A Tale of Two Birds: Lighting Design and Implementation of Anton Chekhov\u27s The Seagull and Aaron Posner\u27s Stupid Fucking Bird Running in Repertory at Swine Palace Theatre

The course of creation never did run smooth. Every act of creation is a process of creation. While theatrical creation and execution may follow the same basic steps each time, the process will always be evolving. One may take many paths to reach the same destination. This project is a study of the process of creation and execution of a repertory theatrical lighting design for a professional company in an academic setting. In the spring of 2017, Swine Palace Theatre, the professional company associated with Louisiana State University’s (LSU) School of Theatre, produced Anton Chekhov’s The Seagull in full rotating repertory with Aaron Posner’s modern adaptation Stupid Fucking Bird. Different design teams were chosen for each piece but the scenic designer and the lighting designer would work on both. I served as the lighting designer. This project will track the design from inception to implementation, covering initial meetings, research, execution, and the changeover process. The final chapter will reflect on the success and failure of concepts and implementation methods and address areas that need further investigation. Finally, connections will be drawn between this process and the industry at large. Although repertory productions are not uncommon, very little of the repertory design and implementation process has been presented in a detailed written format. The goal of this work is to provide a case study of repertory design and execution through the documentation of the lighting design and implementation of The Seagull and Stupid Fucking Bird at Swine Palace Theatre. This work also bridges the gap between training and industry, illustrating how the presence of a professional company in an academic setting challenges professionals and students alike

Best practices in SECURE partner regions

Smarter Energy Communities in Northern and Arctic Regions (SECURE) project is a project funded by the Northern Periphery and Arctic Programme (NPA). The project runs for three years, from May 2016 to the end of April 2019. SECURE is implemented by eight partners in six countries (Ireland, Sweden, United Kingdom, Finland, Canada, Faroe Islands) and is coordinated by the European Regions Network for the Application of Communications Technology (ERNACT). The project aims at increasing the capacity of the local authorities regarding energy efficiency and use of renewable energy. The best practices have been executed in the SECURE partner regions and have involved public and private instances as well as companies and associations. The practices are examples of actions that can be taken to reduce the carbon footprint and eventually lead to behavioral change by example. The partners have sought for resource-efficient and sustainable practices that can be transferred directly or modified before use in the new setting

Successful Examples of Efficient Lighting

The report gives an overview of the results achieved by the European GreenLight Programme, a voluntary programme to improve energy efficiency in non-residential buildings and street lighting, which has operated for 5 years. The report will summarise the results of the projects undertaken by Partners.JRC.H.8-Renewable energie

Burgas

Burgas regularly tops the list of best places to live in Bulgaria. Whether enjoying a walk through the resplendent Sea Garden, relaxing on the beautiful central city beach, or enjoying a drink and fresh grilled fish at one of the many outdoor bars and restaurants, it is easy to see why tourists like it so much. A key challenge for the city, however, is to extend this good feeling to the off-season, when tourists are few, the economy is less animated, and the central area is almost comatose after dark. The city aims to deliver this transformation with its smart city agenda

