A dimensionality reduction method to select the most representative daylight illuminance distributions

One challenge when evaluating daylight distribution is dealing with the large amount of temporal and spatial data, visualisations and variability in illuminances that are assessed in buildings. Using a dimensionality reduction method based on principal component analysis, we identified the most representative annual daylight distributions. We modelled a rectangular room containing an analysis grid of 3200 illuminance sensor points and simulated 3285 different temporal daylight conditions using an annual occupancy schedule ranging from 08:00 to 17:00 with one-hour sampling intervals in two locations: Singapore and Oakland, California. Our approach explained 98 % of the illuminance variability with three daylight distributions in Singapore, and 92 % using six in Oakland, California. Our dimensionality reduction strategy was also generalised using a complex building geometry showing the utility of the method. We think this approach can be used to provide a more efficient and reliable method to analyse daylight performance in building practice

Characteristics of flight simulator visual systems

The physical parameters of the flight simulator visual system that characterize the system and determine its fidelity are identified and defined. The characteristics of visual simulation systems are discussed in terms of the basic categories of spatial, energy, and temporal properties corresponding to the three fundamental quantities of length, mass, and time. Each of these parameters are further addressed in relation to its effect, its appropriate units or descriptors, methods of measurement, and its use or importance to image quality

Night rendering

Journal ArticleThe issues of realistically rendering naturally illuminated scenes at night are examined. This requires accurate models for moonlight, night skylight, and starlight. In addition, several issues in tone reproduction are discussed: eliminatiing high frequency information invisible to scotopic (night vision) observers; representing the flare lines around stars; determining the dominant hue for the displayed image. The lighting and tone reproduction are shown on a variety of models

Designing a dynamic fenestration to improve visual performance in educational spaces using daylight

This research studies the daylighting performance of diverse design prototypes of a classroom unit. The prototypes are suggested for high-performance approach that reflects a dynamic design, through the incorporation of daylight that will boost up the learning experience. Simulation is carried out using Radiance and Daysim for daylighting measurements and Evalglare for glare analysis. Window to Wall Ratio (WWR) and window-sill height are designed to provide the optimum daylight levels for students performing different educational tasks. These two variables are evaluated according to certain goals and within certain constraints to refine the optimum solution. The result of this research is a design of dynamic façade that opens and shuts in response to the illumination levels required by the task performed; such as traditional learning, discussion or computer activities. The function of the dynamic façade is to achieve uniform and sufficient daylight in the classroom to perform visual tasks with minimal discomfort caused by the glare

Museum Lighting - an holistic approach

Among the environmental parameters that effect exhibited artifacts, light is the most complex and the only essential for the observer as to appreciate the artifacts, thus being one of the most critical variables of art exposure. Research on strategies for energy saving and the renovation of light destined to Heritage is examined by daylight admission and Light-Emitting Diode (LED) technology. The extended review of the literature presented below, over museum lighting, evidenced the parallel advance of lighting principles with lighting design, concerning what determines visual quality and perception. Lighting quality is an interdisciplinaryfield of research affecting human activity and under a requested task, visual performance, while at the same time improving well-being. In this sense, the role of the lighting designer is to match and rank human needs with economic and environmental aspects as to architectural principles and to translate the results into a feasible design and an efficient installation. Quality factors for art exposure, involving color fidelity and damage, along with visual perception necessitate of useful metrics through established criteria. The challenge for the museum for a holistic design of natural and artificial light is still missing of substantial metrics, even though recent findings provide some insight on the workflow to establish. Luminance-based design metrics and contrast criteria are used in this study as key strategies for museum lighting, combining comfort and viewing fine arts through advanced computer rendering. The exploration of the transition inside a daylit gallery where moving in the museum environment offers an experience for a series of adaptation changes through photopic, mesopic and dark-adapted scotopic function, along with change on the sensitivity of the spectrum. The luminance appearance and the transition adaptation in the museum field lack of research examination; the relationship of prescriptive requirements and luminance- based design has been explored initially in the field of road lighting, where the relative visual performance has been evidenced to be in the center of the CIE standard for tunnel lighting. Daylight simulation via climate-based modeling, introducing daylight filters as solar shading devices, has been proposed as the object of experimental research, connecting light “filtering” with luminance; this workflow could be applied in several fields of research considering museum environment and give responses in the preservation of artwork involving daylight. The subject of this thesis is the proposal of a ‘trama’ surface installed on windows to reduce and control daylight, studying how energy and conservation targets can be achieved. New light sources and smart control systems will integrate to a holistic approach for museum lighting design

