SESSION BEIJING 2007 IV Author Title Paper No. PageGoodman, T., Forbes, A. A performance-based model for mesopic photometry 3A-P3 D1-42*Chen,Z. et al. Maximum Spectral Luminous Efficacy under Mesopic Conditions and Application 3A-P4D1-43Wang, X., Lian, Y. Prediction of chinese color

9、system appearance scales using various color appearance models 3A-P5 D1-47*Kim,Y.J. et al. Measurement of Perceived Brightness and Contrast Sensitivity for outdoor condition 3A-P6 D1-48Itoh,N. et al. Visual property of people with low vision (1): Span of color similarity 3A-P7 D1-52Fekete, J. et al.

10、 Optimizing spectral power distribution of car headlamp lighting 3A-P8 D1-56Division 1 Presented Posters Masako,S. et al. Visual perceiving experiment on color rendering of white leds PO-101 D1-62Zhang,S. et al. Application Threshold Brightness Contrast Experiments of Human Eyes for Study on the Vis

11、ibilityPO-102 D1-66Komatsubara, H. New color-difference formula based on uniform color-difference space PO-103 D1-70*Khanh, T.Q. On some latest visual experiments on the color rendering issues of light sources and the correlation with the color difference according ciede2000 PO-104 D1-71*Schanda,J.,

12、Madr,G. Light source quality assessment PO-105 D1-72Yao,J. et al. Contrast sensitivity under different surround luminance PO-106 D1-76Takahashi,H. et al. Discomfort glare and annoyance caused by white Led lamp PO-107 D1-80Wang,X. et al. Uniformity research on cie1931 chromaticity diagram PO-108 D1-8

13、4*JAN, M., KIRSCHBAUM, C. Lighting Temporal Modulation and Visual Performance PO-109 D1-85ODonell, B.M., Colombo, E.M. The influence of color in visual performance model measured as reaction times PO-110 D1-89Wang,J. Three attributes uniform color space in a new color-difference software PO-111 D1-9

14、3Hirschler,R., Oliveira,D.F. Evaluation and classification of daylight simulators problems and recommendations PO-112 D1-97Sik Lnyi,C. et al. Virtual world “a brave new world”, but what kind of colours are used in these virtual environments? PO-113 D1-99He, G., Zhou, M. Colorimetric color matching b

15、ased on new two-constant theory PO-114 D1-103Itoh,N. et al. Visual property of people with low vision (2): contrast sensitivity function PO-115 D1-107Fotios, S., Houser, K. Research of Lamp SPD Effects on the Perception of Interior Spaces: The Current State of Knowledge PO-116 D1-111Hu.Y. et al. Mes

16、opic luminous efficiency functions based on reaction time experiments PO-117 D1-115*Note: * full paper has not been received. the extended or revised paper is included in Volume IICIE 26TH SESSION BEIJING 2007 VAuthor Title Paper No. PageRichter,K. Colorimetric model of logarithmic colour spaces lms

17、labPO-118 D1-117KIM,D. Mathematical transformation of ncs notations to cielab coordinates in d65/10 illuminant/observer condition PO-119 D1-121*WU, B. et al. Research of the Influence of Neutral Background on Color Appearance PO-120 D1-122Naoya,H., Yuya,K. Influence of color vision difference on rea

18、dability and equivalent luminance contrast of chromatic documentsPO-121 D1-126Cook, G. K. et al. Innovation in light relfectance value measurement and application PO-122 D1-130Beke, L., Bodrogi,P. Spatiotemporal characteristics of the afterimage process PO-123 D1-134Beke,L. et al. Color image prefer

19、ence to aged and young observersPO-124 D1-138Ma, J. et al. A primary research on quantification of chromatic light preference in landscape illumination PO-125 D1-142Koichi,I., Masaharu,N. Prediction of colour differences in uniform Colour spaces and colour appearance models PO-126 D1-146Hideki,Y., H

20、iroyuki,S. Evaluation of space brightness based on the border luminance of color appearance mode PO-127 D1-150Koichi,I., keiichi,S. Colour rendering properties of light emitting diode and fluorescent lamp PO-128 D1-154Takatoshi,M., Hiroyuki S. Judging Color Appearance Mode of a stimulus with short d

21、uration PO-129 D1-158Li,C. et al. Evaluation of LED Sources Based on Colour Appearance Data PO-130 D1-162Chiara,A. et al. A skylight simulator for assessing cockpit display and ambient visibility for day time and night time conditions PO-131 D1-166Yoko,I. et al. Adaptation luminance of the complex l

