EMPIR 20NRM01 MetTLM - Metrology for Temporal Light Modulation

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Published July 4, 2024 | Version v1
Dataset Open

MetTLM 20NRM01 TU/e Dataset: Dependence of Temporal Frequency and Chromaticity on the Visibility of the Phantom Array Effect

Creators

  • 1. ROR icon Eindhoven University of Technology
  • 2. ROR icon Centre Scientifique et Technique du Bâtiment
  • 3. ROR icon RISE Research Institutes of Sweden

Description

The dataset has the following format: 20 (Participants) by 18 (= 3 Chromaticities × 6 Temporal Frequencies)

Chromaticities:              Red (R); Green (G); Warm White (W)

Temporal Frequencies: F1 = 80 Hz; F2 = 300 Hz; F3 = 600 Hz; F4 = 900 Hz; F5 = 1200 Hz; F6 = 1800 Hz.

 

 R

F1

R

F2

R

F3

R

F4

R

F5

R

F6

G

F1

G

F2

G

F3

G

F4

G

F5

G

F6

W

F1

W

F2

W

F3

W

F4

W

F5

W

F6
P01                                    
P02                                    
P03                                    
P04                                    
...                                    
P19                                    
P20                                    

Due to the fractional factorial 3 (colour) × 6 (temporal frequency) mixed design, there are some empty cells. The details are described in Table 2 of the publication.

The values in the table represent the visibility thresholds in Modulation Depth (MD). For example, the values of 0.05, 0.1, and 1 means a MD of 5%, 10% and 100% respectively.



Other (English)

This MATLAB code can be used to generate Figure 4 (together with printing out the coefficients and goodness-of-fits) in the publication:

Dependence of Temporal Frequency and Chromaticity on the Visibility of the Phantom Array Effect


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% Programmer:         Xiangzhen Kong (x.kong@tue.nl)                             
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% Created on:           July 04, 2023                                                               
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% Test environment:                                                                                     
%                               MATLAB R2024a                                                         
%                               Windows 10 Enterprise (Version 22H2)                      
% Licence:                 CC BY-NC                                                                    
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Notes (English)

This study was part of the HTI (Human-Technology Interaction) Research Project and was partially supported by the Human-Technology Interaction (HTI) group at Eindhoven University of Technology (TU/e).

In addition, the study was executed within the MetTLM-project (i.e,   Metrology for Temporal Light Modulation; 20NRM01) and received funding from the EMPIR (European Metrology Programme for Innovation and Research) programme co-financed by the Participating States and from the European Union's Horizon 2020 research and innovation programme.

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Additional details

Related works

Is supplement to
Conference paper: 10.25039/x50.2023.OP060 (DOI)

Software

Programming language
MATLAB