Light environment - A. Visible light. B. Ultraviolet light

Visible and ultraviolet light environment as related to human performance and safety during space mission

Daylighting as a Synthesis Tool in the Early Design Stage: An Integrated Daylighting Design Procedure for Configuration of Buildings

This study proposes an integrated design procedure with natural light for the development of the optimal configurations of buildings to achieve a satisfactory visual comfort level. Natural light has both psychological and physiological benefits to humans, which makes it a critical design factor for the built environment. There is a growing need of its effectual integration in the architectural design process today. The application of daylighting in current design practice has focused on an analysis of lighting quality in a single building during the post design phase. In order to satisfy and improve the level of visual comfort in a building, the investigation on how multiple buildings affect the lighting quality to each other should be conducted. The design rules 1 A systematic procedure of daylighting integration with multiple buildings in the early stage of design will allow designers to configure the design of multiple buildings for optimizing visual comfort. The proposed approach provides a procedure to integrate daylighting as a synthesis tool in the early architectural design stage to inform the relationship between buildings and visual comfort at an urban-scape. The procedure consists of the application of a 3D volumetric boundary and the design rules for configurations of buildings with various computational tools. The boundary is established through Climatic Envelope2, which clarifies an environmentally conscious design setting for architects. are developed and articulated through experimental research in 1) orientation of building growth pattern, 2) placement of buildings and 3) building form and size under two dominant sky conditions; clear and overcast. The integrated design procedure with natural light is investigated through two site studies, located in Honolulu, Hawaii and Seattle, Washington where two dominant sky conditions are represented. The intention of developing this procedure is to assist architects in the development of the initial configuration of buildings with the goal of optimizing visual comfort for users. 1 Steffy, 2002. 2 Mark DeKay, 2010

Lighting ambiances and materialities of wood in architecture : a comparative evaluation of the quality of spaces in relation to interior finishes

Le bois est un matériau souvent utilisé par les architectes pour améliorer l'ambiance générale d'un espace, mais peu de recherches en présentent l’impact réel du matériau sur les impressions visuelles et les effets lumineux. Cette recherche étudie l'influence de la matérialité du bois par rapport à la création d'ambiances d'éclairage spécifiques dans l'architecture. Plus particulièrement, elle se concentre sur l'impact des panneaux décoratifs en bois à générer de la diversité lumineuse dans les espaces intérieurs et son potentiel à améliorer la satisfaction environnementale et l'efficacité énergétique. La recherche utilise des maquettes à l’échelle pour leur précision dans la représentation des ambiances lumineuses d’espaces éclairés naturellement ainsi que les technologies récentes d'imagerie digitale pour capturer et analyser les résultats. La méthodologie permet la comparaison entre les différents réglages des espaces intérieurs créés par une sélection des types de matérialités du bois: la réflectance (valeur), la couleur et la réflectivité. Les modalités spatiales sont comparées en présence d’ensoleillement direct et sous des conditions de ciel couvert puisque les modèles d'éclairage et les ambiances diffèrent considérablement. Les résultats permettent d’établir une discussion sur les ambiances en termes de brillance et de contraste, sur la couleur ainsi que la répartition des zones lumineuses dans l'espace. La recherche souligne le rôle des matérialités que peuvent prendre le bois pour optimiser la diversité lumineuse et la création d'ambiances visuellement confortables, ainsi que ses possibilités d'améliorer les ambiances architecturales par rapport à la lumière.Wood is a material often used by architects to enhance the overall ambiance of a space but few research discuss its actual impact on visual impressions and luminous effects. This research studies the influence of wood materialities in relation to creating specific lighting ambiances in architecture. More particularly, it focuses on the impact of decorative wood indoor panels on the creation of daylighting diversity in interior spaces and the potential to improve environmental satisfaction and energy efficiency. The research uses scale models for their accuracy in rendering complex daylighting ambiances in conjunction with the latest imaging technologies to capture and analyze the results. The methodology enables the comparison between different settings of interior spaces created by a selection of wood type materialities: ratio (percentage), color and gloss. Spatial modalities are compared in the presence of direct sunlighting and diffuse skylight conditions since lighting patterns and ambiances differ considerably. The results enable a discussion of ambiances in terms of brightness and contrast, color, as well as the luminous distribution in the space. The research underlines roles of wood materialities to achieve luminous diversity and creating visually comfortable interior ambiances as well as its opportunities to enhance architectural ambiances in relation to light