Teaching Approach

On the Usefulness of Personality Profile in Effective Group Functioning

Project Overview
Project Title	On the Usefulness of Personality Profile in Effective Group Functioning
Project Leader	Prof Michelle Yik
School / Dept	SHSS / SOSC
Project Duration	Aug 2006 - Dec 2007
Project Description	Group work is an integral component of many university courses that constitutes important action learning experience for students. One nagging issue is how the groups should be formed so that they are functional to accomplishing group projects. Should students be allowed to form groups by themselves? Alternatively, would there be any guidelines based on which instructors could use to form functioning groups? The project compared the effectiveness of two methods of grouping students in accomplishing group projects. They were grouping on voluntary basis and grouping based on similarity of personality profiles.
Project Outcome	Paper: “Working Together: How Useful is Personality in Contributing to Group Performance?” Paper presented at the Third Teaching & Learning Symposium, Hong Kong University of Science and Technology (December 2007). “On the Emotional Core of Students’ Academic Achievement: The Role of Negative Affectivity.” Paper presented at the Korean Association of Psychological and Social Issues, Korea, “Asia’s Educational Miracle: Psychological, Social and Cultural Perspectives” (October 2006) Publication: Yik, M. Relating Personality to Group Performance: The Mediating Effect of Task Focus.
Status	Completed
Project Documents (Only accessible by HKUST users)	Project Plan Progress Report: First \| Second \| Final Report
Adaptation	Full Project

Establishing an Assessment Reporting System for Undergraduate Programs

Project Overview
Project Title	Establishing an Assessment Reporting System for Undergraduate Programs
Project Leader	Prof Mike So
School / Dept	SBM / ISOM
Project Duration	Jan 2009 - Feb 2013
Project Description	This is a program-level project that aims at developing a new assessment and reporting system for the new program - Risk Management and Business Intelligence (RMBI) - to understand individual students' strengths and weaknesses as well as to keep track how program intended learning outcomes achieved throughout the course study. The learning outcomes for the RMBI Program, including communication skills, integration of knowledge; teamwork and cooperation; creativity and critical thinking; and IT proficiency.
Project Outcome	A basic empirical analysis on the data collected from the assessment questionnaire was conducted. Particular focus is on critical thinking, the use of information and language skill. Some interesting findings were revealed from the analysis. They are: The surveyed students on average wrote 3.5 pages for their English assignments per week. This may be insufficient for maintaining a high writing standard. On average, the surveyed students met their instructors/ TAs once per month, indicating that students may not be very active in seeking academic advice. Students were familiar with searching inforamtion for their assignments on the internet but not in the library. This may suggest that students overlook or underestimate the value of the library. The university may organize seminars or classes to let students know more about resources available in the library. After the first-level analysis, statistical models linking the degree of the involvement of the students in various generic-skill learning activities in their daily life to different performance measures were obtained. Summary results are: Taking committee position has dominant negative effect on the academic performance of the students. Frequently using application software is not a sign of positive influence on the critical-thinking proficiency of the students. In fact, the effect from frequently using application software to critical-thinking proficiency is negative. Critical-thinking proficiency is positively related to the frequency of searching information from different sources. Hence instructors may consider emphasizing and encouraging students to conduct more "critical" information search for their assignments. Students in general pay inadequate effort in reading newspapers or discussing current controversial issues. In the project, an assessment form was designed to let students know their generic skill competencies and to learn which areas they can improve. Sharing sessions were held to explain to students how to use and interpret the assessment form. Structural equation models were developed to understand the relationship between students' learning behaviors and their generic skill proficiency.
Status	Completed
Project Documents (Only accessible by HKUST users)	Project Plan Progress Report: First \| Second \| Third \| Final Report Project-end Review by Project Leader
Adaptation	Full Project

Assessment Strategies in Problem-based Learning

Project Overview
Project Title	Assessment Strategies in Problem-based Learning
Project Leader	Prof Mike So
School / Dept	SBM / ISMT
Project Duration	Nov 2006 - Oct 2007
Project Description	The project developed assessment strategies to align effectively teaching methods and learning outcomes to assessment in problem-based learning.
Project Outcome	This project developed a set of effective assessment strategies for problem-based learning (PBL) activities (for a small class teaching - less than 50 students - and not limited to business and finance domains) to align effective teaching methods and learning outcomes. It aimed at establishing a benchmarking of assessment strategy for such students-centered learning activities. In-class PBL activities: Role-play activities include students' presentation, group discussion and debate and essay report. Students will be assessed by lecturers' observation from the aspects of innovative and feasible solutions, critical thinking, discussion and presentation techniques. Authentic business projects: Commitment contract sign-up (Completeness of the Business Project and Confidentiality of Information) is proposed. Students who cannot fulfill this commitment may subject to penalize on grade deduction in this course. One copy is kept by students. Incentive to students: Students are encouraged to ask for a reference letter from the company at the end of the project. Regular meeting with students and regular progress reports are required to keep track the students' progress. Any problem will be discovered at the early stage and teachers could provide immediately support to students. An interim meeting with clients to collect project comments. Peer assessment (no advance notice is given to students) is arranged in examination session.
Status	Completed
Project Documents (Only accessible by HKUST users)	Project Plan Progress Report: First \| Second \| Final Report
Adaptation	Full Project

