Global ETD Search

1	Systém inteligentního osvětlení pro domácí automatizaci / Intelligent lighting system for home automation Raninec, Michal January 2015 (has links) This paper discuss the design and realisation of intelligent lighting system for home automation. Identifying the most adequate solution of system implementation is followed by choosing suitable components, design of electrical circuits and printed circuit boards. The project then deals with development of software for each particular device in the system and development of computer application for managing the system. The paper also treats with mechanical design and construction of devices in the system.
2	Can real time data be used as an effective input for lighting control to influence human behaviour in a physical space against the backdrop of the global shift toward an experience economy? Lawson, Siobhan January 2021 (has links) The use of real time data as an input for lighting control is an emerging element for designers to implement into lighting schemes but does it add any value or have the ability to influence human behaviour? The recent development in technological capabilities, the demand within the emerging experience economy and the hybridisation of digital and physical realms make this a current and relevant investigation. This study aims to understand the relationship between light and behaviour and the potential of real time data to enhance it by initiating and curating lighting effect in a physical space. In this context, the experience economy describes the business model of providing meaningful and memorable experiences to customers as a core feature of a product or service while real time data describes the harvesting of information as it happens. Through reviewing literature and interviewing professionals in the field of both light and data the results conclude that light does influence behaviour in the context of attention, movement and emotion. Analysis of case studies and technological enablers indicate in-space sensors to be a valuable source of data which can be used effectively to trigger light scenes that respond instantly, with relevance to occupants inhabiting the built environment. Trend reports and industry luminaries forecast strong predictions for the merging of physical and digital worlds as a means of providing memorable and meaningful experiences for retail consumers. It is recommended that lighting designers educate themselves in preparation for the inevitable growing demand for such experiences. phygital experience lighting data light design behaviour retail attention ambient communication group lighting control Architecture Arkitektur
3	Fuzzy Model Reference Learning Control for Smart Lights Velasquez Garrido, Jose J. 17 June 2013 (has links) No description available. Electrical Engineering adaptive algorithm adaptive fuzzy control distributed control lighting control fuzzy control smart lights system
4	Energieffektivisering av Byggnader : En kartläggning av energianvändningen på två förskolor och två skolor i Västerås med hjälp av timvärden Al-Siyamer, Akram Dahham January 2017 (has links) In the development of society towards renewable energy sources, the target in Sweden is 100% energy supply from renewable energy sources by the year 2040. This requires increased energy production from renewable, but also energy optimization of existing buildings. The housing and service sector which includes households and the public services account for about 40 % of Sweden’s total energy use. It is estimated that preschools and schools have an area of 35 million m² which have an energy savings potentials of 0,7-1 TWh in the electricity consumption and 0,9 TWh in energy use for heating. With regard to energy optimization, it is not only interesting to investigate a buildings total energy use on an annual or monthly basis, but also on shorter time intervals such hourly energy use, because of the uneven energy production of some renewable energy sources such as solar and wind. The purpose of this work is to study the energy usage for some of Västerås preschools and schools, and on the basis of it propose some energy optimization actions. To achieve this a literature study has been carried out to get knowledge about how energy usage is at preschools and schools, as well as to gain insight into what actions are appropriate to perform and how they savings look like. Other than that four objects has been studied, two preschools and two schools, one of each kind were chosen amongst those with the highest energy usage among Västerås city’s preschools and schools and one of each kind amongst those with the lowest usage. The annual energy usage have been calculated and been compared to the actual usage, and the monthly and hourly energy usage for district heating have been studied as well as the electricity usage along the day for different periods. The studied periods and energy usage shows that the energy usage, both for the monthly and hourly, for the district heating moves with regards to the outdoor temperature with some exceptions. As for the electricity usage it shows that the energy usage is even with some exceptions and there is a difference between different outdoor temperature intervals. Some conclusions could be drawn among others that the objects with higher energy usage where older buildings and the objects with lower energy usage where newer ones. There are some energy optimizations actions for the objects which would lower the energy consumption, both for district heating and electricity usage. Energy optimization monthly energy usage hourly district heating usage hourly electricity usage lighting control demand-controlled ventilation. Civil Engineering Samhällsbyggnadsteknik
