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As a web designer, you encounter tough choices when it comes to weighing aesthetics and performance. Good content, layout, images, and interactivity are essential for engaging your audience, and each of these elements have an enormous impact on page load time and the end-user experience. In this practical book, Lara Hogan helps you approach projects with page speed in mind, showing you how to test and benchmark which design choices are most critical. To get started, all you need are basic HTML and CSS skills and Photoshop experience. Topics include: The impact of page load time on your site, brand, and users Page speed basics: how browsers retrieve and render content Best practices for optimizing and loading images How to clean up HTML and CSS, and optimize web fonts Mobile-first design with performance goals by breakpoint Using tools to measure performance as your site evolves Methods for shaping an organization’s performance culture
Explores the speculative and projective acts of designing performance and performing design. This work offers a range of performative expressions across disciplines, where design artefacts - objects, gestures, images, occasions and environments - are aligned to performance through notions of embodiment, action and event.
Practical, real-world solutions are given to potential problems covering the entire system life cycle. This book describes how to map real-life systems (databases, data centers, and e-commerce applications) into analytic performance models. The authors elaborate upon these models and use them to help the reader better understand performance issues.
Business firms around the world are experimenting with new organizational designs, changing their formal architectures, their routines and processes, and their corporate cultures as they seek to improve their current performance and their growth prospects. In the process they are changing the scope of their business operations, redrawing their organization charts, redefining the allocation of decision-making authority and responsibility, revamping the mechanisms for motivating and rewarding people, reconsidering which activities to conduct in-house and which to out-source, redesigning their information systems, and seeking to alter the shared beliefs, values and norms that their people hold. In this book, John Roberts argues that there are predictable, necessary relationships among these changes that will improve performance and growth. The organizations that are successful will establish patterns of fit among the elements of their organizational designs, their competitive strategies and the external environment in which they operate and will go about this in a holistic manner. The Modern Firm develops powerful conceptual frameworks for analyzing the interrelations between organizational design features, competitive strategy and the business environment. Written in a non-technical language, the book is nevertheless based on rigorous modeling and draws on numerous examples from eighteenth century fur trading companies to such modern firms such as BP and Nokia. Finally the book explores why these developments are happening now, pointing to the increase in global competition and changes in technology. Written by one of the world's leading economists and experts on business strategy and organization, The Modern Firm provides new insights into the changes going on in business today and will be of interest to academics, students and managers alike.
The accelerating rate at which new materials are appearing, and transforming the engineering world, only serves to emphasize the vast potential for novel material structure and related performance. Microstructure Sensitive Design for Performance Optimization (MSDPO) embodies a new methodology for systematic design of material microstructure to meet the requirements of design in optimal ways. Intended for materials engineers and researchers in industry, government and academia as well as upper level undergraduate and graduate students studying material science and engineering, MSDPO provides a novel mathematical framework that facilitates a rigorous consideration of the material microstructure as a continuous design variable in the field of engineering design. - Presents new methods and techniques for analysis and optimum design of materials at the microstructure level - Authors' methodology introduces spectral approaches not available in previous texts, such as the incorporation of crystallographic orientation as a variable in the design of engineered components with targeted elastic properties - Numerous illustrations and examples throughout the text help readers grasp the concepts
Costume Design for Performance offers a detailed insight into the creative process behind designing costumes for the performing arts, including theatre, opera, dance and film. Guiding the reader through the essential steps of the designing process, Bettina John combines extensive knowledge of the industry with insights gleaned from leading experts in the performing arts. Featuring over 200 original artworks by more than thirty designers, this book gives a rare insight into this highly individual and creative process. Topics covered include script analysis; in-depth research techniques; practical techniques to explore design; basic drawing techniques; character development; the role of the costume designer and wider team and finally, advice on portfolio presentation.
