diff --git a/docs/energy-module-overview.rst b/docs/energy-module-overview.rst index 68a2cf2..c5abab3 100644 --- a/docs/energy-module-overview.rst +++ b/docs/energy-module-overview.rst @@ -52,4 +52,4 @@ First your building envelope is subdivided into floor volumes according to your This radiation data as well as the basic facade surface orientation are then used to cluster facade regions of each building by solar micro climate similarity - see :numref:`figure_3` for an example. Each color represents a cluster. The number of clusters is a user setting and can be specified for each orientation (a typical cluster count per facade is two). -The Shoeboxer then assigns an area weight to each cluster centroid. This centroid is then also the location for a shoebox model that then represent the cluster. See :numref:`figure_4`. Each Shoebox or Cluster is written out as IDF file and is simulated with EnergyPlus. The final simulation step is to gather all shoebox data and aggregate the building result. For further details regarding the method please refer to the `reference paper `_. +The Shoeboxer then assigns an area weight to each cluster centroid. This centroid is then also the location for a shoebox model that then represent the cluster. See :numref:`figure_4`. Each Shoebox or Cluster is written out as IDF file and is simulated with EnergyPlus. The final simulation step is to gather all shoebox data and aggregate the building result. For further details regarding the method please refer to the `reference paper `_ or the `overview presented at BS2013 `_.