Thematische Bibliographien / Correlated colour temperature

Inhaltsverzeichnis

  1. Zeitschriftenartikel
  2. Dissertationen
  3. Buchteile
  4. Konferenzberichte

Auswahl der wissenschaftlichen Literatur zum Thema „Correlated colour temperature“

Autor: Grafiati
Veröffentlicht am 28. Juni 2021
Zuletzt aktualisiert am 5. Februar 2022

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Zeitschriftenartikel zum Thema "Correlated colour temperature"

1

Gardner, J. L. „Correlated colour temperature - uncertainty and estimation“. Metrologia 37, Nr. 5 (Oktober 2000): 381–84. http://dx.doi.org/10.1088/0026-1394/37/5/8.

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Huang, Z., Q. Liu, S. Westland, MR Pointer, M. Ronnier Luo und K. Xiao. „Light dominates colour preference when correlated colour temperature differs“. Lighting Research & Technology 50, Nr. 7 (06.06.2017): 995–1012. http://dx.doi.org/10.1177/1477153517713542.

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Colour preference for lighting is generally influenced by three kinds of contextual factors, the light, the object and the observer. In this study, a series of psychophysical experiments were conducted to investigate and compare the effect of certain factors on colour preference, including spectral power distribution of light, lighting application, observers’ personal colour preference, regional cultural difference and gender difference. LED lights with different correlated colour temperatures were used to illuminate a wide selection of objects. Participant response was quantified by a 7-point rating method or a 5-level ranking method. It was found that the preferred illumination for different objects exhibited a similar trend and that the influence of light was significantly stronger than that of other factors. Therefore, we conclude that the light itself (rather than, e.g. the objects that are viewed) is the most crucial factor for predicting which light, among several candidates with different correlated colour temperatures, an observer will prefer. In addition, some of the gamut-based colour quality metrics correlated well with the participants’ response, which corroborates the view that colour preference is strongly influenced by colour saturation. The familiarity of the object affects the ratings for each experiment while the colour of the objects also influences colour preference.
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Gardner, J. L. „Uncertainties in source distribution temperature and correlated colour temperature“. Metrologia 43, Nr. 5 (12.09.2006): 403–8. http://dx.doi.org/10.1088/0026-1394/43/5/010.

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Mundinger, JJ, und KW Houser. „Adjustable correlated colour temperature for surgical lighting“. Lighting Research & Technology 51, Nr. 2 (24.11.2017): 280–90. http://dx.doi.org/10.1177/1477153517742682.

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A surgical luminaire containing two types of phosphor-converted LEDs was employed to illuminate a large midline incision in a 90 kg pig. The PC-LEDs were proportionally blended to create four spectra defined by their approximate correlated colour temperatures: 3000, 4000, 4500 and 5100 K. Sixteen surgeons evaluated the colour appearance of internal anatomy under each spectrum. All four spectra were rated as highly effective. There was no significant difference between the 4000, 4500 and 5100 K spectra. The 3000 K spectrum was rated as less effective, though this does not mean it was ineffective. The spectrum by participant interaction was significant where it could be estimated, suggesting that surgeons may develop individual opinions about which spectra are most effective. While the surgeons moderately agreed that the colour of internal anatomy was altered by the different spectra, they were undecided whether the differences would increase the risk of surgical error or influence surgical decisions. They were also largely undecided whether they would select different spectra during a single procedure, for different procedures, or for different anatomy. Overall, the linear mixing for variable CCT employed in this experiment did not provide obvious utility for surgeons making visual evaluations.
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Borbély, Ákos, Árpád Sámson und János Schanda. „The concept of correlated colour temperature revisited“. Color Research & Application 26, Nr. 6 (08.10.2001): 450–57. http://dx.doi.org/10.1002/col.1065.

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Krystek, M. „An algorithm to calculate correlated colour temperature“. Color Research & Application 10, Nr. 1 (1985): 38–40. http://dx.doi.org/10.1002/col.5080100109.

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te Kulve, Marije, Luc Schlangen, Lisje Schellen, Jan L. Souman und Wouter van Marken Lichtenbelt. „Correlated colour temperature of morning light influences alertness and body temperature“. Physiology & Behavior 185 (März 2018): 1–13. http://dx.doi.org/10.1016/j.physbeh.2017.12.004.

