The metamorphosis of feelings: Approaching a sensorial visual design based on audible perceptions

Gallardo Yébenes, Daniel

January 2018

Atmospheres, events, feelings, every sensation has its own music. And the human being has been highly educated to feel the glamour of them through the hearing sense. We know how a terrifying situation sounds like; what would be the musical accompaniment for a warzone scenario or what is the perfect piece for getting into a state of relaxation. Thanks to music design it has been possible to immerse the spectator into a deeper sensorial perception experience. Users close their eyes, and feel. What if we close our ears, and feel? This thesis aims to transport the qualities of sound that produces feelings into people, to visual values communicated by an approach to architectural lighting design into architectural spaces. A music example is chosen according to the intended emotion to be transposed. It is analysed, evaluated and related to a series of theoretical fundamentals based on visual psychology, human experience, multisensorial connections and lighting design. Laws of correlation are stablished and applied to a case study which ends as a theoretical concept design of an architectural lighting design installation. Closing the document, a statement of guidelines for the conversion of subjective emotional qualities perceived from musical examples is stablished and discussed the use of it in architecture.

Transposition of feelings

Sound and light

Multi-sensorial design

Visual spaces

Light and feelings

Human perception

Lighting design

Lighting tools

Transformación de sentimientos

Sonido y luz

Diseño multisensorial

Espacios visuales

Luz y sentimientos

Percepción humana

Diseño de iluminación

Herramientas de iluminación

Architecture

Arkitektur

The Value of Light in Contemporary Memorials : Understanding the needs of contemporary memorials and how they can be accomplished with light. Proposal of a light installation for commemorating the 1989 acticommunist Revolution in Timisoara.

Tripsa, Silvia Casandra

January 2018

The master thesis is a research about the relationship between memorials and light. It first studies the characteristics of cultural memories and tries to find what the advantages of using lighting as a means of commemoration are. The nowadays memorials are very different compared to the traditional monuments and they should include a changing narrative, treating local and universal messages. They should involve the public.A contemporary memorial is ephemeral and continuously changing- the same as light is.A series of contemporary memorials have been selected to understand the tools that makes them successful. Furthermore, it was analyzed how these parameters could be achieved through light. 12 memorials that use light as an eloquent tool have been interpreted according to certain criteria.The second part of the thesis is an applied project related to the events that happened in Timisoara, Romania, in 1989 during the anticommunist Revolution. The process of creating memorials for Timisoara is a key focus of the study. The development is equally important as the end result. It searches for the significant messages and lessons of the event. Testimonials of the participants to the revolution have been studied. Interviews and questionnaires have been developed. Following this, significant places in the city and messages were chosen. The research will conclude with a lighting installations project proposal.

collective memory

contemporary memorial

memories

light in memorials

symbols

emotions

interactivity

empathy

archive

counter-monument

victims

solidarity

accumulation of energy

courage

social engagement

interaction

reflection

city mapping

light art

outdoor light installation

urban lighting

sculptural lighting.

Design

Design

Incorporating new age technology into campus lighting

Matlack, Daniel W.

January 1900

Master of Science / Department of Architectural Engineering and Construction Science / Raphael A. Yunk / Sustainable design and green engineering practices have become a priority in the architectural design industry over the past few years. Energy codes and standards have become more stringent as energy costs rise and buildings become larger, consuming more energy and having a larger impact on the environment. One major area for improvement to meet these new requirements is in the lighting area. Kansas State University (KSU) in Manhattan, KS has had the same campus walkway lighting system for over 50 years and it does not meet the current energy codes and standards. This paper will perform a case study of the current walkway lighting system on the KSU campus, specifically focusing on the Quad area and applying the same principles to the entire campus. The illumination and fixture distribution characteristics will first be established and analyzed to determine an accurate baseline for later comparison. Issues regarding the illumination, efficiency, aesthetics, maintenance, and landscaping will be addressed once the current conditions are established. Lighting technology has changed dramatically in the past year with the development of high efficiency fluorescent, induction, and light emitting diode (LED) lighting. New LED technology has proven to be the most efficient and has been adapted to create outdoor LED fixtures that could help KSU surpass the current energy standards and improve the overall quality of light to correct some of the current issues the existing lighting creates. A full analysis of the illumination, efficiency, aesthetics, and economic feasibility will be performed. The economic analysis will compare existing maintenance and energy costs to that of the first-cost with maintenance, and energy costs to determine an estimated payback. Once the analysis is complete, future options for KSU to implement new lighting technology will be discussed. By creating a more environmentally conscious campus, using high efficiency lighting, KSU could set an example for other universities to pursue sustainable technology and design.

