Computer software--Development, Rapid control prototyping, and Technological innovations
This is a text for those engaged in creating new, high-value software solutions for which an existing exemplar does not exist. Creating new software is not the same as replicating or doing something similar. It discusses creating software with high uncertainty about what is required, what the users will do, how the users will react, and what value will be delivered. The text addresses software similar to Class IV, V, and VI rapids, and considers how to understand the problem, determine requirements, design for uncertainty and the unknown, plan and execute a project involving innovative software, and how to form a suitable team for the activity.While these topics are sometimes touched upon in other texts, this book adopts a holistic view of the challenge and discusses how the pieces fit together and what must be done to deal with the inherent risks of innovative projects. Approximately one-half of the text is on how to understand the problem and figure out the requirements, with the other focusing on the design and implementation aspects for high-risk software.
Sustainable engineering and Mechanical engineering
Due to their specialized training, engineers play a crucial role in the design and development of new products and infrastructure, as well as in the creation of wealth. Consequently, engineers recognize that they have a specific responsibility in the performance of these functions to take such measures as are appropriate to safeguard the environment, health, safety and well-being of the public. This book proposes a series of sixteen practical cases, integrating knowledge from different fields of the mechanical engineering discipline, along with basic knowledge in environmental, occupational health and safety risk management.The case studies provided are descriptions of a real system, its functioning and its instructions for use. The systems selected represent a broad spectrum of mechanical engineering issues and problems, such as fluid mechanics; thermodynamics; heat transfer; heating, ventilation and cooling; vibrations; dynamics; statics; failure of materials; automatics and mechatronics; hydraulics; product design; human factors; maintenance; and rapid prototyping, to name a few. The professional objective of the examples provided is to design or improve the design of the described system. This book is essential in transferring knowledge to future engineers with respect to the hazards resulting from their work.
Information technology--Environmental aspects, Home offices, Telecommuting--Environmental aspects, Telecommuting, and Information technology
The recent COVID-19-induced slamming of millions of information workers into the home workplace has made clear that the planning and management foundations for such a mass-migration are anything but solid. Now, the IT industry is scrambling to offer products which do not treat the (remote) worker as a third-class citizen.However, there is another problem, namely the lack of a coherent theory (and documented practice) about what wide-scale workplace decentralization will really do for the individual, the organization, the local community, and ultimately the planet. Indeed, the home workplace can—and ultimately will—serve as the gateway to a whole new focus on the triplex of environmental, energy and economic issues. It may even become the portal to a more peaceful and stable world.This book is not a research work, but rather an opinion piece based on personal experience working as an IT program manager, executive and consultant in various large enterprises while working from home for a significant percentage of the time. Among other things, it reflects a very strong belief that home workplace technology architects were altogether too quick to abandon the Public Switched Telephone Network (PSTN) as a core component of that architecture. The book will equip the reader with a balance of strategic and tactical perspectives—and tools—which should assist in designing, prototyping and rolling out a home workplace environment which is best suited to the needs of their organization, and which will also contribute to the building of a worldwide electronic commonwealth.
Mechanical engineering and Sustainable engineering
Owing to their specialized training, engineers play a crucial role in the design and development of new products or infrastructure as well as the creation of wealth. Consequently, engineers recognize that in the performance of these functions they have a specific responsibility to take such measures as are appropriate to safeguard the environment, health, safety and well-being of the public. This book proposes a series of fifteen practical cases, integrating knowledge from different fields of the mechanical engineering discipline, along with basic knowledge in environment, occupational health and safety risk management. The cases are descriptions of a real system, it's functioning and it's instructions for use. The systems selected represent a broad spectrum of mechanical engineering issues or problems: fluid mechanics, thermodynamics, heat transfer, heating, ventilation and cooling, vibrations, dynamics, statics, failure of materials, automatic and mecatronics, hydraulics, product design, human factors, maintenance, rapid prototyping to name a few. The professional objective of the cases proposed is to design or improve the design of the described system. This book is a must to transfer knowledge to future engineers with respect to hazards resulting from their work.