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Huang, Z., Q. Liu, MR Luo, MR Pointer, B. Wu und A. Liu. „The whiteness of lighting and colour preference, Part 2: A meta-analysis of psychophysical data“. Lighting Research & Technology 52, Nr. 1 (24.03.2019): 23–35. http://dx.doi.org/10.1177/1477153519837946.

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In this work, the correlation between the perceived whiteness of lighting and the corresponding colour preference of observers was comprehensively investigated based on the data of 19 groups of experiments collected from 14 studies. The dataset included 13 experiments with constant correlated colour temperature and 6 experiments with multiple correlated colour temperatures, with illuminance levels ranging from 200 lx to 500 lx. For the five studies implemented by the authors, the subjective ratings of colour preference and the whiteness of lighting were acquired. For other cases, only the preference ratings were collected while the whiteness of lighting was quantified by a measure named degree of neutrality ( Sneutral), which has been validated in our previous work. The meta-analysis results confirm our former statement that people prefer whiter illumination and further specify its prerequisite. That is, the whiteness of lighting generally correlates well with colour preference under the conditions where the candidate lights differed to a certain extent in white. In addition, it was further demonstrated that for the scenarios with multiple correlated colour temperatures ranging from 2500 K to 5500 K people indeed preferred perceptually whiter light chromaticities, while for correlated colour temperatures higher than 5500 K it seemed that they appeared too cold to be preferred.
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Baniya, Rupak R., Eino Tetri, Jukka Virtanen und Liisa Halonen. „The effect of correlated colour temperature of lighting on thermal sensation and thermal comfort in a simulated indoor workplace“. Indoor and Built Environment 27, Nr. 3 (06.10.2016): 308–16. http://dx.doi.org/10.1177/1420326x16673214.

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The ‘hue-heat’ hypothesis states that an environment which has wavelengths predominantly toward the red end of the visual spectrum feels ‘warm’ and one with wavelengths mainly toward the blue end feels ‘cool’. In order to test the hypothesis and to study the impacts of the correlated colour temperature of a light source on thermal sensation and thermal comfort, a study was conducted in a test room illuminated with an Light Emitting Diode (LED) lighting system with an adjustable correlated colour temperature where air temperature, air velocity, and relative humidity were kept constant. The correlated colour temperature of lighting inside the test room was changed gradually while keeping the colour rendering index values greater than 90, an illuminance level of 500 lx, and chromaticity difference (Duv) values within the limits of ±0.005. Sixteen study subjects were exposed to a ‘high room temperature’ (25℃) and a ‘low room temperature’ (20℃) on different days. The subjects were adapted to low correlated colour temperature (2700 K), medium correlated colour temperature (4000 K), and high correlated colour temperature (6200 K) lighting for 10 min and subsequently completed the questionnaire about their thermal comfort and thermal sensation. The results of this survey did not provide support for the hue-heat hypothesis and indicated that people felt thermally more comfortable in an indoor workplace at the correlated colour temperature of 4000 K than at the correlated colour temperature of 2700 K or 6200 K.
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Khanh, TQ, P. Bodrogi, QT Vinh, X. Guo und TT Anh. „Colour preference, naturalness, vividness and colour quality metrics, Part 4: Experiments with still life arrangements at different correlated colour temperatures“. Lighting Research & Technology 50, Nr. 6 (24.03.2017): 862–79. http://dx.doi.org/10.1177/1477153517700705.

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Subjective colour preference, naturalness and vividness assessments of two different colourful still life arrangements viewed in a real room were analysed and modelled with the aid of the Rf colour fidelity metric combined with a chroma difference metric. Coloured objects were illuminated by a four-channel LED light engine with 36 different spectra at four correlated colour temperatures and nine object oversaturation levels. Results imply a significant dependence of the subjective judgments on correlated colour temperature.
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Dissertationen zum Thema "Correlated colour temperature"

1

Sláma, Pavel. „Návrh měřicího pracoviště v LabView pro účely měření spektra a světelného toku“. Master's thesis, Vysoké učení technické v Brně. Fakulta elektrotechniky a komunikačních technologií, 2017. http://www.nusl.cz/ntk/nusl-316920.

