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CRC Press
10 October 2018
Curriculum planning & development; Universities; Teaching of a specific subject; Engineering: general
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.


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
Edited by:   Johan Meyer (University of Johannesburg), Zach Simpson (University of Johannesburg), Sune von Solms (University of Johannesburg)
Imprint:   CRC Press
Country of Publication:   United Kingdom
Dimensions:   Height: 235mm,  Width: 156mm, 
Weight:   313g
ISBN:   9781138483606
ISBN 10:   1138483605
Pages:   158
Publication Date:   10 October 2018
Audience:   Professional and scholarly ,  Undergraduate
Format:   Hardback
Publisher's Status:   Active
Section I Engineering Education Projects as Socio-Technical Systems Chapter 1 Introduction to Socio-Technical Systems Naude Malan Chapter 2 Project-Based Learning Zach Simpson and Sune von Solms Chapter 3 Engaged Learning Dalien Rene Benecke, Naude Malan and Nickey Janse van Rensburg Chapter 4 Appropriate Technology Naude Malan and Nickey Janse van Rensburg Chapter 5 Regulatory Context of Engineering Education Zach Simpson and Johan Meyer Section II Case Studies of Engineering Education Projects within Socio-Technical Systems Chapter 6 Systems Engineering and Project Management: The Case of the Shell Eco-Marathon Sune von Solms and Johan Meyer Chapter 7 Engineering Sustainability and Impact: The Case of the Gwakwani Village Project Sune von Solms and Johan Meyer Chapter 8 Development of Non-Technical Competencies: The Case of the Jozi Digital Ambassadors Project Zach Simpson and Dalien Rene Benecke Section III Institutional Challenges for Engineering Education Projects within Socio-Technical Systems Chapter 9 Social Innovation and Entrepreneurship Nickey Janse van Rensburg and Naude Malan Chapter 10 Managing Socio-Technical Projects in Higher Education Hannelie Nel

Professor Johan Meyer is the Head of School of Electrical Engineering in the Faculty of Engineering and the Built Environment (FEBE) at the University of Johannesburg (UJ). He holds a B.Ing (Electrical and Electronic Engineering), an M.Ing (Electrical and Electronic Engineering) and a D.Ing (Electrical Engineering) from the Randse Afrikaanse University. He has considerable experience in systems engineering stemming from his industrial work as systems engineering manager for a large avionics programme. He serves on the Faculty Science programme Committee and the Technical Programme Committee. He was instrumental in the design of the new Bachelor of Engineering Technology curriculum and advisor to the engineering programme accreditation committees of the engineering science and engineering technology programmes offered at the University of Johannesburg. Dr. Zach Simpson is a Senior Lecturer in the Faculty of Engineering and the Built Environment at the University of Johannesburg. He holds a PhD in Education from the University of Cape Town, South Africa. Zach has worked in the area of engineering education since 2009, during which time he has authored several journal articles, conference papers and book chapters. His work in this book reflects his background as an educationalist and the application thereof to the concerns of engineering study. For over eight years, Zach has worked with engineering educators on (re)developing curriculum and assessment to improve alignment of these with the requirements of the modern workplace; characterised as complex, dynamic and multidisciplinary. He has published work pertaining to cognitive demand, gender dynamics, assessment and the use of representations in engineering study. Dr. Sune von Solms is a Senior Lecturer at the Faculty of Engineering and the Built Environment at the University of Johannesburg, South Africa. She obtained a Ph.D in Computer Engineering in 2012, an M.Eng (Computer Engineering) Cum Laude in 2009 and a B.Eng (Computer and Electronic Engineering) Cum Laude in 2007 from the North-West University. Sune is a registered professional engineer with the Engineering Council of South Africa (ECSA) and a National Research Foundation (NRF) rated researcher. Her research interests include networks, engineering education and the social and human aspects of engineering. She is actively involved in engineering and community engagement projects within rural communities. Sune is part of the socio-technical team responsible for developing and maintaining relationships with partners in rural communities, exploring the needs of those partners, and designing and developing solutions for the rural communities.

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