Download Free Humanitarian Engineering Book in PDF and EPUB Free Download. You can read online Humanitarian Engineering and write the review.

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
The Journal of Humanitarian Engineering publishes outcomes of research and field experiences at the intersection of technology and community development. The field of 'humanitarian engineering' describes the application of engineering and technology for the benefit of disadvantaged communities. This field spans thematic areas from water to energy to infrastructure; and applications from disability access to poverty alleviation. The JHE aims to highlight the importance of humanitarian engineering projects and to inspire engineering solutions to solve the world’s most pertinent challenges.
Engineering disciplines have a pivotal role to play in the solution of global humanitarian challenges, enabling our society to take steps towards sustainable human development. Engineering can be used as the catalyst for the change that the world needs; from water supply to renewable energy provision, engineering knowledge and application underpin the responses needed for us all to pursue a sustainable future. Because the issue of humanitarianism is not just engineering problems, there is a need to engage with professionals, breakdown previously siloed approaches and obdurate practices, and introduce interdisciplinary education and training to enhance combinational expertise. Transcending Humanitarian Engineering Strategies for Sustainable Futures provides relevant theoretical frameworks and the latest empirical research findings in the area of humanitarian engineering as a means for future-proofing our communities. Covering topics such as disaster mitigation, natural hazards, and land use change, this premier reference source is an excellent resource for engineers, environmentalists, sociologists, anthropologists, urban planners, government officials, students and educators of higher education, non-profit organizations, researchers, and academicians.
The 21st century is associated with a number of environmental, social, and economic challenges spanning from globalization and migration to climate change, global health, urbanization, and natural hazards. These challenges of the modern age command our immediate reaction towards an equal society. There is an urgent need for scientists, researchers, and politicians to take the reins by providing immediate solutions to tackle this harsh reality. The need for a more human approach has recently led to what we call humanitarian engineering. Modern Challenges and Approaches to Humanitarian Engineering provides relevant theoretical frameworks and the latest empirical research findings in this area. It discusses the most recent challenges and approaches in the field of humanitarian engineering and presents research, case studies, and innovative models. Covering topics such as contact tracing apps, scientific production, and sustainable management, this book is an essential resource for engineers, government officials, scientists, activists, humanitarians, emergency management agencies, students and educators of higher education, researchers, and academicians.
Engineering has always been a part of human life but has only recently become the subject matter of systematic philosophical inquiry. The Routledge Handbook of the Philosophy of Engineering presents the state-of-the-art of this field and lays a foundation for shaping future conversations within it. With a broad scholarly scope and 55 chapters contributed by both established experts and fresh voices in the field, the Handbook provides valuable insights into this dynamic and fast-growing field. The volume focuses on central issues and debates, established themes, and new developments in: Foundational perspectives Engineering reasoning Ontology Engineering design processes Engineering activities and methods Values in engineering Responsibilities in engineering practice Reimagining engineering The Routledge Handbook of the Philosophy of Engineering will be of value for both students and active researchers in philosophy of engineering and in cognate fields (philosophy of technology, philosophy of design). It is also intended for engineers working both inside and outside of academia who would like to gain a more fundamental understanding of their particular professional field. The increasing development of new technologies, such as autonomous vehicles, and new interdisciplinary fields, such as human-computer interaction, calls not only for philosophical inquiry but also for engineers and philosophers to work in collaboration with one another. At the same time, the demands on engineers to respond to the challenges of world health, climate change, poverty, and other so-called "wicked problems" have also been on the rise. These factors, together with the fact that a host of questions concerning the processes by which technologies are developed have arisen, make the current Handbook a timely and valuable publication.
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 effectively -- and student perspectives and experiences on one curricular model dealing with community development. Table of Contents: Introduction / Engineers and Development: From Empires to Sustainable Development / Why Design for Industry Will Not Work as Design for Community / Engineering with Community / Listening to Community / ESCD Case Study 1: Sika Dhari's Windmill / ESCD Case Study 2: Building Organizations and Mapping Communities in Honduras / Students' Perspectives on ESCD: A Course Model / Beyond Engineers and Community: A Path Forward
Hoping to help transform engineering into a more socially just field of practice, this book offers various perspectives and strategies while highlighting key concepts and themes that help readers understand the complex relationship between engineering education and social justice. This volume tackles topics and scopes ranging from the role of Buddhism in socially just engineering to the blinding effects of ideologies in engineering to case studies on the implications of engineered systems for social justice. This book aims to serve as a framework for interventions or strategies to make social justice more visible in engineering education and enhance scholarship in the emerging field of Engineering and Social Justice (ESJ). This creates a ‘toolbox’ for engineering educators and students to make social justice a central theme in engineering education. ​
The rise of classic Euro-American philosophy of technology in the 1950s originally emphasized the importance of technologies as material entities and their mediating influence within human experience. Recent decades, however, have witnessed a subtle shift toward reflection on the activity from which these distinctly modern artifacts emerge and through which they are engaged and managed, that is, on engineering. What is engineering? What is the meaning of engineering? How is engineering related to other aspects of human existence? Such basic questions readily engage all major branches of philosophy --- ontology, epistemology, ethics, political philosophy, and aesthetics --- although not always to the same degree. The historico-philosophical and critical reflections collected here record a series of halting steps to think through engineering and the engineered way of life that we all increasingly live in what has been called the Anthropocene. The aim is not to promote an ideology for engineering but to stimulate deeper reflection among engineers and non-engineers alike about some basic challenges of our engineered and engineering lifeworld.
In the present work, the growing awareness in engineering of the profession’s responsibility towards the environment and the poor is considered. The following approach is taken: a brief overview of the issues of poverty particularly in the U.S. and the deterioration of the natural world with a focus on the Arctic is provided. Case studies involving New Orleans in the aftermath of Hurricane Katrina and the status of polar bears in a time of shrinking Arctic ice cover are detailed. Recent developments in engineering related to the issues of poverty and the environment are discussed. A new paradigm for engineering based on the works of Leonardo Boff and Thomas Berry, one that places an important emphasis upon a community, is explored.
For many millennia, Indigenous Australians have been engineering the landscape using sophisticated technological and philosophical knowledge systems in a deliberate response to changing social and environmental circumstances. These knowledge systems integrate profound understanding of country and bring together knowledge of the topography and geology of the landscape, its natural cycles and ecological systems, its hydrological systems and natural resources including fauna and flora. This enables people to manage resources sustainably and reliably, and testifies to a developed, contextualised knowledge system and to a society with agency and the capability to maintain and refine accumulated knowledge and material processes. This book is a recognition and acknowledgement of the ingenuity of Indigenous engineering which is grounded in philosophical principles, values and practices that emphasise sustainability, reciprocity, respect, and diversity, and often presents a much-needed challenge to a Western engineering worldview. Each chapter is written by a team of authors combining Indigenous knowledge skills and academic expertise, providing examples of collaboration at the intersection of Western and Indigenous engineering principles, sharing old and new knowledges and skills. These varied approaches demonstrate ways to integrate Indigenous knowledges into the curricula for Australian engineering degrees, in line with the Australian Council of Engineering Deans’ Position Statement on Embedding Aboriginal and Torres Strait Islander perspectives into the engineering curriculum first published in 2017.