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This thesis deals with luminance parameters measurement and ways to accomplish this using LabView software. The first part focuses on luminance parameters measurable by spectroradiometer and their meaning. Following part introduces reader to hardware equipment that is used in the measurement. Third part contains description of LabView software and explains what is required to make a communication between equipment and PC work. Next part explains how the communication with peripherals was achieved. Following up is the part where it is described how programs controlling AC and DC power supplies work. In this part the user interface is described.
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Vlček, Pavel. „Analýza schopnosti jasového analyzátoru LDA - LumiDISP měřit náhradní teplotu chromatičnosti“. Master's thesis, Vysoké učení technické v Brně. Fakulta elektrotechniky a komunikačních technologií, 2021. http://www.nusl.cz/ntk/nusl-442553.

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This master's thesis deals with the search of commercially available luminance analysers and cameras that use the measurement of correlated colour temperature. It also deals with calculations of correlated colour temperature according to various available methods. The luminance analyser LDA-LumiDISP is based on a DSLR camera. The principle of its operation and possible errors in capturing pictures are discussed here. The work deals with extensive testing of the LDA-LumiDISP luminance analyser, which is primarily intended for measuring luminance in the set scene, but can also be used to measure the correlated colour temperature. The device is being tested in terms of measuring the correlated colour temperature in laboratory and field conditions. The result of the master's thesis is the calculation of measurements uncertainty for certain light sources and the optimization of the measuring algorithm to reduce them.
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Bell, Emily Louise. „An Exploratory Lighting Study on the Effects of Correlated Color Temperature in Senior Living“. The Ohio State University, 2018. http://rave.ohiolink.edu/etdc/view?acc_num=osu1523539636787946.

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Little, Matthew Michael. „Feasibility of manipulating correlated color temperatures with a phosphor converted high-powered light emitting diode white light source“. DigitalCommons@CalPoly, 2010. https://digitalcommons.calpoly.edu/theses/332.

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In this thesis we examine the feasibility of developing a white light source capable of producing colors between 2500 and 7500 Kelvin on the black-body radiator spectrum by simply adjusting amperage to a blue and ultraviolet (UV) light emitting diode (LED). The purpose of a lighting source of this nature is to better replicate daylight inside a building at a given time of day. This study analyzes the proposed light source using a 385 nm UV LED, a 457 nm blue LED, a 479 nm blue LED, a 562 nm peak cerium doped yttrium aluminum garnet (YAG:Ce) phosphor, and a 647 nm peak selenium doped zinc sulfide (ZnS:Se) phosphor. Our approach to this study initially examined optical performance of yellow-emitting phosphor (YAG:Ce) positioned at specific distances above a blue LED using polydimethylsiloxane (PDMS) as a substrate. An understanding of how phosphor concentration within the PDMS, the thickness of the PDMS, and how substrate distance from the LED die affected light intensity and color values (determined quantitatively by utilizing the 1931 CIE 2° Standard Observer) enabled equations to be developed for various lens designs to efficiently produce white light using a 457 nm peak wavelength LED. The combination of two luminescent sources (457 nm LED and YAG:Ce) provided a linear trend on the 1931 CIE diagram which required a red illumination source to obtain Kelvin values from 2500 to 7500. Red-emitting phosphor (ZnS:Se), selected to compliment the system, was dispersed with YAG:Ce throughout PDMS where they were stimulated with a blue LED thereby enabling all desired Kelvin values with differing concentration lenses. Stimulating ZnS:Se with the addition of a UV LED did not provide the ability to change the color value of the set up to the degree required. Many other factors resulted in the decision to remove the UV LED contribution from the multi-Kelvin light source design. The final design incorporated a combination of ZnS:Se and YAG:Ce stimulated with a blue LED to obtain a 2500 Kelvin value. A separate blue LED provides the means to obtain 7500 Kelvin light and the other color values in between, with a linear approximation, by adjusting the amperages of both LEDs. In addition to investigating the feasibility of obtaining the Kelvin values from 2500 to 7500, this thesis also examined the problem of ZnS:Se’s inability to cure in PDMS and a method to create a lens shape to provide equal color values at all points above a phosphor converted LED source. ZnS:Se was found to be curable in PDMS if first coated with a low viscosity silicon oil prior to dispersion within PDMS. The lens configuration consists of phosphors equally distributed in PDMS and cured in the shape of a Gaussian distribution unique to multiple factors in LED-based white light design.
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Lingfors, David. „Illumination properties and energy savings of a solar fiber optic lighting system balanced by artificial lights“. Thesis, Uppsala universitet, Fasta tillståndets fysik, 2013. http://urn.kb.se/resolve?urn=urn:nbn:se:uu:diva-204664.