Light Emitting Diode- LED

Campus lighting

Scotopic

Photopic

Light Loss Factor-LLF

Sustainable

Architecture (0729)

High-performance organic light-emitting diodes for flexible and wearable electronics

Gaj, Michael Peter

27 May 2016

Optoelectronic devices based on organic semiconductors have been the focus of increasing research over the past two decades. While many of the potential organic electronic concepts (solar cells, transistors, detectors etc.) are still in their infancy stage, organic light-emitting diodes have gained commercial acceptance for their potential in high resolution displays and solid-state lighting. However, in order for these devices to reach their full potential significant advances need to make to address their fundamental limitations, specifically: device life-time, thin-film encapsulation and scalability to a high volume manufacturing setting. The work presented in this thesis demonstrates new strategies to design and manufacture high-performance OLEDs for next generation electronics. In the first part, high-performance OLEDS using a simple three-layer organic semiconductor device structure are demonstrated. These devices utilize two novel materials (Poly-TriCZ and mCPSOB) to achieve efficient charge balance and exciton confinement in the emissive region of the device. Moreover, the electrical properties of these materials allow them to serve as a suitable ‘universal’ material combination to yield high-performance OLEDs with high-energy phosphors (i.e. blue- or deep-blue-emitting dopants). To demonstrate this feature, green- and blue-emitting OLED results are provided that define the state-of-the-art for phosphorescent OLEDs. These results are then extended to show high-performance with a new set of high-efficiency blue- and green-emitting dopants based on thermally activated delayed fluorescence (TADF), which also proceed to define the state-of-the-art in electroluminescence from TADF. The second part of this thesis continues this work and extends the results to a new class of polymeric substrates, called shape memory polymers (SMPs). SMPs provide a new alternative to flexible, polymeric substrates due to their unique mechanical properties. When an external stimuli is applied to these materials (heat), they have the ability to form a temporary phase that has a Young’s modulus orders of magnitude lower than its original state. The material can then be re- shaped, deformed or conform to any object until the stimuli is removed, at which point the Young’s modulus returns to its original state and the temporary geometric configuration is retained. Re-applying the stimulus will trigger a response in its molecular network, which induces a recovery of its original shape. By using mCPSOB in an inverted top-emitting OLED architecture, high performance green-emitting OLEDs are demonstrated on SMP substrates that define the state-of-the-art in performance for deformable light-emitting devices. The combination of the unique properties of SMP substrates with the light-emitting properties of OLEDs pave to the way for new class of applications, including conformable smart skin devices, minimally invasive biomedical devices, and flexible lighting/display technologies.

