Prototyping is a great way to communicate the intent of a design both clearly and effectively. Prototypes help you to flesh out design ideas, test assumptions, and gather real-time feedback from users. With this book, Todd Zaki Warfel shows how prototypes are more than just a design tool by demonstrating how they can help you market a product, gain internal buy-in, and test feasibility with your development team.
Gengnagel, Christoph, Nagy, Emília, and Stark, Rainer
In this book, the authors describe the findings derived from interaction and cooperation between scientific actors employing diverse practices. They reflect on distinct prototyping concepts and examine the transformation of development culture in their fusion to hybrid approaches and solutions. The products of tomorrow are going to be multifunctional, interactive systems – and already are to some degree today. Collaboration across multiple disciplines is the only way to grasp their complexity in design concepts. This underscores the importance of reconsidering the prototyping process for the development of these systems, particularly in transdisciplinary research teams. “Rethinking Prototyping – new hybrid concepts for prototyping” was a transdisciplinary project that took up this challenge. The aim of this programmatic rethinking was to come up with a general concept of prototyping by combining innovative prototyping concepts, which had been researched and developed in three sub-projects: “Hybrid Prototyping” developed new prototyping approaches to validate and evaluate holistically developed systems with their services, infrastructure and business models. “Blended Prototyping” addressed a new technique whereby prototypes for user interfaces of software applications can be generated from hand drawings and immediately be tested. “Beyond Prototyping” examined the issue of the prototype in connection with algorithmically generated design for producing tailor-made products.
Human-machine systems--Research, User-centered system design, User interfaces (Computer systems)--Design, Human-computer interaction, and Application software--Development
Prototyping and user testing is the best way to create successful products, but many designers skip this important step and use gut instinct instead. By explaining the goals and methodologies behind prototyping—and demonstrating how to prototype for both physical and digital products—this practical guide helps beginning and intermediate designers become more comfortable with creating and testing prototypes early and often in the process.Author Kathryn McElroy explains various prototyping methods, from fast and dirty to high fidelity and refined, and reveals ways to test your prototypes with users. You'll gain valuable insights for improving your product, whether it's a smartphone app or a new electronic gadget.Learn similarities and differences between prototyping for physical and digital productsKnow what fidelity level is needed for different prototypesGet best practices for prototyping in a variety of mediums, and choose which prototyping software or components to useLearn electronics prototyping basics and resources for getting startedWrite basic pseudocode and translate it into usable code for ArduinoConduct user tests to gain insights from prototypes
Up-to-date documentation on the current scope of the research of Rapid Prototyping, Tooling and Manufacturing. Explains and details the latest techniques and materials used for RP, RT and RM. Develops methodologies and technologies to support in a customer-focused product design and mass customization approach to production.
Rapid Prototyping of Biomaterials: Techniques in Additive Manufacturing, Second Edition, provides a comprehensive review of emerging rapid prototyping technologies, such as bioprinting, for biomedical applications. Rapid prototyping, also known as additive manufacturing, solid freeform fabrication, or 3D printing, can be used to create complex structures and devices for medical applications from solid, powder or liquid precursors. Sections explore a variety of materials, look at applications, and consider the use of rapid prototyping technologies for constructing organs. With its distinguished editor and international team of renowned contributors, this book is a useful, technical resource for scientists and researchers in academia, biomaterials and tissue regeneration.Presents a comprehensive review of established and emerging additive manufacturing technologies (such as bioprinting) for medical applicationsContains chapters that explore the additive manufacturing of nanoscale biomaterials for a range of applications, from drug delivery, to organ printingIncludes new information on 3D printing on a variety of material classes
Rapid Prototyping of Biomaterials: Principles and Applications provides a comprehensive review of established and emerging rapid prototyping technologies (such as bioprinting) for medical applications. Rapid prototyping, also known as layer manufacturing, additive manufacturing, solid freeform fabrication, or 3D printing, can be used to create complex structures and devices for medical applications from solid, powder, or liquid precursors. Following a useful introduction, which provides an overview of the field, the book explores rapid prototyping of nanoscale biomaterials, biosensors, artificial organs, and prosthetic limbs. Further chapters consider the use of rapid prototyping technologies for the processing of viable cells, scaffolds, and tissues. With its distinguished editor and international team of renowned contributors, Rapid Prototyping of Biomaterials is a useful technical resource for scientists and researchers in the biomaterials and tissue regeneration industry, as well as in academia.Comprehensive review of established and emerging rapid prototyping technologies (such as bioprinting) for medical applicationsChapters explore rapid prototyping of nanoscale biomaterials, biosensors, artificial organs, and prosthetic limbsExamines the use of rapid prototyping technologies for the processing of viable cells, scaffolds, and tissues
Iglesias, P., Izquierdo, P., Yañez, P., Vilán, J.A., Arias, A., Segade, A., and Casarejos, E.
Instrumentation viewpoint; 2018: Núm.: 20
It is at least two decades since the conventional robotic manipulators have become a common manufacturing tool for different industries, from automotive to pharmaceutical. The advances in manipulators and sensors have given robots the opportunity to become useful for more and more applications. Engineers have taken advantage of the extra mobility of the advanced robots to make them work in constrained environments, ranging from limited joint motions for redundant manipulators to obstacles in the way of mobile (ground, marine, and aerial) robots . However, the incorporation some of these abilities and capacities that are already being used in land, have not made their way to the sea domain. This Abstract describes the project consisting in the design, development and manufacture of a prototype manipulator arm for ROVs introducing innovative fabrication technologies. The work has been done collaboratively among ACSM Maritime Agency SL, CIMA Group and the University of Vigo.
Prototypes, Engineering and Robots--Design and construction
'This book provides a framework for conceptual, theoretical, and applied research in robotic prototyping and its applications, covering the prototyping of various robotic systems including the complicated industrial robots, the tiny and delicate nanorobots, medical robots for disease diagnosis and treatment and simple robots for educational purposes'--Provided by publisher.