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A solar fiber optic lighting system, SP3 from the Swedish company Parans Solar Lighting AB, has been installed in a study area/corridor test site. A collector is tracking the sun during daytime, focusing the direct sun irradiance via Fresnel lenses into optical fibers, which guide the solar light into the building. The illumination properties of the system have been characterized. The energy saving due to reduced need of artificial lighting have been calculated and methods for balancing the artificial lights in the test site have been evaluated. The illumination at the test site using solar light was at least as high as when using the artificial lights and even higher at very clear days. The luminous flux output (500 lm) was somewhat lower than specified by the manufacturer (550 lm) at 100 000 lx direct sun illuminance. The output at 130 000 lx was high 767±33 lm the sunlight coupling efficiency 23 %. However, for a 20 m SP3 system the luminous flux output (400 lm) at 100 000 lx was higher than specified (350 lm). The SP3 system of Parans provides high quality solar light. It has a fuller spectrum close to the spectrum of the sun compared to the fluorescent lights at the test site. The correlated color temperature of the system was 5800±300 K and the color rendering index 84.9±0.5. The lighting energy saved due to decreased need for artificial light was estimated to 19 % in Uppsala which has 1790 annual sun hours. The savings in Italy, which has 3400 sun hours, is 46 %. Additional saving, especially in warmer countries can be obtained due to decreased need for cooling in the building as the solar luminaires provide negligible heat to the indoor air. Economical saving could also be realized by improved well-being of the occupants spending time under the solar luminaires. Three ways of balancing the artificial light due to sunshine fluctuations have been investigated. The global horizontal irradiance could not be used as a control signal for balancing the artificial lights but a pyranometer attached to the SP3 sun tracking collector was usable. Also the signal from an indoor luxmeter sensor could be used for balancing the light. However the signal from the light sensor which makes the SP3 collector to track the sun is probably the most cost effective method as it would serve two purposes; tracking the sun and balancing the artificial lights.
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Kuckartz, Joost, und 古卡茲. „Correlated Color Temperature in Color Appearance Models“. Thesis, 2010. http://ndltd.ncl.edu.tw/handle/36970363099174995645.

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碩士
臺灣大學
電信工程學研究所
98
Correlated color temperature is the temperature of a Planckian radiator which perceived color closely resembles that of a test stimulus. The International Commission on Illumination (CIE) has defined this measurement as being valid under specified viewing conditions and with the test stimulus being of the same brightness as the point of the Planckian radiator. The current method for calculation of the correlated color temperature dates back to 1968 and is based on an obsolete color space which is nowadays not used for any other calculations. The color space is valid for any viewing condition and the brightness is unknown. Color appearance models use viewing conditions and input stimuli to model perceived appearance. Correlates which include brightness and hue are mathematically defined. These parameters are exactly the requirement of the CIE definition for correlated color temperature but are currently not used in the calculation. In this research the definition of color temperature from the Planckian blackbody equation is used to find their locations in color appearance models. Given the blackbody locus as test stimulus different input situations are tested and the models'' outputs are compared. Finally a method for calculating the correlated color temperature in any color appearance model is given which conforms much closer to the CIE definition.
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Hsu, Hsiang-Ying, und 許湘瀅. „Effect of Correlated Color Temperature LEDs on Painting and Calligraphy Materials“. Thesis, 2018. http://ndltd.ncl.edu.tw/handle/t348ee.