Organic light-emitting diodes

OLED

Optics

Diodes

Microelectronics

Nanoelectronics

Engineering

Electrical engineering

Materials engineering

Wearable

Electronics

Displays

Lighting

不同光源環境下的即時膚色辨識 / Real-Time Skin Color Detection in Various Lighting Conditions

紀煜豪, Chi, Yu-Hao

Unknown Date

在不同的光源環境下，顏色的資訊會隨著環境而改變，因此要做到穩定的膚色辨識並不容易。先前的研究指出，人類的膚色大致上可歸納於特定顏色座標系統中的一段範圍內。但是根據我們的實驗，這段範圍會隨著環境光源的改變而產生偏移，因此運用相同的標準，無法在不同的場景下做到準確的膚色辨識與切割。針對這個議題，我們提出利用影像中非色彩的資訊，找出最符合膚色的範圍。具體來說，借重臉部偵測獨立於色度的特性，我們使用臉部偵測的結果，做為調整膚色範圍的依據。實驗所得到的辨識結果，效能與效率都足以運用在以視覺為基礎的人機介面，例如手部與指尖偵測。 / Robust detection of skin color is a difficult task since color information changes under different lighting conditions. Previous research indicated that human skin color is restricted to a small range of values in certain color coordinate systems. However, the ranges tend to shift with varying illumination according to our experiments. It is therefore unattainable to derive a universal standard for skin color detection and segmentation for general scenes. To address this issue, we propose to use achromatic features to identify the proper ranges of skin color in an image. Specifically, we utilize the result of face detection, which is independent of chromatic properties, to guide the process of skin color range selection. Experimental results have validated the efficacy and efficiency of the proposed methodology for vision-based human-computer interface such as hand and finger detection.

即時

膚色辨識

不同光源環境

Real-Time

Skin Color Detection

Various Lighting Conditions

Incandescent light power efficiency: an impact study on the power consumption of the Vaal University of Technology's light sources

Adeniyi, A. O.

12 1900

M. Tech. (Power Engineering, Faculty of Engineering and Technology), Vaal University of Technology / In view of the energy consumption problems, an impact study, extensive laboratory tests and an investigation towards comparable energy saving light sources was carried out on the light sources identified in the survey conducted at the Vaal University of Technology (VUT), Vanderbijlpark campus. Three types of identified incandescent light sources were purchased and extensively tested in order to obtain viable statistical data on the life span, luminance delivered per unit, power consumption and economic effect, as well as identifying relevant energy efficient light sources for replacement purposes. A suitable computerised maintenance program has been developed to be introduced to the VUT that currently does not have a lighting system maintenance program. The case study was located within the empirical-analytical paradigm, using quantitative data. The identified aims and goals place the empirical part of the study in the category of implementation evaluation research that provides an overview of a maintenance plan.

Incandescent light sources

Energy consumption

Electrical maintenance plan

Light energy

621.326

Lighting -- Environmental aspects

Electricity -- Consumption

Energy conservation

Utilizing Virtual Simulation Technology to Increase Implementation of Safe Aging in Place Modifications

Denise M Wilder (7042886)

02 August 2019

<p>Dedicated industry professionals from design, construction, and health care are working to provide attractive, constructible, functional and safe home modifications for aging in place. The commitment is to keep senior members of local communities in the homes they love, rather than to segregate them into big box retirement communities. This study explores the confidence level of both individuals interested in aging place for themselves and their friends and family members in aging in place modifications. In additions to those interested in aging in place for themselves and their friends and family members, invested professionals from design, construction and health care are surveyed to measure their confidence in common modifications. A 3d walkthrough is tested to investigate if confidence levels increase with the use of a walkthrough to communicate recommended modifications. <br></p><p> Friends and family members of those intending to age in place were significantly more concerned about the safety of their aging person, than the aging person themselves. Those friends and family members were also more impacted by viewing the video walkthrough than any of the other groups. </p>

Aging in Place

Aging in Place Modifications

Construction Remodelling

Virtual Simulation

Caractérisation multispectrale imageante du champ de lumière de sources et de matériaux pour la photosimulation / Multispectral imaging assesment of sources and materials for photosimulation

