Litcius/Paper detail

Developing a Ways of Thinking Framework for Engineering Education Research

Medha Dalal, Adam Carberry, Leanna Archambault

2021Studies in Engineering Education12 citationsDOIOpen Access PDF

Abstract

<strong>Background:</strong> Numerous calls have urged researchers to adopt novel ways of thinking in order to address complex challenges within the engineering education system. The field lacks shared criteria and understanding to characterize ways of thinking, particularly in the context of engineering education research. Ways of thinking as a lens for considering and addressing complex challenges has the potential to bring about systemic change. <strong>Purpose:</strong> This work aims to initiate a vision for a ways of thinking framework specific to engineering education research contexts. The purpose is to highlight how ways of thinking can be embedded in research practice as a means to enact systemic change. <strong>Scope:</strong> Four specific ways of thinking – futures, values, systems, and strategic – are explored by reviewing literature from different fields and making connections to engineering education research. Each way of thinking is illustrated by application examples. A compilation of the underlying concepts, abilities, and enhancement approaches for each way of thinking is also presented. <strong>Discussion/Conclusions:</strong> Ways of thinking is perceived as a concept in theory, but can and should be used in practice to innovate. Using futures, values, systems, and strategic thinking in an integrated manner can build capacity for researchers to push toward systemic change.

Topics & Concepts

Systems thinkingCritical systems thinkingFutures contractParallel thinkingEngineering ethicsStrategic thinkingContext (archaeology)Critical thinkingScope (computer science)Higher-order thinkingDesign thinkingField (mathematics)Knowledge managementSociologyOrder (exchange)Management scienceComputer scienceStrategic planningPedagogyEngineeringCognitively Guided InstructionProfessional developmentManagementBusinessProgramming languageMathematicsPure mathematicsHuman–computer interactionFinanceEconomicsArtificial intelligencePaleontologyBiologyBiomedical and Engineering EducationOrganizational Learning and LeadershipComplex Systems and Decision Making