What factors affect the effectiveness of indoor lighting in creating a uniform, no glare environment?
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The effectiveness of indoor lighting in creating a uniform, glare-free environment is influenced by various factors. Factors such as the arrangement of light sources, selection of optical spectra, and the reflective properties of indoor surfaces play crucial roles. Additionally, the use of light transmission tubes can significantly enhance light distribution and reduce glare formation, especially under inclined incident light angles. Moreover, the selection of iterative functions, dimension of light sources, and target error coefficient in optimization algorithms impact the energy-saving ability and accuracy of indoor illumination control systems. Furthermore, the type of light source spectrum, lens number, and lens thickness error in active illumination systems can affect illumination uniformity. Overall, a combination of these factors contributes to achieving optimal indoor lighting conditions with uniformity and minimal glare.
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3 Citations | Illuminance, correlated color temperature (CCT), and illuminance uniformity significantly influence satisfaction in indoor lighting environments, particularly in visual task scenarios, as shown in the study. |
| Factors impacting indoor lighting uniformity are laser spectrum style (not crucial), lens number of ladderlike phase modulator (LPM), and LPM lens thickness error. Optimizing these factors enhances illumination uniformity. | |
| The light distribution of LED luminaires and the reflectance of room surfaces significantly impact indoor lighting effectiveness by influencing illumination levels, uniformity, and glare. | |
| Factors affecting indoor lighting effectiveness include sunlight variations, WLED matrix arrangement, optical spectra selection, iterative functions, and error coefficient. These impact emission uniformity, energy saving, and optimization accuracy. | |
| Factors affecting indoor lighting effectiveness for uniform, glare-free environments include proper diffuser material for windows, light pipe usage, incident light angles, and flooring materials, as per the study findings. |
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