Determination and Measurement of Melanopic Equivalent Daylight (D65) Illuminance (mEDI) in the Context of Smart and Integrative Lighting


Abstract

Summary:

This paper discusses the development of a computational model for determining and measuring melanopic equivalent daylight (mEDI) and melanopic daylight (D65) efficacy ratio (mDER) in the context of smart and integrative lighting systems, using RGB sensors.
Categories

Categories

  • Lighting Design Considerations: The paper discusses the development of a computational model for determining and measuring melanopic equivalent daylight (mEDI) and melanopic daylight (D65) efficacy ratio (mDER) in the context of smart and integrative lighting systems.
  • Alertness and performance: The paper mentions the non-visual effects of light, such as alertness, as a consideration in the development of the computational model.
  • Cognitive function and memory: The paper discusses the role of retinal ganglion cells, which are involved in cognitive function, in the non-visual effects of light.
  • Education and learning: The paper mentions the importance of lighting in educational facilities as a consideration in the development of the computational model.
  • Well-being: The paper discusses the potential benefits of optimized lighting for human well-being.
Authors

Author(s)

VQ Trinh, P Bodrogi, TQ Khanh
Publication Date

Publication Year:

2023
Citations

Number of Citations:

1
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