Sociotechnical Communication in Engineering


Book Description

This collection explores why engineering communication constitutes sociotechnical communication. Sociotechnical communication acknowledges that engineering communication occurs not in a vacuum but shapes and is shaped by multiple social forces. Through diverse research cases, the authors show how sociotechnical communication disrupts common myths in engineering communication: the myth that communication can be purely technical and neutral, and that data speak for themselves. The book highlights these myths, considering first how styles, types, and means of sociotechnical communication played pivotal—and differing—roles in the evolution of wind power technology in Denmark and Germany. The role of myth in engineering blogs in also examined, wherein the effect of engineers maintaining "objective" or "neutral" personae, accentuating technical facts over their social relevance, and eschewing controversy, is to decrease public interest in engineering issues. We see the myths emerge again via product development engineers, whose narrow technical roles constrain their identities and may contribute to constraining their design innovation capacities, in contrast to more holistic, flexible spaces that foster innovation. The myths are also apparent in constructing bridges across Millennial-Baby Boomer generational divides, to facilitate engineering collaboration and knowledge transfer among engineers. Finally, the myths are situated in light of related myths and broader research trends in engineering communication. This book was originally published as a special issue of Engineering Studies.




Sociotechnical Communication in Engineering


Book Description

This edited collection explores why engineering communication constitutes sociotechnical communication, as engineering communication occurs not in a vacuum but shapes and is shaped by multiple social forces. This book was originally published as a special issue of Engineering Studies.







Socio-Technical Networks


Book Description

While there are sporadic journal articles on socio-technical networks, there's long been a need for an integrated resource that addresses concrete socio-technical network (STN) design issues from algorithmic and engineering perspectives. Filling this need, Socio-Technical Networks: Science and Engineering Design provides a complete introduction to




Engineering as a Social Enterprise


Book Description

How is society influenced by engineering and technology? How in turn does society shape engineering and technology? This book from the National Academy of Engineering explores ways in which technology and society form inseparable elements in a complex sociotechnical system. The essays in this volume are based on the proposition that many forces move and shape engineering, technology, culture, and society. Six specialists both inside and outside the field of engineering offer views on how engineering responds to society's needs and how social forces shape what engineers do and what they can achieve.




The Oxford Handbook of Cognitive Engineering


Book Description

This handbook is the first to provide comprehensive coverage of original state-of-the-science research, analysis, and design of integrated, human-technology systems.




The Next Wave of Sociotechnical Design


Book Description

This book constitutes the thoroughly refereed proceedings of the 16th International Conference on Design Science Research in Information Systems and Technology, DESRIST 2021, held in Kristiansand, Norway, in August 2021.* The 24 revised full research papers, included in the volume together with 6 short contributions and 7 prototype papers, were carefully reviewed and selected from 78 submissions. They are organized in the following topical sections: ​impactful sociotechnical design; problem and contribution articulation; design knowledge for reuse; emerging methods and frameworks for DSR; DSR and governance; the new boundaries of DSR. *Apart from the planned on-site event, the hybrid conference model was explored due to the Covid-19 pandemic.




Socio-Technical Aspects in Security and Trust


Book Description

This book constitutes the refereed post-conference proceedings of the 10th International Workshop on Socio-Technical Aspects in Security and Trust, STAST 2020, held as a virtual event, in September 2020. The 8 full papers and 3 short papers presented in this volume were carefully reviewed and selected from 42 submissions and are organized in the following topical sections: personality and behavior; behavior in face of adversaries; smart environments; decentralized systems and digital ledgers; and reflections on socio-technical aspects of security. The Chapter “Statistical Reliability of 10 Years of Cyber Security User Studies” is available open access under a Creative Commons Attribution 4.0 International License via link.springer.com.




Projects as Socio-Technical Systems in Engineering Education


Book Description

This book presents the case for Project-Based Learning within Socio-Technical Systems in Engineering Education. The book highlights the importance of projects as Socio-Technical Systems as a means for supporting and enhancing international accreditation of engineering programs. Practical examples illustrate how Socio-Technical Systems are brought into the educational environment through Project-Based Learning. The book goes on to discusses the impact this may have on Engineering Education practice. The work presented will enable engineering educators to develop curricula that can respond to societal needs, while also enhancing teaching and learning. It offers an approach to engineering education that centers on engaging scholars in projects that are located within socio-technical systems. University, government and industry leaders will gain from this book as it provides insight into strategic planning and partnership-building for Engineering Education. We hope this book will further foster deep scholarship of research to ready engineering faculties for engaging responsibly with their surrounding communities. Features: Offers applications of Project-Based Learning (PBL) in Engineering Education Matches elements of Socio-Technical Systems in Higher Engineering Education, with the Exit Level Outcomes (ELOs) required by professional engineering bodies Provides practical examples for the establishment of project environments within an academic faculty Shows examples in the success of execution of projects involving engineering educators, researchers, program developers, government agencies and industry partners Presents a framework to develop Project-Based Learning in Engineering Education that addresses Socio-Technical requirements and will enable engineering educators to collaboratively develop engineering curricula with industry that will respond to societal needs




Sociotechnical Communication in Engineering


Book Description

This collection explores why engineering communication constitutes sociotechnical communication. Sociotechnical communication acknowledges that engineering communication occurs not in a vacuum but shapes and is shaped by multiple social forces. Through diverse research cases, the authors show how sociotechnical communication disrupts common myths in engineering communication: the myth that communication can be purely technical and neutral, and that data speak for themselves. The book highlights these myths, considering first how styles, types, and means of sociotechnical communication played pivotal—and differing—roles in the evolution of wind power technology in Denmark and Germany. The role of myth in engineering blogs in also examined, wherein the effect of engineers maintaining "objective" or "neutral" personae, accentuating technical facts over their social relevance, and eschewing controversy, is to decrease public interest in engineering issues. We see the myths emerge again via product development engineers, whose narrow technical roles constrain their identities and may contribute to constraining their design innovation capacities, in contrast to more holistic, flexible spaces that foster innovation. The myths are also apparent in constructing bridges across Millennial-Baby Boomer generational divides, to facilitate engineering collaboration and knowledge transfer among engineers. Finally, the myths are situated in light of related myths and broader research trends in engineering communication. This book was originally published as a special issue of Engineering Studies.