ISBN:
9781608450718
Language:
English
Pages:
1 Online-Ressource (232 Seiten)
Edition:
Also available in print
Series Statement:
Synthesis Lectures on Engineers, Technology, and Society #11
Series Statement:
Synthesis lectures on engineers, technology and society
Parallel Title:
Print version Engineering and Sustainable Community Development
DDC:
174/.962
Keywords:
Public works
;
Engineering Social aspects
;
Sustainable engineering
;
Sustainable development
;
Electronic books
;
Electronic books
Abstract:
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
Abstract:
1. Introduction -- Engineers as problem solvers -- Engineers' beliefs about community development -- Engineers, development, and community -- What makes this book different -- Who is this book for -- Brief outline of the book -- References --
Abstract:
2. Engineers and development: from empires to sustainable development -- Engineers and the development of empires (18th and 19th centuries) -- Engineers and national development (19th to 20th centuries) -- Engineers and international development (20th century) -- Engineers and the questioning of technology (the 1970s) -- Engineers and the "lost decade of development" (the 1980s) -- Engineers move toward sustainable development (1980s-1990s) -- Engineers heed the call to sustainable development (late 1990s-present) -- The explosion of "engineering to help" (ETH) activities (2000-present) -- The emergence of community in sustainable development and ETH initiatives -- Summary -- References --
Abstract:
3. Why design for industry will not work as design for community -- Introduction -- One design project: description and reflection -- Design courses and design instruction -- Syllabus -- Objectives -- Constraints -- Expectations from students -- Course content -- Design process -- Leadership and teamwork dynamics -- Design tools and approaches -- The actual course -- Location -- Course practices -- Teamwork -- The written report -- The final presentation -- Conclusions: what can you do -- References --
Abstract:
4. Engineering with community -- What we mean by "community" -- How one engineer views community -- Challenge #1: engineering problem-solving (EPS) -- Challenge #2: engineering mindsets -- Challenge #3: community development projects -- Challenge #4: engineers' belief in development -- From engineering for development to ESCD -- Incorporate opportunities for self-reflection before and throughout the project -- Find meaningful ways to learn about the community you are working with, their history, their language, their values, and get help with community engagement processes -- Figure out ways the time-scale of your project can be expanded -- Make plans for "failure" -- Design a landing pad for yourself -- Develop meaningful assessments of yourself and your project -- Conclusion -- References --
Abstract:
5. Listening to community -- Listening in big development: the El Cajón Dam case -- Listening in little development: brick making kilns in Peshawar, Pakistan -- Where is listening in engineering education -- What is contextual listening -- Dimensions of contextual listening -- Barriers to contextual listening -- Engineering problem solving -- Engineering design -- Benefits of contextual listening -- Contextual listening counters biases -- Contextual listening fosters a community-centric approach to problem solving -- Contextual listening integrates multiple human and sectoral perspectives -- Problem, definition, and solution -- Conclusion -- Recommended reading -- References --
Abstract:
6. ESCD case study #1: Sika Dhari's Windmill -- Case overview -- Case specifics -- Introduction -- Background -- Phase one: participatory planning -- Phase two: project implementation -- Conclusion -- Questions for reflection --
Abstract:
7. ESCD case study #2: building organizations and mapping communities in Honduras -- Introduction -- Becoming an engineer -- Discovering water -- Changing an organization -- Doing "big" development -- Moving to sustainable community development -- Questions for reflection -- References --
Abstract:
8. Students' perspectives on ESCD, a course model -- What was this course about -- Development projects involve history and politics -- Development problems are more than just technical problems -- Engineering problem solving and design methods have strengths and limitations when applied to development projects -- I learned how to measure my development project against SCD criteria -- How students resist -- Transformations -- References --
Abstract:
9. Beyond engineers and community: a path forward -- What might be missing from this account of engineering and sustainable community development -- Recommendations -- References -- Authors' biographies -- Index
Description / Table of Contents:
Preface; Introduction; Engineers as Problem Solvers; Engineers' Beliefs About Community Development; Engineers, Development, and Community; What Makes this Book Different?; Who is this Book for?; Brief Outline of the Book; References; Engineers and Development: From Empires to Sustainable Development 1; Engineers and the Development of Empires (18th and 19th Centuries); Engineers and National Development (19th to 20th Centuries); Engineers and International Development (20th Century); Engineers and the Questioning of Technology (the 1970s)
