This dataset contains the following data: dfRaw.csv: the initial data for LiDICS method, dfRes.csv: the result data of the LiDICS routines, plotSIOP-Folder: the interactive 3D plots of the raw data points and the solar incidence operators, name convention: "plotSIOP_" + qStr + "_" + ud + ".html" with the quantity name qStr and the discrete facade input point ud, webApps-Folder: wpi (workplane illuminance), dgps (simplified daylight glare probability, shg (solar heat gain), SensorPositions.csv: the positions of the illuminance sensors on the workplane and eye level
Weber, Simon/University of Stuttgart, Institute for Acoustics and Building Physics, Fang, Yuan/Fraunhofer Institute for Building Physics, Rüdisser, Daniel/HTflux Engineering GmbH, Leistner, Philip/University of Stuttgart, Institute for Acoustics and Building Physics
%0 Generic
%1 weber2024replication
%A Weber, Simon
%A Fang, Yuan
%A Rüdisser, Daniel
%A Leistner, Philip
%D 2024
%K darus mult ubs_10002 ubs_10018 ubs_20002 ubs_20023 ubs_30178 ubs_30199 ubs_40298 unibibliografie
%R 10.18419/darus-4107
%T Replication Data for: "LiDICS: A Light Dynamics Interface for Multi-domain Simulation based on the FMI-Standard"
%X This dataset contains the following data: dfRaw.csv: the initial data for LiDICS method, dfRes.csv: the result data of the LiDICS routines, plotSIOP-Folder: the interactive 3D plots of the raw data points and the solar incidence operators, name convention: "plotSIOP_" + qStr + "_" + ud + ".html" with the quantity name qStr and the discrete facade input point ud, webApps-Folder: wpi (workplane illuminance), dgps (simplified daylight glare probability, shg (solar heat gain), SensorPositions.csv: the positions of the illuminance sensors on the workplane and eye level
@misc{weber2024replication,
abstract = {This dataset contains the following data: dfRaw.csv: the initial data for LiDICS method, dfRes.csv: the result data of the LiDICS routines, plotSIOP-Folder: the interactive 3D plots of the raw data points and the solar incidence operators, name convention: "plotSIOP_" + qStr + "_" + ud + ".html" with the quantity name qStr and the discrete facade input point ud, webApps-Folder: wpi (workplane illuminance), dgps (simplified daylight glare probability, shg (solar heat gain), SensorPositions.csv: the positions of the illuminance sensors on the workplane and eye level },
added-at = {2024-04-02T16:47:17.000+0200},
affiliation = {Weber, Simon/University of Stuttgart, Institute for Acoustics and Building Physics, Fang, Yuan/Fraunhofer Institute for Building Physics, Rüdisser, Daniel/HTflux Engineering GmbH, Leistner, Philip/University of Stuttgart, Institute for Acoustics and Building Physics},
author = {Weber, Simon and Fang, Yuan and Rüdisser, Daniel and Leistner, Philip},
biburl = {https://puma.ub.uni-stuttgart.de/bibtex/26e7b9ca27e6508226b60b3709586142f/unibiblio},
doi = {10.18419/darus-4107},
howpublished = {Dataset},
interhash = {3899adcd241d35ba176854b81a420c35},
intrahash = {6e7b9ca27e6508226b60b3709586142f},
keywords = {darus mult ubs_10002 ubs_10018 ubs_20002 ubs_20023 ubs_30178 ubs_30199 ubs_40298 unibibliografie},
orcid-numbers = {Weber, Simon/0000-0002-6268-8547, Fang, Yuan/0009-0005-2489-9334, Rüdisser, Daniel/0000-0003-3208-7481, Leistner, Philip/0000-0001-7393-9754},
timestamp = {2024-04-02T16:47:17.000+0200},
title = {Replication Data for: "LiDICS: A Light Dynamics Interface for Multi-domain Simulation based on the FMI-Standard"},
year = 2024
}