22、uminance distribution:directionality and additivity of the adaptation luminance increase PO-132 D1-170Da Pos, O., et al. Lightness constancy with 3d objects of different shape and reflectance PO-133 D1-174ISHIDA, T. et al. Psychological Evaluation of Lighting with a Wide Range of Color Temperatures

23、and Illuiminances PO-134 D1-178Division 2 Presented Papers Mou, T. et al. Luminance contrast measurement of Fpds under daylight ambient condition 1A-P1 D2-2 Ikonen, E. et al. Modeling distance dependence of LED illuminance 1A-P2 D2-6 Ngele,T. Spectroradiometric measurements of pulsed high power leds

24、 1A-P3 D2-10OHNO, Y, MILLER,C. Measurement of Solid-State-Lighting Products 1A-P4 D2-14Qian, W. et al. Total luminous flux measurement of leds using an integrating sphere with an external standard source 1A-P5 D2-18Pan, J. et al. Uncertainties in the Led luminous flux measurement using integrating s

25、phere 1A-P6 D2-20BOULENGUEZ,P. et al. On luminaires near field photometry measurement 1A-P7 D2-24Zhang, J. Luminaire photometry for temperature-sensitive light sources 1A-P8 D2-28Note: * full paper has not been received. the extended or revised paper is included in Volume IICIE 26TH SESSION BEIJING

26、2007 VI Author Title Paper No. PageMeena D. Lysko An approach for determining the responsivity of peak irradiance pulse detectors 1A-P9 D2-32Zong,Y. et al. Correction of stray light in spectroradiometers and imaging Instruments 1A-P10 D2-33Park, S. et al. Calculation of spatial response distribution

27、 function of an integrating sphere for LED total luminous flux measurement using a commercial Monte-Carlo ray-tracing simulator 1A-P11 D2-37SHITOMI, H., SAITO, I. Extending the calibration range of the NMIJ spectral diffuse reflectance standard with respect to the wavelength and reflectance level 1A

28、-P13 D2-41Goodman,T., Montgomery, R. Measurement of naturalness 1A-P14 D2-45*Pons, A. et al. Reflectance changes in white reflectance standards measured in different instruments with 0/d geometry 1A-P15 D2-46Rastello, M.L. Surface color measurements by active vision systems 1A-P16 D2-50Division 2 Pr

29、esented Posters Marx, P. A new digital illuminance- meter with a special luminance tubeadapter for universal applications in lighting engineering PO-201 D2-56Kohmoto, K. Considerations on measurement of led radiance and luminance PO-202 D2-60Makai, J.P. et al. Surface topography of Large area mirror

30、-like surfaces by the Makyoh (magic mirror) method PO-203 D2-62Vladimir,K., Konstantin,T. Measuring of color and effective values by means of integral and spectrophotometric method PO-204 D2-66Alonso, A. P.et al. Reflectance values of plaster board in the uv, vis and near ir PO-205 D2-70*Dariusz, S.

31、 The Area Light Source Modeling for Determining the Light Point Figure Using Ray Tracing Method PO-206 D2-71Pan, J. et al. Research on the detector-based high stable color tunable LED standard source PO-207 D2-75Mou, T. et al. The apparent sources determination for leds PO-208 D2-79Gan, X. et al. St

32、andardisation of calibration of broadband uv radiometers PO-209 D2-83Alexey, K. The Light-tube Method for Lighting Calculations in a Near Field PO-210 D2-85Jan, M. et al. Temporal modulation meter to assess lit environments PO-211 D2-89BASTIE, J. Measurements and units for photobiological and photoc

33、hemical quantities PO-212 D2-93Zhou, J. et al. Synthesis and luminescent properties of oxyfluoride yof:eu3+phosphors PO-213 D2-97Eppeldauer, G. P. et al. New photometer standards for low uncertainty illuminance scale realization PO-214 D2-99Note: * full paper has not been received. the extended or r

34、evised paper is included in Volume IICIE 26TH SESSION BEIJING 2007 VIIAuthor Title Paper No. PageIshihara,H. et al. Measurement of vacuum ultraviolet radiation using photoconductors made of synthetic diamond films PO-215 D2-103Xu, Y. et al. Color capability analysis of monitors used for representing

35、 the hardcopy colors PO-216 D2-107Yang, X. et al. Algorithm of spectral estimation based on multi-spectral imaging system with two ccd PO-217 D2-111Li, Z. Experiment research for high frequency discharge and 50hz discharge of the tubular fluorescent lamps PO-218 D2-113Eugeny, A. et al. Detector base