Boulenguez, Pierre

04 January 2010

Dans l'ouvrage [DBB06], Dutré et al. énumèrent dix problèmes d'Illumination Globale non résolus. Parmi ceux-ci, huit sont liés à la mesure et à l'intégration de données réelles dans les simulations. Cette thèse, en quatre parties et trois annexes, s'intéresse à cette problématique. Tout d'abord, les simulations de la propagation de la lumière dans les domaines du rendu physiquement réaliste, de l'éclairage, de la télédétection, de la conception de systèmes optiques... sont envisagées comme résolutions numériques d'un problème d'optique, fédérées par la notion de « photosimulation ». Dans le cadre de l'équation de rendu, les modèles réalistes de sources et le principe de la mesure goniophotométrique en champ lointain sont alors rappelés. La représentation des interactions lumière-matière est ensuite introduite par une exploration de l'apparence macroscopique, qui amène au rappel de la Fonction de Distribution de la Réflectance Bidirectionnelle et Spectrale (SBRDF), de ses principales propriétés et modèles. Le problème de la mesure pratique de la SBRDF d'une surface dans le visible est ensuite exploré. Id est, une taxonomie des méthodes de la littérature est établie ; qui allègue en faveur du développement de nouvelles approches. Un dispositif innovant, multispectral imageant, est alors présenté. Il se fonde sur la capture de la projection de la SBRDF sur un écran lambertien 3/4-sphérique, par une caméra multispectrale grand angle, assemblage d'un objectif fisheye, d'un filtre dynamique LCTF et d'une caméra CCD 12 bits. L'extraction des images capturées de l'information de la SBRDF repose sur un modéle radiométrique, qui explicite la transformation de la lumière en niveaux des pixels, dans le formalisme physique. Ce modèle soulève des problèmes de reconstruction multispectrale et d'interréflexions, pour lesquels de nouveaux algorithmes de résolution sont implantés. Les mesures de SBRDF produites semblent très prometteuses. Dans la troisième partie, le problème de la reconstruction d'une fonction directionnelle, identifié comme fondamental en photosimulation, est traité dans le cadre de la reconstruction de SBRDF discrètes. Pour cela, les propriétés mathématiques souhaitables des fonctions reconstruites sont envisagées. Puis, à l'aune de ce corpus, les approches de la littérature sont discutées ; justifiant la recherche d'algorithmes plus performants. Une nouvelle méthode est alors proposée, fondée sur une double triangulation sphérique des échantillons, et une généralisation à la surface d'un triangle sphérique de l'interpolant spline cubique de Hermite. La fonction reconstruite est interpolante, dérivable, quasi-déterministe, ne présente pas l'artéfact bidirectionnel, intègre la métrique sphérique non euclidienne, et prend en compte le difficile problème du masquage. Qualitativement comme quantitativement, les résultats obtenus semblent plaider en faveur du surcroît de complexité théorique qu'induit cette approche. Dans la dernière partie, cet algorithme de reconstruction est appliqué au problème de la « photométrie en champ proche », ou, la caractérisation d'une source réelle par un solide photométrique étendu. La supériorité théorique du modèle étendu est d'abord démontrée. Puis, un état de l'art de la photométrie en champ proche est réalisé ; justifiant la mise en œuvre d'une nouvelle approche. Un nouveau dispositif est alors présenté. Il repose sur le déplacement d'un vidéoluminancemètre, couplage original d'une caméra CCD 12 bits avec un luxmètre, le long d'une trajectoire hémisphérique relative à la source. Les procédures de calibrage de l'instrument – géométrique, radiométrique, et photométrique – sont explicitées. Les sources de lumière caractérisées par cette approche ont été jugées suffisamment probantes pour être intégrées aux photosimulations spectrales du CSTB / Pas de résumé en anglais

Éclairage

Synthèse d'images

Télédétection

Interpolation

Photométrie

Photographie multibande

Spectroscopie de réflectance

Lighting

Image synthesis

Remote sensing

Photometry

Multispectral imaging

Desenvolvimento e aplicação do índice de desempenho energético da iluminação pública utilizando lógica nebulosa: estudo de caso da Cidade Universitária \"Armando de Salles Oliveira\" da Universidade de São Paulo. / Development and application of energy performance index of public lighting using fuzzy logic: a case study of University City \"Armando de Salles Oliveira\" of the Universidade de São Paulo.