Management energií v Smart Home

Import 03/11/2016This thesis aims to illuminate possibilities of increasing efficient energy use by creating visualization of measured energy consumption for end-user with respect to KNX technology. The motivation of creating system of KNX devices for monitoring and controlling energy consumption was reasons of increased demand of usage mobile devices and promotion of energy saving by visualization and using renewable energy. In this thesis are described and considered several ways for energy management, first and the most important is visualization, as consumer is able to monitor and manage energy and electricity consumption via mobile device and PC that makes possible to motivate user for smart use of energy and set alarms of over limit energy consumption. By the other hand remote control is flexible, comfortable and the idea that they can manage lighting and heating via mobiles attracts people. Mobile control is best solution to avoid paying extra money for buying touch panels.Tato diplomová práce si klade za cíl osvětlit možnosti zvýšení efektivního využití energie vytvořením vizualizace měření spotřeby energie pro koncového uživatele prostřednictvím KNX technologie. Motivací k vytvoření systému ze zařízení KNX pro monitorování a ovládání spotřeby energie bylo zvýšení poptávky použití mobilních zařízení a podpora úspory energie pomocí vizualizace a využití obnovitelných zdrojů energie. V této diplomové práci je popsáno několik způsobů pro hospodaření s energií. První a nejvíce důležitá je vizualizace, takže je uživatel schopný monitorovat a řídit energii a spotřebu elektřiny prostřednictvím mobilního zařízení a počítače, což umožňuje jednak uživatele motivovat k inteligentnímu využití energie a také nastavit upozornění při nadměrné energetické spotřebě. Dálkové ovládání je flexibilní, pohodlné, a díky možností nastavení osvětlení a topení prostřednictvím mobilu, také pro uživatele velmi atraktivní. Mobilní kontrola je nejlepším řešením pro vyhnutí se zbytečnému placení za nákup dotykových panelů.450 - Katedra kybernetiky a biomedicínského inženýrstvívelmi dobř

Faculty Senate Chronicle May 1, 1979

Minutes for the regular meeting of The University of Akron Faculty Senate on May 1, 1979

Effects of resolution of lighting control systems

Advances in lighting technologies have spurred sophisticated lighting control systems (LCSs). To conserve energy and improve occupants’ wellbeing, LCSs have been integrated into sustainable buildings. However, the complexity of LCSs may lead to negative experiences and reduce the frequency of their use. One fundamental issue, which has not been systematically investigated, is the impact of control resolution (the smallest change produced by an LCS). In an ideal LCS, the resolution would be sufficiently fine for users to specify their desired lighting conditions, but the smallest change would be detectable. Thus, the design of optimal control systems requires a thorough understanding of the detectability and acceptability of differences in illuminance, luminance and colour. The control of colour is complicated by the range of interfaces that can be used to facilitate colour mixing. Four psychophysical experiments investigated the effect of LCS resolution. The first two experiments explored the effect of resolution in white light LCSs on usability and energy conservation. The results suggest that, in different applications, LCSs with resolutions between 14.8 % and 17.7 % (of illuminance) or 26.0 % and 32.5 % (of luminance) have the highest usability. The third experiment evaluated the usability of three colour channel control interfaces based on red, green, blue (RGB), hue, saturation, brightness (HSB) and opponent colour mixing systems. Although commonly used, the RGB interface was found to have the lowest usability. The fourth experiment explored the effect of hue resolution, saturation resolution and luminance resolution on the usability. Generally, middle range resolutions, which are approximately between three and five times the magnitude of the just noticeable difference (JND), for both hue and saturation were found to yield the greatest usability. The interaction between these three variables was characterised. Findings from this research provide a deeper understanding of the fundamental attribute of control resolution and can guide the development of useful and efficient lighting control systems

Analysis and Redesign Proposal for the Integration Systems and Technical Panels of Operating Room

Treballs Finals de Grau d'Enginyeria Biomèdica. Facultat de Medicina i Ciències de la Salut. Universitat de Barcelona. Curs: 2022-2023. Tutor/Director: Trias Gumbau, GerardThe increasing number of surgical procedures emphasizes the importance of operating rooms in hospitals. They are currently experiencing a digital revolution, reflecting the future direction of this field. The correct configuration of all systems of operating rooms is essential for enhancing surgical efficiency and reducing costs. Technical panels, also known as control panels, play a vital role in configuring operating rooms. These panels have evolved from basic modular systems to more interactive and user-friendly devices. During this study, the technical control panels in operating rooms and the existing solutions in the market are evaluated. From a theoretical perspective, the systems that need to be integrated and how they are integrated through a central integration server are being studied. On the other hand, a semi-functional mockup of the graphical user interface has been created using the Figma tool. The project includes the new way of interacting with the users and the Functional Plan of the user interface. Additionally, a demonstration video has been included to assess the user experience