| 1 |
A novel method for fast sky conditions identification from global solar radiation measurements
Lou SW, Huang Y, Li DHW, Xia DW, Zhou XQ, Zhao Y
Renewable Energy, 161, 77, 2020 |
| 2 |
The sky characterization according to the CIE Standard General Sky: Comparative analysis of three classification methods
Garcia I, de Blas M, Torres JL
Solar Energy, 196, 468, 2020 |
| 3 |
Identifying overcast, partly cloudy and clear skies by illuminance fluctuations
Lou SW, Li DHW, Chen WQ
Renewable Energy, 138, 198, 2019 |
| 4 |
Seasonal caracterization of CIE standard sky types above Burgos, northwestern Spain
Suarez-Garcia A, Granados-Lopez D, Gonzalez-Pena D, Diez-Mediavilla M, Alonso-Tristan C
Solar Energy, 169, 24, 2018 |
| 5 |
An HDRi-based data acquisition system for the exterior luminous environment in the daylight simulation model
Chiou YS, Huang PC
Solar Energy, 111, 104, 2015 |
| 6 |
Tracing of daylight through circular light pipes with anidolic concentrators
Taengchum T, Chirarattananon S, Exell RHB, Chaiwiwatworakul P
Solar Energy, 110, 818, 2014 |
| 7 |
Analysis of sky luminance experimental data and comparison with calculation methods
Ferraro V, Mele M, Marinelli V
Energy, 37(1), 287, 2012 |
| 8 |
Estimation of sky luminance in the tropics using artificial neural networks: Modeling and performance comparison with the CIE model
Janjai S, Plaon P
Applied Energy, 88(3), 840, 2011 |
| 9 |
CIE standard sky model with reduced number of scaling parameters
Kocifaj M
Solar Energy, 85(3), 553, 2011 |
| 10 |
Theoretical solution for light transmission of a bended hollow light guide
Kocifaj M, Kundracik F, Darula S, Kittler R
Solar Energy, 84(8), 1422, 2010 |