Dantas, César Augusto Palacio

04 November 2015

A eficiência e a racionalidade energética da iluminação pública têm relevante importância no sistema elétrico, porque contribui para diminuir a necessidade de investimentos na construção de novas fontes geradoras de energia elétrica e nos desperdícios energéticos. Apresenta-se como objetivo deste trabalho de pesquisa o desenvolvimento e aplicação do IDE (índice de desempenho energético), fundamentado no sistema de inferência nebulosa e indicadores de eficiência e racionalidade de uso da energia elétrica. A opção em utilizar a inferência nebulosa deve-se aos fatos de sua capacidade de reproduzir parte do raciocínio humano, e estabelecer relação entre a diversidade de indicadores envolvidos. Para a consecução do sistema de inferência nebulosa, foram definidas como variáveis de entrada: os indicadores de eficiência e racionalidade; o método de inferência foi baseado em regras produzidas por especialista em iluminação pública, e como saída um número real que caracteriza o IDE. Os indicadores de eficiência e racionalidade são divididos em duas classes: globais e específicos. Os indicadores globais são: FP (fator de potência), FC (fator de carga) e FD (fator de demanda). Os indicadores específicos são: FU (fator de utilização), ICA (consumo de energia por área iluminada), IE (intensidade energética) e IL (intensidade de iluminação natural). Para a aplicação deste trabalho, foi selecionada e caracterizada a iluminação pública da Cidade Universitária \"Armando de Salles Oliveira\" da Universidade de São Paulo. Sendo assim, o gestor do sistema de iluminação, a partir do índice desenvolvido neste trabalho, dispõe de condições para avaliar o uso da energia elétrica e, desta forma, elaborar e simular estratégias com o objetivo de economizá-la. / The energy efficiency and rationality of public lighting have great importance in the electrical system, because it contributes to reduce the need for investment in building new sources of power and energy waste. It presented as objective of this work research development and application of IDE (Energy Performance Index), based on the fuzzy inference system and indicators of efficiency and rationality of use of electricity. The option to use the fuzzy inference is due to the facts of his ability to play part of human reasoning, and establish the relationship between indicators of diversity involved. To achieve the fuzzy inference system, it was defined as input variables: the efficiency and rationality indicators; the inference rules-based method was produced by expert in public lighting and as output a real number that characterizes the IDE. Efficiency and rationality indicators are divided into two classes: global and specific. The global indicators are: PF (power factor), FC (load factor) and FD (demand factor). Specific indicators are: FU (utilization factor), ICA (energy consumption per lit area), IE (energy intensity) and IL (daylight intensity). For the application of this work was selected and characterized the public lighting of the University City \"Armando de Salles Oliveira\" the University of São Paulo. Thus, the lighting system manager from the index developed in this work, have conditions to evaluate the use of electricity and thus prepare and simulate strategies in order to save it.

Efficiency and rationality

Eficiência e racionalidade energética

Electricity

Energia elétrica (Eficiência)

Fuzzy inference system

Iluminação pública

Lighting

Sistema de inferência nebulosa

Supplemental LED interlighting on the physiological response and yield of mini-cucumber / Suplementação luminosa com LED na resposta fisiológica e produtiva de plantas de minipepino