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碩士
國立嘉義大學
木質材料與設計學系研究所
107
Light damage of museum object causes material irreversible aging and degradation. It is important to use the proper source of museum lighting. Therefore, evaluating the property of lamps is an indispensable part of conservation work. The main aim of the study presented in the paper was to evaluate museum lighting sources causing color degradation on different materials. Blue wool scale and actual material, including painting and calligraphy paper, mounting materials and Chinese pigments were exposed to four types of white LED lamps with different correlated color temperature and NU-fluorescent lamp. The measurement results provide further information about the benefits of LED lamps for museum lighting. The result of light sources measurement shows that low correlated color temperature (CCT) type LED characterized lower blue wave band ratio and damage factor. Under 300000 lx∙hr of accumulating exposed time, test result revealed LED lamp with low CCT caused a larger Color change of blue wool scale. For painting and calligraphy paper, mounting materials and Chinese pigments, the test result revealed that Color change by NU-fluorescent lamp was greater than LEDs. The comparison of different Color change by LEDs, machine-made paper fading faster under LED with lower CCT. Conversely, hand-made paper, mounting materials, and Chinese pigments fading faster under LED with higher CCT, and the Color change grows as CCT increase. The results of paper P.C. No. (post color number) values change and pH values are similar to the consequence of color change, namely the lamp which caused Color change lager also caused paper P.C. No. values decrease and pH value decrease. Additionally, some sample reacts with certain wavelengths result in larger fading. It is possible that action spectrum of material receiving. The relative evaluations of the discoloration degrees of actual materials after exposed of different light sources revealed LED lamps lower than NU-fluorescent lamp and the degrees decrease as CCT decrease. Furthermore, the LED lamps with lower CCT caused less degaradation. The research verified the blue wave band ratio, damage factor and CCT of light sources as evaluate suitability of light. The LED lamps result lower degradation of materials than NU-fluorescent lamp. It is appropriate to use LED lamp with low CCT as museum lighting.
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Chiu, Chih-yu, und 邱志煜. „The study of angular correlated color temperature deviation for white light LEDs“. Thesis, 2012. http://ndltd.ncl.edu.tw/handle/18895466566316556939.

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碩士
國立中央大學
光電科學研究所
100
In this thesis, we study color uniformity of white light LEDs with different package types. Based on the YAG phosphor model, we analyze the angular correlated color temperature deviation (ACCTD) for white light LEDs with different package types and find out which one is lowest. After that, we modify the ACCTD of specific package types with the same correlated color temperature by changing the structure of the package. Finally, we study the ACCTD changes in mid-field region for white light LEDs and define the distance of quasi far-field in color.
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Kuo, Yu Fang, und 郭育芳. „Effects of LED Correlated Color Temperature on the Light Fastness of Blue Wool Standards“. Thesis, 2015. http://ndltd.ncl.edu.tw/handle/20211750186832863528.

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碩士
國立臺南藝術大學
博物館學與古物維護研究所
103
Light is a common cause of damage to collections. Paper, textile, binding media , dyes and pigments are particularly sensitive to light. Most of us recognize fading as a form of light damage, but this is only a superficial indication of deterioration that will extends to the physical and chemical structure of collections eventually. Most important, light provides energy to fuel the chemical reactions that produce deterioration. Light damage is cumulative and irreversible. Incandescent lamps have been phased out since 2010 in Taiwan and LED was the latest cutting edge lighting technology, considered as an alternative to traditional light sources. LED waves have swept the museum circle. There are some advantages of LED lighting, such as energy efficiency, ecologically friendly, response fast, small size, low quantity of heat and longer service lifetime. The limit of current technology restricts LED from so-claimed full performance concerning global illumination, color rendering and reliability. Therefore it is necessary to evaluate the use of LED lighting in museums. Blue wool standards were exposed to four types of white LED lamps under different color temperatures. Color changes were measured at each 15,000lx-hr interval twenty times. The accumulated exposed time were 300,000lx-hr. Test results showed that all LED lighting cause fading on blue wool standard grade 1 and the lower color temperature of light the fading rate was faster . The test result is different from former literatures may attributed to commercial LED lamps. The commercial lamps were made by different production and packaging processes based on cost and market trend considerations, such instability will be a potential damage to cultural relics. Color temperature as an indicator of light sources needs more evaluation analysis to testify its performance. It is important to develop a suitable illuminating system light sources in order to put white LED lamps into practical use as a museum light sources.
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Chiou, Bo-Ruei, und 邱柏瑞. „Dynamically Tuning the Correlated Color Temperature of White Light-Emitting Electrochemical Cells with Electrochromic Filters“. Thesis, 2017. http://ndltd.ncl.edu.tw/handle/xf2bxm.

