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In A Philosophy of Technology: From Technical Artefacts to Sociotechnical Systems, technology is analysed from a series of different perspectives. The analysis starts by focussing on the most tangible products of technology, called technical artefacts, and then builds step-wise towards considering those artefacts within their context of use, and ultimately as embedded in encompassing sociotechnical systems that also include humans as operators and social rules like legislation. Philosophical characterisations are given of technical artefacts, their context of use and of sociotechnical systems. Analyses are presented of how technical artefacts are designed in engineering and what types of tec...
Needs and Feasibility: A Guide for Engineers in Community Projects -- The Case of Waste for Life is the story of Waste for Life (WFL). WFL is a not-for-profit organization that works to promote poverty-reducing solutions to environmental problems, and its educational branch is an international consortium of universities in six countries, involving students in support of community development projects. WFL currently works in Lesotho and Argentina. We present the story of the development of WFL in each country as a case-based guide to engineers, professors and students interested in community development work, particularly in contexts very different from their own. We focus mainly on the set-u...
Sustainable development is one of the key challenges of the twenty-first century. The engineering profession is central to achieving sustainable development. To date, engineering contributions to sustainability have focused on reducing the environmental impacts of development and improving the efficiency of resource use. This approach is consistent with dominant policy responses to environmental problems, which have been characterised as ecological modernisation. Ecological modernisation assumes that sustainability can be addressed by reforming modern society and developing environmental technologies. Environmental philosophers have questioned these assumptions and call into question the ver...
This book will focus on "Waste Management," a serious global issue and engineers' responsibility towards finding better solutions for its sustainable management. Solid waste management is one of the major environmental burdens in both developed and developing countries alike. An alarming rate of solid waste generation trends can be seen as a result of globalization, industrialization, and rapid economic development. However, low-income and marginalized sectors in society suffer most from the unfavorable conditions deriving from poor waste management. Solid waste management is not a mere technical challenge. The environmental impact, socio-economic, cultural, institutional, legal, and politic...
This book presents a cultural perspective on scientific and technological development. As opposed to the "story-lines" of economic innovation and social construction that tend to dominate both the popular and scholarly literature on science, technology and society (or STS), the authors offer an alternative approach, devoting special attention to the role played by social and cultural movements in the making of science and technology. They show how social and cultural movements, from the Renaissance of the late 15th century to the environmental and global justice movements of our time, have provided contexts, or sites, for mixing scientific knowledge and technical skills from different fields...
Humanitarian Engineering reviews the development of engineering as a distinct profession and of the humanitarian movement as a special socio-political practice. Having noted that the two developments were situated in the same geographical and historical space -- that is, in Europe and North America beginning in the 1700s -- the book argues for a mutual influence and synthesis that has previously been lacking. In this spirit, the first of two central chapters describes humanitarian engineering as the artful drawing on science to direct the resources of nature with active compassion to meet the basic needs of all -- especially the powerless, poor, or otherwise marginalized. A second central chapter then considers strategies for education in humanitarian engineering so conceived. Two final chapters consider challenges and implications. Table of Contents: Engineering / Humanitarianism / Humanitarian Engineering / Humanitarian Engineering Education / Challenges / Conclusion: Humanizing Technology
What in the world is a social scientist doing collaborating with an engineer, and an engineer with a sociologist, and together on a book about drones and sociotechnical thinking in the classroom? This book emerges from a frustration that disciplinary silos create few opportunities for students to engage with others beyond their chosen major. In this volume, Hoople and Choi-Fitzpatrick introduce a sociotechnical approach to truly interdisciplinary education around the exciting topic of drones. The text, geared primarily at university faculty, provides a hands-on approach for engaging students in challenging conversations at the intersection of technology and society. Choi-Fitzpatrick and Hoople provide a turnkey solution complete with detailed lesson plans, course assignments, and drone-based case studies. They present a modular framework, describing how faculty might adopt their approach for any number of technologies and class configurations.
In this book we consider ways in which mining companies do and can/should respect the human rights of communities affected by mining operations. We examine what "can and should" means and to whom, in a variety of mostly Peruvian contexts, and how engineers engage in "normative" practices that may interfere with the communities' best interests. We hope to raise awareness of the complexity of issues at stake and begin the necessary process of critique—of self and of the industry in which an engineer chooses to work. This book aims to alert engineering students to the price paid not only by vulnerable communities but also by the natural environment when mining companies engage in irresponsible and, often, illegal mining practices. If mining is to be in our future, and if we are to have a future which is sustainable, engineering students must learn to mine and support mining, in new ways—ways which are fairer, more equitable, and cleaner than today.
This book, Engineering and Sustainable Community Development, presents an overview of engineering as it relates to humanitarian engineering, service learning engineering, or engineering for community development, often called sustainable community development (SCD). The topics covered include a history of engineers and development, the problems of using industry-based practices when designing for communities, how engineers can prepare to work with communities, and listening in community development. It also includes two case studies -- one of engineers developing a windmill for a community in India, and a second of an engineer "mapping communities" in Honduras to empower people to use water ...