Description / Table of Contents:
Engineers and the ``Lost Decade of Development'' (the 1980s)Engineers Move Toward Sustainable Development (1980s-1990s); Engineers Heed the Call to Sustainable Development (late 1990s-present); The Explosion of ``Engineering to Help'' (ETH) Activities (2000-Present); The Emergence of Community in Sustainable Development and ETH Initiatives; Summary; References; Why Design for Industry Will Not Work as Design for Community; Introduction; One Design Project: Description and Reflection; Design Courses and Design Instruction; Syllabus; Objectives; Constraints; Expectations from Students
Description / Table of Contents:
Course ContentDesign Process; Leadership and Teamwork Dynamics; Design Tools and Approaches; The Actual Course; Location; Course Practices; Teamwork; The Written Report; The Final Presentation; Conclusions: What Can You Do?; References; Engineering with Community; What we Mean by ``Community''; How one Engineer Views Community; Challenge #1: Engineering Problem-Solving (EPS); Challenge #2: Engineering Mindsets; Challenge #3: Community Development Projects; Challenge #4: Engineers' Belief in Development; From Engineering for Development to ESCD; The Importance of Self-Reflection
Description / Table of Contents:
Learn About the CommunityFigure out Ways the Time-Scale of your Project can be Expanded; Make Plans for ``Failure''; Design a Landing Pad; Develop Meaningful Assessments of Yourself and Your Project; Conclusion; References; Listening to Community 1; Listening in Big Development: The El Cajón Dam Case; Listening in Little Development: Brick Making Kilns in Peshawar, Pakistan; Where is Listening in Engineering Education?; What is Contextual Listening?; Dimensions of Contextual Listening; Barriers to Contextual Listening; Engineering Problem Solving; Engineering Design
Description / Table of Contents:
Benefits of Contextual ListeningContextual Listening Counters Biases; Contextual Listening Fosters a Community-Centric Approach to Problem Solving; Contextual Listening Integrates Multiple Human and Sectoral Perspectives; Problem, Definition, and Solution; Conclusion; Recommended Reading; References; ESCD Case Study #1: Sika Dhari's Windmill; Case Overview; Case Specifics; Introduction; Background; Phase One: Participatory Planning; Phase Two: Project Implementation; Conclusion; Questions for Reflection; ESCD Case Study #2: Building Organizations and Mapping Communities in Honduras
Description / Table of Contents:
Introduction
Description / Table of Contents:
2. Engineers and development: from empires to sustainable development -- Engineers and the development of empires (18th and 19th centuries) -- Engineers and national development (19th to 20th centuries) -- Engineers and international development (20th century) -- Engineers and the questioning of technology (the 1970s) -- Engineers and the "lost decade of development" (the 1980s) -- Engineers move toward sustainable development (1980s-1990s) -- Engineers heed the call to sustainable development (late 1990s-present) -- The explosion of "engineering to help" (ETH) activities (2000-present) -- The emergence of community in sustainable development and ETH initiatives -- Summary -- References
Description / Table of Contents:
4. Engineering with community -- What we mean by "community" -- How one engineer views community -- Challenge #1: engineering problem-solving (EPS) -- Challenge #2: engineering mindsets -- Challenge #3: community development projects -- Challenge #4: engineers' belief in development -- From engineering for development to ESCD -- Incorporate opportunities for self-reflection before and throughout the project -- Find meaningful ways to learn about the community you are working with, their history, their language, their values, and get help with community engagement processes -- Figure out ways the time-scale of your project can be expanded -- Make plans for "failure" -- Design a landing pad for yourself -- Develop meaningful assessments of yourself and your project -- Conclusion -- References
Description / Table of Contents:
5. Listening to community -- Listening in big development: the El Cajón Dam case -- Listening in little development: brick making kilns in Peshawar, Pakistan -- Where is listening in engineering education -- What is contextual listening -- Dimensions of contextual listening -- Barriers to contextual listening -- Engineering problem solving -- Engineering design -- Benefits of contextual listening -- Contextual listening counters biases -- Contextual listening fosters a community-centric approach to problem solving -- Contextual listening integrates multiple human and sectoral perspectives -- Problem, definition, and solution -- Conclusion -- Recommended reading -- References
Note:
Description based upon print version of record
,
Also available in print.
,
Mode of access: World Wide Web.
,
System requirements: Adobe Acrobat reader.
DOI:
10.2200/S00247ED1V01Y201001ETS011
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