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碩士
國立交通大學
照明與能源光電研究所
105
Recently, white solid-state LECs have attracted intense attention since they exhibit advantages such as low-voltage operation, compatibility with solution processes and employing inert cathode metals. Since different correlated color temperatures (CCTs) of background illumination are necessary for various lighting applications, a real-time tunable CCT of white LECs would be highly desired in modern smart lighting systems. In this work, a widely and dynamically tuning CCT (>10000 K) of white LEC is demonstrated by employing an electrochromic device (ECD) as a real-time controllable color filter. By increasing the applied bias on the ECD to attenuate more the red parts of white EL from the white LEC, the LEC-based white light source becomes more bluish and, in consequence, shows higher CCT. This proposed LEC-based white light source with the characteristics of wide CCT range and real-time tunability is suitable for most lighting applications and modern smart lighting systems.
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Buchteile zum Thema "Correlated colour temperature"

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Suzer, Özge Kumoğlu, und Nilgun Olgunturk. „Chapter 22. The effects of correlated colour temperature on wayfinding performance and emotional reactions“. In Progress in Colour Studies, 405–18. Amsterdam: John Benjamins Publishing Company, 2018. http://dx.doi.org/10.1075/z.217.22suz.

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Novák, Tomáš, Petr Bos, Richard Baleja und Karel Sokanský. „Correlated Colour Temperature Changes of the LED Sources Depending on the Angle of Their Radiation“. In Proceedings of the First International Scientific Conference “Intelligent Information Technologies for Industry” (IITI’16), 441–49. Cham: Springer International Publishing, 2016. http://dx.doi.org/10.1007/978-3-319-33816-3_43.

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Gooch, Jan W. „Correlated Color Temperature“. In Encyclopedic Dictionary of Polymers, 173. New York, NY: Springer New York, 2011. http://dx.doi.org/10.1007/978-1-4419-6247-8_2955.

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Gooch, Jan W. „Temperature, Correlated Color“. In Encyclopedic Dictionary of Polymers, 732. New York, NY: Springer New York, 2011. http://dx.doi.org/10.1007/978-1-4419-6247-8_11607.

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Pant, Paras, Pesal Koirala, Markku Hauta-Kasari und Jussi Parkkinen. „Estimating Color Signal at Different Correlated Color Temperature of Daylight“. In Advanced Concepts for Intelligent Vision Systems, 587–97. Berlin, Heidelberg: Springer Berlin Heidelberg, 2009. http://dx.doi.org/10.1007/978-3-642-04697-1_55.

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Hadji, Sarra, Lulu Xia, Li Lan, Ruiqi Liu und Zhiwei Lian. „The Effects of Light Correlated Color Temperature and Illuminance Level on Mood States in Offices“. In Environmental Science and Engineering, 1325–33. Singapore: Springer Singapore, 2020. http://dx.doi.org/10.1007/978-981-13-9520-8_136.

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Bao, Nguyen Quoc, Tran Hoang Quang Minh, Do Vinh Quang, Nguyen Doan Quoc Anh und Nguyen Thi Phuong Thao. „Influence of Green Phosphor Ce0.67 Tb0.33 MgAl11 O19:Ce,Tb on the Luminescent Properties and Correlated Color Temperature Deviation of Multi-chip White LEDs“. In AETA 2016: Recent Advances in Electrical Engineering and Related Sciences, 409–13. Cham: Springer International Publishing, 2016. http://dx.doi.org/10.1007/978-3-319-50904-4_43.

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„Temperature, correlated color“. In Encyclopedic Dictionary of Polymers, 956. New York, NY: Springer New York, 2007. http://dx.doi.org/10.1007/978-0-387-30160-0_11392.

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„Correlated color temperature“. In Encyclopedic Dictionary of Polymers, 232. New York, NY: Springer New York, 2007. http://dx.doi.org/10.1007/978-0-387-30160-0_2905.

