enABLe is Portsmouth's University's emergent framework to support an innovative approach to team-based learning design. We are currently refining the elements of an enABLe workshop and toolkit, that colleagues across the University have helped to define through a series of pilot events.
The Aalborg Centre for Problem Based Learning in Engineering Science and Sustainability is a category 2 centre under the auspices of UNESCO, approved by the General Conference of UNESCO in November, 2013. The Aalborg Centre was formally launched on May 26, 2014.
Globally, there is a need for educating engineers and scientist who can participate in development of sustainable innovations. This will imply a reform of engineering and science education to educate engineers with employable knowledge and skills.
The Aalborg Centre contributes to a reform strategy to higher education by combining Problem and Project Based Learning (PBL), Engineering Education Research (EER) and Education for Sustainable Development (ESD). This is a unique combination of Research & Development areas that are mutual dependent and complementary.
A driving force for the Aalborg Centre is the exemplary practice Aalborg University has for both PBL and integration of sustainability in engineering and science education. Since 1974, Aalborg University has practised PBL as the pedagogical learning methodology during the entire study period. Aalborg University has also the objective for all students to gain sustainability knowledge, skills and competences as a result of a series of sub-learning outcomes throughout the education.
The Aalborg Centre encompass the UNESCO Chair in Problem Based Learning (UCPBL) which was established in 2007 and is renown for its accomplishments in supporting the development of Problem Based and Project Based Learning in Engineering Education. The Obel Family Foundation has kindly offered to sponsor the UNESCO Centre in PBL for a period of five years with the main task to lead the Aalborg Centre.
Design patterns make hidden knowledge explicit and shareable. They are a tool to communicate practical educational strategies. Our first batch of patterns are solutions we've tried and tested as part of the CLaS project. They cover topics including: creating self-paced modules, teaching design thinking online, object-based learning at scale, running a live Q&A online and scheduling tutorials all in a day. Each pattern includes examples of how they were implemented in a specific context in a unit of study.
A. Savoy, R. Proctor, and G. Salvendy. Computers & Education, 52 (4):
858-867(May 2009)The benefit of PowerPoint™ is continuously debated, but both supporters and detractors have insufficient empirical evidence. Its use in university lectures has influenced investigations of PowerPoint’s effects on student performance (e.g., overall quiz....
M. Källkvist, S. Gomez, H. Andersson, and D. Lush. The Internet and Higher Education, 12 (1):
35-44(January 2009)The purpose of this study was to create and evaluate personalised virtual learning spaces (PVLSs) in a course that was previously delivered face-to-face only. The study addressed three related questions: (1) Can a PVLS successfully be introduced into a....
M. Yerushalmy, and B. Shternberg. Beyond constructivism: A model and modeling perspective on teaching,learning, and problem solving in mathematics education, Lawrence Album, Mahwah, NJ, (in press)