36、d approach in high brightness led measurements PO-219 D2-117Li, D. et al. Assembled d3.5m reflecting dome type artificial sky PO-220 D2-121Simionescu, M., Seucan, A. Nim-romania spectro-reflectometric capability PO-221 D2-124Cappellanti, S. et al. Systems for light diffusion through transparent mate

37、rials: performance indexes related to the containment of luminance and to the removal of the uv component PO-222 D2-127Clare, J.F., Hamlin, J.D. Instrumental nonlinearity in the measurement of diffuse reflectance using an integrating sphere PO-223 D2-131Masami, N. et al. Application of carbon nanotu

38、bes to Optical radiation absorber PO-224 D2-135Kim, Y. et al. Validation of cie averaged led intensity measurement by comparing results of the photometric and spectroradiometric methods with different traceabilitiesPO-225 D2-139Lee, D. et al. Preparation of standard leds based on the generalized mod

39、el of the functional seasoning PO-226 D2-142Xu, W. et al. Technique of reflector design PO-227 D2-146Fryc, I. et al. LED-based spectrally tunable light source for photometry and colorimetry PO-228 D2-150Godo, K. et al. Averaged led intensity measurement at nmij PO-229 D2-152Gomes, J. F. S. et al. Im

40、plementation of Colorimetric Measurement System at Inmetro PO-230 D2-156Bla,L. et al. Luminance measurment device based on digital camera for quality control in automotive industry PO-231 D2-158Timmins, A.S.P. et al. Compliance and Testing of HID-Lamps for Minimum Luminous Flux Levels PO-232 D2-162J

41、ang, D. A sensitivity analysis on change of luminous intensity value by spatial intensity distribution, radiating area and measurement distance of LED and LED Module PO-233 D2-164Kim, Y. A Study on Measuring Forward Voltage to Get Junction Temperature of LED PO-234 D2-168Miller, P.， Goodman, T. Meas

42、urements at NPL for LED performance and safety PO-235 D2-170*Kosei, O., Syunsuke, M. The correction method for led spectrum measurement in the total flux mode PO-236 D2-171Tatsuya, Z., Ichiro, S. An attempt at establishing a spectral irradiance scale from 200 nm to 250 nm PO-237 D2-175Note: * full p

43、aper has not been received. the extended or revised paper is included in Volume IICIE 26TH SESSION BEIJING 2007 VIII Author Title Paper No. PageZong, Y., Ohno, Y. Realization of total spectral radiant flux scale and calibration service at nist PO-238 D2-179Park, S. et al. A series of round robin tes

44、t to improve agreement of cie averaged led intensity measurements among korean industrial laboratories PO-239 D2-183Liu, M. et al. A review of perspective of the application of leds in general lighting by comparing efficacies of led and conventional light sources PO-240 D2-187Cho, Y. et al. Round Ro

45、bin LED Thermal Resistance Test PO-241 D2-191*Obein, G. et al. A new realization of the candela at the lne-inm/cnam PO-242 D2-192Hwang, M.K. et al. The Development and Optic Characteristics of LED Floodlight PO-243 D2-196*Division 3 Presented Papers Lin, R. et al. A study and zoning of the daylight

46、climate in china 1B-P1 D3-2 Kobav, M.B., Dumortier,D. Use of a digital camera as a sky luminance scanner 1B-P2 D3-6 Dominique, D., Matej, K. Deriving cie sky types from horizontal irradiances 1B-P3 D3-10PERRAUDEAU,M., CARR, S. Evaluation of annual interior lighting using multizones sky 1B-P4 D3-14Da

47、vid,C User attitudes toward tubular daylight guidance in offices 1B-P5 D3-18Daisuke, I., Toshie, I. Study on automated blind control based on visual comfort 1B-P6 D3-22Navvab, M., Spectral Variability of Daylight and Electric Light at the Eye in Working Environments 1B-P7 D3-26*Chung, T.M. et al. Ph

48、ysical parameters affecting the subjective evaluation of a daylit indoor residential environment based on a user assessment survey 1B-P8 D3-27OSTERHAUS, W. K. E. Design Guidelines for Glare-Free Daylit Work Environments 1B-P9 D3-31*Lee, C. et al. A study on the estimation of discomfort glare for led

49、 luminaires 1B-P10 D3-33Toshie, I. et al. Border between contrast glare and saturation glare 1B-P11 D3-37NAKAMURA, Y. et al. Method of discomfort glare estimation applicable to wide range of source sizes 1B-P12 D3-41Eino, T., Liisa, H. Future trends of energy efficient lighting 1B-P13 D3-45Lou, B. et al. Office user response to new lighting solutions 1B-P14 D3-49POP, F., BEU, D. Residential energy efficient lighting 1B-P15