本文对固定-外部-可移动-内部悬挑/灯架组合系统对建筑物热性能的影响进行了全面的模拟研究，并结合了视窗（主窗）中的受控卷帘。这种先进的系统消除了眩光，并在必要时防止过度的太阳能增益，同时仍允许自然光进入建筑物。本研究主要研究以下参数的影响:外部悬挑几何结构、位置和表面反射率； 车内灯架位置、透光率、反射率和倾斜角度；以及卷帘控制模式和太阳能光学特性。用有限差分法显式求解的分析热网络（热平衡）方法用于量化上述参数对建筑物全年热负荷的影响。通过对所研究变量的参数分析，可以选择悬挑和灯架特性，以减少建筑能源需求。 引文:伊利诺伊州芝加哥ASHRAE会议论文

This paper presents a comprehensive simulation study about the impact of a combined fixed exterior-movable interior overhang/light-shelf system on the thermal performance of buildings, in conjunction with controlled roller shades in the view aperture (main window). This advanced system eliminates glare and protects from excessive solar gains when necessary, while it still allows natural light into the building. The study focuses on the impact of the following parameters: exterior overhang geometry, position and surface reflectance; interior light-shelf position, transmittance, reflectance and tilt angle; and roller shade control modes and solar-optical properties. An analytical thermal network (heat balance) approach, solved explicitly with the finite difference method is used to quantify the impact of the above parameters on the building's thermal loads throughout the year. A parametric analysis of the studied variables allows for selection of overhang and light shelf characteristics in order to reduce building energy demand.