This report is an integration of the reports, perspectives and concerns from four discussions groups: students, faculty, curricula, and experiential learning. Recommendations include: engineering educ. must encourage multiple thrusts for diversity, engineering educ. needs a new system of faculty rewards and incentives, assessment and evaluation processes must encourage desired expectations for both faculty and students; the changes needed for engineering educ. require comprehensive change across the campus, not just in the engineering college. Illustrated.
This book discusses essential approaches and methods in connection with engineering education for sustainable development. Prepared as a follow-up to the 2015 Engineering Education in Sustainable Development (EESD) Conference held in British Columbia, Canada, it offers the engineering community key information on the latest trends and developments in this important field. Reflecting the need to address the links between formal and informal education, the scholars and professionals who contribute to this book show by means of case studies and projects how the goal of fostering sustainable development in the context of engineering education can be achieved. In particular, they discuss the need for restructuring teaching at engineering‐focused institutions of higher education and provide practical examples of how to do so. The book places special emphasis on state-of-the art descriptions of approaches, methods, initiatives and projects from around the world, illustrating the contribution of engineering and affiliated sciences to sustainable development in various contexts, and at an international scale.
Effective design and manufacturing, both of which are necessary to produce high-quality products, are closely related. However, effective design is a prerequisite for effective manufacturing. This new book explores the status of engineering design practice, education, and research in the United States and recommends ways to improve design to increase U.S. industry's competitiveness in world markets.
Traditionally, engineering education books describe and reinforce unchanging principles that are basic to the field. However, the dramatic changes in the engineering environment during the last decade demand a paradigm shift from the engineering education community. This revolutionary volume addresses the development of long-term strategies for an engineering education system that will reflect the needs and realities of the United States and the world in the 21st century. The authors discuss the critical challenges facing U.S. engineering education and present a plan addressing these challenges in the context of rapidly changing circumstances, technologies, and demands.
Over the past decade, software engineering has developed into a highly respected field. Though computing and software engineering education continues to emerge as a prominent interest area of study, few books specifically focus on software engineering education itself. Software Engineering: Effective Teaching and Learning Approaches and Practices presents the latest developments in software engineering education, drawing contributions from over 20 software engineering educators from around the globe. Encompassing areas such as student assessment and learning, innovative teaching methods, and educational technology, this much-needed book greatly enhances libraries with its unique research content.
In response to the challenges of globalization and local development, educational reforms are inevitably becoming one of the major trends in the Asia-Pacific Region or other parts of the world. Based on the most recent research and international observations, this book aims to present a new paradigm including various new concepts, frameworks and theories for reengineering education. This book has 21 chapters in three sections. Section I "New Paradigm of Educational Reform" containing eight chapters, illustrates the new paradigm and frameworks of reengineering education, fostering human development and analysing reform policies and also discusses the trends and challenges of educational reforms in the Asia-Pacific Region. Section II "New Paradigm of Educational Leadership" with five chapters aims to elaborate how the nature, role and practice of school leadership can be transformed towards a new paradigm and respond to the three waves of education reforms. Section III "Reengineering School Management for Effectiveness" with eight chapters aims to provide various practical frameworks for reengineering school management processes and implementing changes in school practices.
Traditionally, engineering education books describe and reinforce unchanging principles that are basic to the field. However, the dramatic changes in the engineering environment during the last decade demand a paradigm shift from the engineering education community. This revolutionary volume addresses the development of long-term strategies for an engineering education system that will reflect the needs and realities of the United States and the world in the 21st century. The authors discuss the critical challenges facing U.S. engineering education and present a plan addressing these challenges in the context of rapidly changing circumstances, technologies, and demands.
Holistic Engineering Education: Beyond Technology is a compilation of coordinated and focused essays from world leaders in the engineering profession who are dedicated to a transformation of engineering education and practice. The contributors define a new and holistic approach to education and practice that captures the creativity, interdisciplinarity, complexity, and adaptability required for the profession to grow and truly serve global needs. With few exceptions today, engineering students and professionals continue to receive a traditional, technically-based education and training using curriculum models developed for early 20th century manufacturing and machining. While this educational paradigm has served engineering well, helping engineers create awe-inspiring machines and technologies for society, the coursework and expectations of most engineering programs eschew breadth and intellectual exploration to focus on consistent technological precision and study. Why this dichotomy? While engineering will always need precise technological skill, the 21st century innovation economy demands a new professional perspective that recognizes the value of complex systems thinking, cross-disciplinary collaborations, economic and environmental impacts (sustainability), and effective communication to global and community leaders, thus enabling engineers to consider "the whole patient" of society's needs. The goal of this book is to inspire, lead, and guide this critically needed transformation of engineering education. "Holistic Engineering Education: Beyond Technology points the way to a transformation of engineering education and practice that will be sufficiently robust, flexible, and systems-oriented to meet the grand challenges of the 21st century with their ever-increasing scale, complexity, and transdisciplinary nature." -- Charles Vest, President, National Academy of Engineering; President Emeritus, MIT "This collection of essays provides compelling arguments for the need of an engineering education that prepares engineers for the problems of the 21st century. Following the National Academy’s report on the Engineer of 2020, this book brings together experts who make the case for an engineering profession that looks beyond developing just cool technologies and more into creating solutions that can address important problems to benefit real people." -- Linda Katehi, Chancellor, University of California at Davis "This superb volume offers a provocative portrait of the exciting future of engineering education...A dramatically new form of engineering education is needed that recognizes this field as a liberal art, as a profession that combines equal parts technical rigor and creative design...The authors challenge the next generation to engineering educators to imagine, think and act in new ways. " -- Lee S. Shulman, President Emeritus, The Carnegie Foundation for the Advancement of Teaching and Charles E. Ducommun Professor of Education Emeritus, Stanford University
The majority of professors have never had a formal course in education, and the most common method for learning how to teach is on-the-job training. This represents a challenge for disciplines with ever more complex subject matter, and a lost opportunity when new active learning approaches to education are yielding dramatic improvements in student learning and retention. This book aims to cover all aspects of teaching engineering and other technical subjects. It presents both practical matters and educational theories in a format useful for both new and experienced teachers. It is organized to start with specific, practical teaching applications and then leads to psychological and educational theories. The "practical orientation" section explains how to develop objectives and then use them to enhance student learning, and the "theoretical orientation" section discusses the theoretical basis for learning/teaching and its impact on students. Written mainly for PhD students and professors in all areas of engineering, the book may be used as a text for graduate-level classes and professional workshops or by professionals who wish to read it on their own. Although the focus is engineering education, most of this book will be useful to teachers in other disciplines. Teaching is a complex human activity, so it is impossible to develop a formula that guarantees it will be excellent. However, the methods in this book will help all professors become good teachers while spending less time preparing for the classroom. This is a new edition of the well-received volume published by McGraw-Hill in 1993. It includes an entirely revised section on the Accreditation Board for Engineering and Technology (ABET) and new sections on the characteristics of great teachers, different active learning methods, the application of technology in the classroom (from clickers to intelligent tutorial systems), and how people learn.