The impact of design development on the overall success of a business positions the area as an important performance improvement opportunity. However, design development is exemplified by novelty and non-repeatability, characteristics which provide particular challenges in the definition, measurement and management of performance with a view to improvement. Design Performance scrutinizes the support for improvement in design development provided by research into general business processes and design in particular. The nature of design development in industrial practice is explored and requirements for its modelling and analysis are highlighted. The methods employed encapsulate a formalism composed of three models: E2 formalises and relates the effectiveness and efficiency of a design; Design Activity Management distinguishes design and design management in terms of the knowledge processed in each activity; Performance Measurement and Management describes how these activities relate to each other within the milieu of measurement and management. A computer-based tool that enables the industrial implementation of the PERFORM approach (analysing the influence of resources on an aspect of design performance) and the identification of appropriate means of design improvement is presented. Design Performance illustrates its methodological principles with worked examples and details of industrial practice making it suitable for an academic teaching and research readership as well as for commercial designers and managers. The impact of design development on the overall success of a business positions the area as an important performance improvement opportunity. However, design development is exemplified by novelty and non-repeatability, characteristics which provide particular challenges in the definition, measurement and management of performance with a view to improvement. Design Performance scrutinizes the support for improvement in design development provided by research into general business processes and design in particular. The nature of design development in industrial practice is explored and requirements for its modelling and analysis are highlighted. The methods employed encapsulate a formalism composed of three models: E2 formalises and relates the effectiveness and efficiency of a design; Design Activity Management distinguishes design and design management in terms of the knowledge processed in each activity; Performance Measurement and Management describes how these activities relate to each other within the milieu of measurement and management. A computer-based tool that enables the industrial implementation of the PERFORM approach (analysing the influence of resources on an aspect of design performance) and the identification of appropriate means of design improvement is presented. Design Performance illustrates its methodological principles with worked examples and details of industrial practice making it suitable for an academic teaching and research readership as well as for commercial designers and managers.
Effective building performance simulation can reduce the environmental impact of the built environment, improve indoor quality and productivity, and facilitate future innovation and technological progress in construction. It draws on many disciplines, including physics, mathematics, material science, biophysics and human behavioural, environmental and computational sciences. The discipline itself is continuously evolving and maturing, and improvements in model robustness and fidelity are constantly being made. This has sparked a new agenda focusing on the effectiveness of simulation in building life-cycle processes. Building Performance Simulation for Design and Operation begins with an introduction to the concepts of performance indicators and targets, followed by a discussion on the role of building simulation in performance-based building design and operation. This sets the ground for in-depth discussion of performance prediction for energy demand, indoor environmental quality (including thermal, visual, indoor air quality and moisture phenomena), HVAC and renewable system performance, urban level modelling, building operational optimization and automation. Produced in cooperation with the International Building Performance Simulation Association (IBPSA), and featuring contributions from fourteen internationally recognised experts in this field, this book provides a unique and comprehensive overview of building performance simulation for the complete building life-cycle from conception to demolition. It is primarily intended for advanced students in building services engineering, and in architectural, environmental or mechanical engineering; and will be useful for building and systems designers and operators.
Practicing Music by Design: Historic Virtuosi on Peak Performance explores pedagogical practices for achieving expert skill in performance. It is an account of the relationship between historic practices and modern research, examining the defining characteristics and applications of eight common components of practice from the perspectives of performing artists, master teachers, and scientists. The author presents research past and present designed to help musicians understand the abstract principles behind the concepts. After studying Practicing Music by Design, students and performers will be able to identify areas in their practice that prevent them from developing. The tenets articulated here are universal, not instrument-specific, borne of modern research and the methods of legendary virtuosi and teachers. Those figures discussed include: Luminaries Franz Liszt and Frederic Chopin Renowned performers Anton Rubinstein, Mark Hambourg, Ignace Paderewski, and Sergei Rachmaninoff Extraordinary teachers Theodor Leschetizky, Rafael Joseffy, Leopold Auer, Carl Flesch, and Ivan Galamian Lesser-known musicians who wrote perceptively on the subject, such as violinists Frank Thistleton, Rowsby Woof, Achille Rivarde, and Sydney Robjohns Practicing Music by Design forges old with new connections between research and practice, outlining the practice practices of some of the most virtuosic concert performers in history while ultimately addressing the question: How does all this work to make for better musicians and artists?
Integrating Building Performance with Design shows you the importance of designing for building performance early in your architectural design process. The book offers you simple tools and exercises, along with examples of built professional work and successful student projects illustrated by more than 100 full color images to help you with your work. Topics include site, solar orientation, thermal comfort, building enclosure, daylighting, passive heating and cooling, active heating and cooling, indoor air quality, stormwater, and rainwater harvesting.