This paper presents a daylight-responsive predictive lighting and shading systems control in buildings that makes use of real-time sensing and lighting simulation. This system can control the position of window blinds and the status of the luminaires. Specifically, the paper compares the performance of this predictive simulation-based lighting and shading systems control method with five other – more conventional – control methods. All six options are virtually implemented and tested in an office building. The performance comparison considers electrical energy use for lighting as well as visual performance criteria (illuminance, UGR). The results of the virtual implementation and comparison of these control methods demonstrate the signific...
Whilst simulation techniques for predicting building performance are maturing, questions still arise...
This paper presents a mathematical model linking the energy demand for lighting for a room, expresse...
It is well known that an appropriate daylighting design can influence the global energy performance ...
ABSTRACT: We present a prototypical implementation of an energy-efficient daylight-responsive lighti...
Fenestration properties and controls affect energy use and comfort conditions in building perimeter ...
This study aims to encourage a wider usage of daylighting design features in office buildings. The t...
Behavioural models derived from on-going field studies can provide the basis for predicting personal...
We present a prototypically implemented and empirically tested daylight-responsive lighting systems ...
During the last quarter of the 20th-century and early years of this century, architects and designer...
This study investigates control strategies for coordinating the variable solar-optical properties of...
The unreliability of photosensor-based lighting controlscontinues to be a significant market barrier...
Lighting is significant built environment design criteria, and architects or designers always keen t...
Heating, cooling and lighting are the dominant sectors of energy consumption in commercial buildings...
This paper presents a simulation-assisted daylight-responsive illumination control system. The contr...
Fenestration systems are estimated to be responsible for 1,790 PJ of primary energy consumption annu...
Whilst simulation techniques for predicting building performance are maturing, questions still arise...
This paper presents a mathematical model linking the energy demand for lighting for a room, expresse...
It is well known that an appropriate daylighting design can influence the global energy performance ...
ABSTRACT: We present a prototypical implementation of an energy-efficient daylight-responsive lighti...
Fenestration properties and controls affect energy use and comfort conditions in building perimeter ...
This study aims to encourage a wider usage of daylighting design features in office buildings. The t...
Behavioural models derived from on-going field studies can provide the basis for predicting personal...
We present a prototypically implemented and empirically tested daylight-responsive lighting systems ...
During the last quarter of the 20th-century and early years of this century, architects and designer...
This study investigates control strategies for coordinating the variable solar-optical properties of...
The unreliability of photosensor-based lighting controlscontinues to be a significant market barrier...
Lighting is significant built environment design criteria, and architects or designers always keen t...
Heating, cooling and lighting are the dominant sectors of energy consumption in commercial buildings...
This paper presents a simulation-assisted daylight-responsive illumination control system. The contr...
Fenestration systems are estimated to be responsible for 1,790 PJ of primary energy consumption annu...
Whilst simulation techniques for predicting building performance are maturing, questions still arise...
This paper presents a mathematical model linking the energy demand for lighting for a room, expresse...
It is well known that an appropriate daylighting design can influence the global energy performance ...