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„Correlated Color Temperatures“. In Encyclopedia of Color Science and Technology, 547. New York, NY: Springer New York, 2016. http://dx.doi.org/10.1007/978-1-4419-8071-7_100134.

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Konferenzberichte zum Thema "Correlated colour temperature"

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Kwak, Youngshin, Yoshi Ohno und Hyeyoung Ha. „VISION EXPERIMENT ON PERCEPTION OF CORRELATED COLOUR TEMPERATURE“. In CIE 2017 Midterm Meetings and Conference on Smarter Lighting for Better Life. International Commission on Illumination, CIE, 2018. http://dx.doi.org/10.25039/x44.2017.pp06.

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Oh, S., Y. Kwak und Y. Ohno. „VISION EXPERIMENT II ON PERCEPTION OF CORRELATED COLOUR TEMPERATURE“. In CIE Tutorials on Colorimetry and Visual Appearance. International Commission on Illumination (CIE), 2020. http://dx.doi.org/10.25039/x47.2020.op02.

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Mokran, Marek, und Lukas Lipnicky. „Photometric Parameters of LED Luminaires with Switchable Correlated Colour Temperature“. In 2018 VII. Lighting Conference of the Visegrad Countries (Lumen V4). IEEE, 2018. http://dx.doi.org/10.1109/lumenv.2018.8521078.

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Dong, LiLi, W. Stephen, P. Qianqian, Li Qin und Ming Ronnier Luo. „STUDY ON THE EFFECT OF LED'S CORRELATED COLOUR TEMPERATURE AND ILLUMINANCE ON MUSEUM LIGHTING“. In CIE 2017 Midterm Meetings and Conference on Smarter Lighting for Better Life. International Commission on Illumination, CIE, 2018. http://dx.doi.org/10.25039/x44.2017.po69.

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Chiong, Wan Long, Mohd Zubir Mat Jafri und Ahmad Fairuz Omar. „Influence of light emitting diode correlated colour temperature in visible spectroscopic observation of RGB samples“. In 2015 IEEE 3rd International Conference on Smart Instrumentation, Measurement and Applications (ICSIMA). IEEE, 2015. http://dx.doi.org/10.1109/icsima.2015.7559026.

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Yang, Steven, Brenda Lam und Y. C. Chau. „CALIBRATION OF TOTAL LUMINOUS FLUX, SPECTRAL RADIANT FLUX AND CORRELATED COLOUR TEMPERATURE OF LED LAMPS BY INTEGRATING SPHERE“. In CIE 2018. International Commission on Illumination, CIE, 2018. http://dx.doi.org/10.25039/x45.2018.po14.

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Iwata, Michico. „STUDY ON THE RELATIONSHIP BETWEEN PREFERRED ILLUMINANCE AND CORRELATED COLOUR TEMPERATURE OF LED LIGHTING FOR VISUALLY CHALLENGED PEOPLE - FOR FAMILY GATHERING -“. In Proceedings of the 29th Quadrennial Session of the CIE. International Commission on Illumination, CIE, 2019. http://dx.doi.org/10.25039/x46.2019.po015.

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Breniuc, Liviu, Cristian-Gyozo Haba, Catalin-Daniel Galatanu, Daniel Petrisor und Radu Hertanu. „Correlated Color Temperature Measuring and Adjustment System“. In 2019 11th International Symposium on Advanced Topics in Electrical Engineering (ATEE). IEEE, 2019. http://dx.doi.org/10.1109/atee.2019.8724926.

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Estrada-Hernández, A., I. Oidor und E. Rosas. „Correlated color temperature determination in FEL type incandescent lamps“. In Fifth Symposium, herausgegeben von Eric Rosas, Rocío Cardoso, Juan C. Bermudez und Oracio Barbosa-García. SPIE, 2006. http://dx.doi.org/10.1117/12.674595.

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Kim, Sang-Kyun, Du-Sik Park, Chang-Yeong Kim und Yang-Seock Seo. „Image browsing with perceptual classification of correlated color temperature“. In Electronic Imaging 2004, herausgegeben von Minerva M. Yeung, Rainer W. Lienhart und Chung-Sheng Li. SPIE, 2003. http://dx.doi.org/10.1117/12.527145.

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