Outcome-Based Science, Technology, Engineering, and Mathematics Education: Innovative Practices

• #1. Aligning Course Content, Assessment, and Delivery: Creating a Context for Outcome-Based Education
• #2. A Case Study of Curriculum Development in Engineering: Insights Gained over Two Decades
• #3. Changing the Curriculum to Problem-Based and Project-Based Learning
• #4. A Guide to the Art of Crafting Engineering Problems for Problem-Based Learning (PBL)
• #5. Curriculum Initiatives to Help Engineering Students Learn and Develop
• #6. A Problem-Based Laboratory (PBLab) Model for an Electrical Engineering Program
• #7. E-Portfolios as a Quantitative and Qualitative Means of Demonstrating Learning Outcomes and Competencies in Engineering
• #8. Applying Learning Theories and Animation in OSiMM: A Multimedia Computer Science Learning Courseware
• #9. Realizing Desired Learning Outcomes in Undergraduate Mathematics
• #10. Use of Computer Algebra Systems in Teaching and Learning of Ordinary Differential Equations among Engineering Technology Students
• #11. Designing a Blended Learning Model to Support Mathematical Thinking in Multivariable Calculus
• #12. Literature Review Skills for Undergraduate Engineering Students in Large Classes
• #13. Using Multiple Methods in Assessing Oral Communication Skills in the Final Year Project Design Course of an Undergraduate Engineering Program
• #14. Implementing Online Assessment for Summative Purpose in an Electronic Engineering Course
• #15. Enhancing Fuzzy Inference System-Based Criterion-Referenced Assessment with a Similarity Reasoning Technique
• #16. An Evaluation of Students’ Practical Intelligence and Ability to Diagnose Equipment Faults
• #17. Assessing Mechanical Engineering Undergraduates’ Conceptual Knowledge in Three Dimensional Computer Aided Design (3D CAD)
• #18. Relationship between Accuracy in Ability Perception, Academic Performance, and Metacognitive Skills among Engineering Undergraduates: Implications for Higher Education Practice

Khairiyah Mohd Yusof is an Associate Professor in the Department of Chemical Engineering, University Teknologi Malaysia (UTM). She is the Director of the UTM Regional Centre for Engineering Education (RCEE), which promotes meaningful research and scholarly practice in engineering education, and manages the PhD in Engineering Education program. Since 2011, she is the Secretary of the Society for Engineering Education Malaysia (SEEM). Prior to becoming the Director of RCEE, Dr. Khairiyah was the Deputy Director at the Centre for Teaching & Learning (2008 – 2011), and the Head of the Chemical Engineering Department (2006-2008). Her engineering education research focuses on innovative teaching and learning practices, especially Cooperative Learning (CL) and Problem-based Learning (PBL), first year experience, and sustainable development in engineering education. A practitioner of Cooperative Problem-based Learning (CPBL), she regularly conducts training for academic staff from institutions of higher learning, especially in student-centered teaching and learning methods.

Naziha Ahmad Azli is an Associate Professor in the Faculty of Electrical Engineering at Universiti Teknologi Malaysia (UTM). She is currently the Laboratory Manager of the Faculty and a member of the IEEE Education Society and the Society of Engineering Education Malaysia (SEEM). She was the 4th Year Laboratory Coordinator at the Faculty who initiated the Problem-based Laboratory in 2007. She was also a member of the Academic Quality Committee that is responsible for preparing the documentations and data for the purpose of its engineering programs’ accreditation. Dr. Naziha has written many papers that are published in local as well international conference proceedings and academic journals. The publication includes those related to her technical field of research as well as innovative T&L methods and experiences. She has recently been involved in giving a series of talks on outcome-based education to all non-academic staff at UTM.

Azlina Mohd Kosnin is a Lecturer at the Faculty of Education, Universiti Teknologi Malaysia. She is currently in charge of the postgraduate programme for Educational Psychology, postgraduate diploma of teaching as well as teacher development programmes at her faculty. She has more than 15 years of experience teaching education foundation subjects to undergraduates and various subjects related to the field of Educational Psychology at Master’s and PhD levels. Her research interests among others include student motivation, student self-regulation in learning, student development and intellectual maturity. She supervises Master’s and PhD students’ research on various topics including research related to engineering education.

Sharifah Kamilah Syed Yusof is a Senior Lecturer at Universiti Teknologi Malaysia. She earned her PhD in Electrical Engineering and M.EE in Communication from the same university in 2006 and 1994, respectively. She earned a BSc (cum laude) in Electrical Engineering in 1988 from George Washington University. She has taught post-graduate courses in Advanced Digital Communication and undergraduate courses in digital communication systems, signal and network, and digital logic. Her fields of specialization include wireless communication systems, broadband, OFDM-based systems, cognitive radio, and others.

Yudariah Mohammad Yusof is an Associate Professor at the Department of Mathematical Sciences, Faculty of Science, Universiti Teknologi Malaysia. Her particular specialization is on advanced mathematical thinking and problem solving. Her research interests are investigating opportunities for meaningful mathematics learning and innovative mathematics teaching at the tertiary level. This includes enhancing and supporting students’ use of their own mathematical powers, mathematical knowledge construction, higher order thinking and creative problem solving. She is greatly involved in engineering education specifically on the mathematical needs of prospective engineers. Currently, her research work focus on crafting relevant mathematical experiences and creating thinking space in engineering mathematics.