5	An Adaptive Intelligent Integrated Lighting Control Approach for High-Performance Office Buildings January 2015 (has links) abstract: An acute and crucial societal problem is the energy consumed in existing commercial buildings. There are 1.5 million commercial buildings in the U.S. with only about 3% being built each year. Hence, existing buildings need to be properly operated and maintained for several decades. Application of integrated centralized control systems in buildings could lead to more than 50% energy savings. This research work demonstrates an innovative adaptive integrated lighting control approach which could achieve significant energy savings and increase indoor comfort in high performance office buildings. In the first phase of the study, a predictive algorithm was developed and validated through experiments in an actual test room. The objective was to regulate daylight on a specified work plane by controlling the blind slat angles. Furthermore, a sensor-based integrated adaptive lighting controller was designed in Simulink which included an innovative sensor optimization approach based on genetic algorithm to minimize the number of sensors and efficiently place them in the office. The controller was designed based on simple integral controllers. The objective of developed control algorithm was to improve the illuminance situation in the office through controlling the daylight and electrical lighting. To evaluate the performance of the system, the controller was applied on experimental office model in Lee et al.’s research study in 1998. The result of the developed control approach indicate a significantly improvement in lighting situation and 1-23% and 50-78% monthly electrical energy savings in the office model, compared to two static strategies when the blinds were left open and closed during the whole year respectively. / Dissertation/Thesis / Doctoral Dissertation Architecture 2015 Architecture Energy Engineering Building Energy Optimization Control in High performance Buildings Controlling Venetian Blinds Daylighting Control Genetic Algorithm Integrated Lighting Control
6	Self-Configuring and Self-Adaptive Environment Control Systems for Buildings January 2015 (has links) abstract: Lighting systems and air-conditioning systems are two of the largest energy consuming end-uses in buildings. Lighting control in smart buildings and homes can be automated by having computer controlled lights and window blinds along with illumination sensors that are distributed in the building, while temperature control can be automated by having computer controlled air-conditioning systems. However, programming actuators in a large-scale environment for buildings and homes can be time consuming and expensive. This dissertation presents an approach that algorithmically sets up the control system that can automate any building without requiring custom programming. This is achieved by imbibing the system self calibrating and self learning abilities. For lighting control, the dissertation describes how the problem is non-deterministic polynomial-time hard(NP-Hard) but can be resolved by heuristics. The resulting system controls blinds to ensure uniform lighting and also adds artificial illumination to ensure light coverage remains adequate at all times of the day, while adjusting for weather and seasons. In the absence of daylight, the system resorts to artificial lighting. For temperature control, the dissertation describes how the temperature control problem is modeled using convex quadratic programming. The impact of every air conditioner on each sensor at a particular time is learnt using a linear regression model. The resulting system controls air-conditioning equipments to ensure the maintenance of user comfort and low cost of energy consumptions. The system can be deployed in large scale environments. It can accept multiple target setpoints at a time, which improves the flexibility and efficiency of cooling systems requiring temperature control. The methods proposed work as generic control algorithms and are not preprogrammed for a particular place or building. The feasibility, adaptivity and scalability features of the system have been validated through various actual and simulated experiments. / Dissertation/Thesis / Doctoral Dissertation Computer Science 2015 Computer science Artificial intelligence Environmental science Air-Conditioning Control Cyber-Physical System Lighting Control Optimization Smart Buildings Wireless Sensor Network
