Examines reasons for dissatisfaction with the limitations of single-discipline approaches to engineering education. Considers the development of a systems-based interdisciplinary course. Provides an example at the University of Bradford. (YP)

Describes the development of systems thinking and the form taken in the study of work and organizations. Discusses some criticisms from social scientists. Explores the relationship among systems, interdisciplinarity, and engineering education. (Author/YP)

Discusses the necessity of interdisciplinary and systems approaches in engineering education for analyzing complex issues. Presents several recent problems. (YP)

Recommends systems subjects as part of college curricula for providing students with broader skills and with background that does not become outdated. Topics included are requirements of a basic examination, cooperation with other professionals, and examples of systems technologies and interdisciplinary research. (Author/YP)

Argues that systems thinking can be developed by experiential learning activities which complement both intradisciplinary projects and technical knowledge inputs. Discusses the development of systems thinking, the form of engineering curricula, and assessment. (Author/YP)