Quesada Roldán, Gustavo Alberto

27 November 2017

On the protected horticultural industry, the artificial lighting is a common practice under reduced natural light radiation or self-shading of the leaves at lower canopies. Those conditions affect the photosynthetic activity and the yield is limited. In the last decade, the use of lamps with LED technology for supplemental lighting has increased on high-latitude countries. LED lights are more energy efficient and have lower power consumption. On these lamps is possible to regulate the intensity (quantity) and the radiation (quality) on the ideal range of light spectrum in order to convert the luminous energy into chemical energy. Not reports of use of this technology were found at the tropics. Thus, the objective of this work was to evaluate physiological parameters related with the photosynthetic activity and the yield on mini-cucumber plants grown on protected environment with supplemental LED interlighting. At Piracicaba (Sao Paulo), Brazil, three experiments were conducted on LED interlighting equipped greenhouse, two at winter seasons (2015 and 2016 years) and one at summer season (2017 year) using mini-cucumber hybrid Larino. Through the three stands, was verified an increase on the photosynthesis in the leaves and the commercial productivity of the mini-cucumber due to the LED lighting use. This increase on the commercial yield ranged between 13 and 30%, being higher the effect on the summer season. At the first stand, in addition to the light effect, grafted plants were tested. On this case, the photosynthetic rate increased with grafted plants when treated with LEDs. However, the yield did not increase with grafting. Postharvest parameters as titratable acidity, total soluble solids and long shelf life did not increase as consequence of supplemental LED lighting. Studying the light response curves, it was verified that above a photosynthetic photon flux density of 400 &mu;mol m-2s-1, plants treated with supplemental lighting showed higher values of net CO2 assimilation. The light compensation point was also higher on plants with LEDs. In the case of the CO2 response curve, plants treated with LED lighting verified higher increase on the CO2 assimilation rate when the plant internal CO2 concentration increased. Parameters like Rubisco carboxylase activity, rate of electron transport and leaf dark respiration were also higher on plants under supplemental LED lighting. The lower consumption of electricity and the yield increase on the summer stand allowed registering greater energy and light efficiency on this cycle when compared with the winter stands. For the same reason, the cost analysis revealed that only at the summer stand the LED interlighting was profitable. At that time, the total net income was positive and the benefit cost ratio favorable (1.15). / Na produção hortícola em ambiente protegido, o emprego de luz artificial é uma prática comum, quando condições de radiação natural reduzidas ou o autosombreamento das folhas nos estratos médio e inferior do dossel prejudicam a atividade fotossintética da planta, e consequentemente, limitam a produtividade. Na última década, em países de alta latitude, tem aumentado o uso de lâmpadas com tecnologia de luz LED para fazer essa suplementação luminosa. As luzes do tipo LED são mais eficientes energeticamente e apresentam baixo consumo de energia. Também nessas lâmpadas é possível regular a intensidade (quantidade) e a radiação (qualidade) na faixa ideal do espectro de luz visível para a conversão da energia luminosa em energia química. Em países de clima tropical, experiências dessa natureza não estão reportadas. Assim, foi realizado este trabalho com o objetivo de avaliar parâmetros fisiológicos relacionados com a atividade fotossintética e a produtividade de minipepino cultivado em um ambiente protegido com suplementação luminosa de tipo LED. Em Piracicaba (SP), foram conduzidos três experimentos em casa de vegetação, sendo realizados no inverno (anos 2015 e 2016) e no verão (ano 2017), usando plantas de minipepino híbrido Larino. Foi constatado nos três ciclos aumento na fotossíntese da planta e na produção de pepino comercial devido ao emprego da luz LED. Esse aumento no rendimento comercial variou entre 13 e 30%, sendo maior o efeito no ciclo do verão. No primeiro ciclo além do efeito da luz LED, plantas enxertadas foram testadas. Nesse caso, as plantas enxertadas mostraram também aumento na taxa fotossintética quando submetidas à suplementação luminosa, porém a produtividade não aumentou com a enxertia. Parâmetros de pós-colheita como acidez titulável, teor de sólidos solúveis e vida de prateleira não aumentaram pela suplementação com LED. Estudando as curvas de resposta à luz foi constatado que acima de 400 &mu;mol m-2s-1 na densidade do fluxo de fótons, as plantas com suplementação luminosa mostraram valores maiores na taxa de assimilação líquida de CO2. O ponto de compensação à luz também foi superior em plantas com LED. No caso da curva de resposta ao CO2, as plantas tratadas com luz LED mostraram maior incremento na taxa de assimilação de CO2 quando a concentração interna de CO2 na planta aumentou. Parâmetros como atividade da Rubisco carboxilase, taxa de transporte de elétrons e a respiração obscura foram também maiores em plantas sob luz LED. O menor consumo de eletricidade junto com o aumento na produtividade no ciclo de verão favoreceu maior eficiência no uso da energia e da luz nesse ciclo, quando comparado com os ciclos de inverno. Por esse mesmo motivo, a análise de custos revelou que a suplementação luminosa com luz LED somente foi benéfica no ciclo de verão. Nessa época, a renda líquida total foi positiva e a relação custo beneficio favorável (1.15).

Cucumis sativus

Cucumis sativus L.

Artificial lighting

Cost

Curvas de resposta

Iluminação artificial

Performance

Photosynthesis

Postharvest

Rendimento

Response curve