7	A study on task lighting in shared residential kitchens highlighting the relation between multiple users, illuminance and task performances. Navaneethakrishnan, Santhini January 2018 (has links) Shared spaces have proven to be the most sustainable solution in the midst of growing demand to implement sustainable lifestyles and at present, co-living is the most trending housing option. In these coliving spaces, the common shared spaces are very important among which kitchen is the most critical one as most of the tasks are carried out there. The main objective of this study is to find if a relationship exists between task lighting, illuminance and multiple users in shared residential kitchens. Limited research in this area has been the primary motivation for this study. Furthermore, during the course of the study, the importance of flexibility in the task lighting for shared residential kitchens was investigated. Realizing the objectives, the study aims at answering the following main investigation questions: Is task lighting in a shared kitchen designed with the number of users in mind and does it consider the different ways in which they perform different tasks at the same time? Should the lighting design standards be reconsidered for shared residential kitchens? Would flexibility in the lighting devices be beneficial for shared kitchens ? The main investigation questions are answered with the help of the following sub-investigation questions which mainly highlights the relation between the multiple users, illuminance and task performances. Do multiple users affect the various performances carried out in a shared kitchen? Are there any shadows cast by the multiple users in a shared kitchen? Do they affect the illuminance levels in the task areas and thereby affect the visual and task performances? Case studies of two different shared residential kitchens were carried out. The methodology of the case study involved two stages, complete site analysis and an experiment. The experimental set up is adapted from McGuiness, Boyce and Harker‘s investigation study “The effects of illuminance on task performance in domestic kitchens” and was modified to suit this study. The experiment was conducted in two different scenarios. Quantitative and qualitative analysis was carried out during the study. The end results of the experiment proved that there is a strong influence of multiple users on the task performances without having any major impacts on the lighting conditions. This indicated that new lighting standards have to be framed for shared residential kitchens in the aspects of ergonomics and flexibility. The importance of flexibility in shared spaces and in shared residential kitchens was realised was considered just beneficial in terms of mood, comfortability and practicality. Flexibility Individual lighting control Shadows Satisfaction Effort made Preparation zone Reading recipes Shared spaces Coliving Dorm Architectural Engineering Arkitekturteknik
8	Modeling And Stability Analysis Of A Series Single-Phase Power Electronic Based Power System Yimajian Yan (5930432) 03 January 2019 (has links) Tightly regulated power converters behave as constant power loads which may introduce instability in power systems. Prior to this work, the design-oriented stability criteria of DC and three-phase AC systems has been extensively studied, while the stability of single-phase AC power systems has received less attention. In this research, the modeling and stability analysis of single-phase AC power systems is studied. In particular, this research focuses on a system architecture where loads are connected in series and powered by a current source. Based on the proposed current source and load power electronic based topologies, which are typically used in airfield lighting systems, three types of system characterization are developed: waveform-level model, average-value <i>qd</i> model, and <i>qd</i> impedance/admittance measurement. Each approach has its own advantages and drawbacks, but the result - a frequency-domain (s-domain) representation of the system, is identical. Applying the generalized Nyquist stability criterion, the small-signal stability criteria of the system is developed. It is shown that the predictions of the system stability using these three approaches are consistent. single-phase AC system power converters lighting control stability analysis. LED airfield lighting impedance measurement Power electronics
9	Moderní systémy pro řízení osvětlení / Modern systems for lighting control Klein, Tomáš January 2012 (has links) This Master's thesis deals with intelligent installation systems, focused on lighting systems using the DALI bus system. Theoretical part of this work includes a list of currently available intelligent installation systems and its use in both households and industrial buildings. A summarizing description of KNX and DALI bus systems and their actuators and actuating units are a part of this paper. The practical part proposes two examplary boards designed for laboratories of UEEN VUT in Brno and describes its construction, as well as the programs necessary for its programming, control and monitoring. The outcome of this Master's thesis is a survey of possible remote control of DALI bus system's actuators and mutual compatibility of KNX and DALI bus systems. Furthermore, this paper includes background material for laboratory task, based on data found about remote control and DALI bus system's monitoring.
10	Bezdrátové řízení osvětlení / Wireless lighting control Pilmajer, Pavel January 2018 (has links) Thesis deals with the issue of lighting technology control using wireless technology. Thesis includes a description of current possibilities of control light technology, methods of digital signal transmission using radio waves and protocols dealing with this issue are described. This thesis also contains a park aimed at the selection of suitable electronic components including the design of individual electronic blocks and printed circuit board. The conclusion of the thesis is the realization of electronic modules, including the creation of module software and measurement of achieved parameters under real conditions.

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