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Stimulating Students' Interest in Business Subjects Through Problem-Based Learning

Project Overview
Project Title	Stimulating Students' Interest in Business Subjects Through Problem-Based Learning
Project Leader	Prof Mike So
School / Dept	SBM / ISMT
Project Duration	Nov 2005 - Aug 2006
Project Description	Many students learn business subjects superficially. They only memorize what they have learnt and rarely think how their knowledge can be applied. Moreover, when they touch on new, fast-growing areas that are not clearly defined in books/articles, they seldom do research on the new areas and develop their knowledge base. Problem-based learning (PBL) can help solve the above problems. It is a teaching mode that requires thinking, learning, sharing and applying to account through selected hot and related topics. This allows students to learn interactively and deeply and in turn stimulating their interest in studying business subjects.
Project Outcome	There are three Problems –Based learning (PBL) activities held in this project. According to our questionnaire surveys and focus group interview, most students feel that PBLactivities can improve their independent thinking. They feel that they have deeper understandingof the subject from the activities. In addition, students think that the activities are good in thesense that they can form groups and learn from each other. They learnt communication skills andcompromising with group mates. For activity one - Group Discussion, besides learning from the interaction between group mates,students think that the brainstorming experience from the discussion is good. They can also learnother students’ way of thinking as students from different academic backgrounds are assigned toa group. For activity two - Topic Presentation, students think that the topic presentation is useful. During the activity topic presentation, they are comfortable with group works and the communication among group mates is good. However, some students think that some topics are too hard for this course. Sometimes they found that the topics are too broad that they have not enough time for searching information or doing in-depth analysis on the topic. For activity three – Business Project, they found that participating in company projects isa goodlearning experience. Besides learning how to apply what they have learnt from lectures, they gotmore familiar with the risk management industry and business operations. They also learn how totest the assumptions of a method or amodel. They think they can learn more from the companyprojects than the group discussion or topic presentation because the company projects involvemore difficult tasks. However, they think that the time allowed may be too short. Some studentsalso worried about having meeting with the clients. In short, they agreed that cooperation andenthusiasm are important in participating in the company projects. Most of them give a highrating to the course as practical experience, satisfaction and success can all be achieved.
Status	Completed
Project Documents (Only accessible by HKUST users)	Project Plan Progress Report: First \| Second \| Final Report
Adaptation	Full Project

Team-based Supplemental Instruction in an Engineering Course on Grand Challenges

Project Overview
Project Title	Team-based Supplemental Instruction in an Engineering Course on Grand Challenges
Project Leader	Prof Neil Mickleborough and Prof Edmond Ko
School / Dept	SENG / CIVL & E²I
Project Duration	Jan 2012 - Dec 2013
Project Description	The project proposed an approach in which students were recruited and trained as 'peer team coaches'. The idea was to take the Supplemental Instruction model for senior students acted as role models to junior students, and extended it to team-based learning. It aimed at developing students' problem-solving, teamwork, leadership , pedagogical and coaching skills.
Project Outcome	The project led to an enhancement in student learning. After the course, students were able to demonstrate problem-solving, teamwork, and leadership skills. Peer tutors acquired pedagogical and coaching skills. Deliverables include: Training materials for peer tutors Assessment rubrics Sharing of project results within HKUST to promote the inquiry-based pedagogies
Status	Completed
Project Documents (Only accessible by HKUST users)	Project Plan Final Report Project-end Review by Project Leader
Adaptation	Full Project

Leadership Development for Engineering Students

Project Overview
Project Title	Leadership Development for Engineering Students
Project Leader	Prof Kam Tim Tse
School / Dept	SENG / CIVL
Project Duration	Feb 2012 - Jan 2014
Project Description	The project aimed to strengthen the leadership training of students in the present curriculum by organizing group projects that were designed based on real consultant projects. The project teams were established from engineering students of various years; which senior students were the team leaders who had to mobilize the teammates from junior students to complete the projects.
Project Outcome	The major outcomes and deliverables of the project are: a set of lecture note on leadership attributes and skills; three sets of questionnaires to measure the leadership skill, styles and matrix; leadership rubrics particularly suitable for engineering students.
Status	Completed
Project Documents (Only accessible by HKUST users)	Project Plan Final Report Project-end Review by Project Leader
Adaptation	Full Project

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Teaching a Second Programming Language Using the Emporium Model

Project Overview
Project Title	Teaching a Second Programming Language Using the Emporium Model
Project Leader	Prof David Rossiter
School / Dept	SENG / CSE
Project Duration	Jul 2011 - Jan 2014
Project Description	To facilitate transition to the 4 year-program, this project pioneered the design and creation of a suite of transition modules for teaching a second programming language using the Emporium Model. Specifically, the content of the transition module would be designed and delivered within the context of LMES with appropriate assessment methodologies.
Project Outcome	A course (now a group of courses) which teaches HKUST students who already know how to program to learn a second or third programming language, delivered using non-traditional methodology on a specially arranged platform.
Status	Completed
Project Documents (Only accessible by HKUST users)	Project Plan Final Report Project-end Review by Project Leader
Adaptation	Full Project

Less Mathematics Anxiety and More Engineering: the Integration of Graphing Calculators with Computer Algebra Systems (GCCAS) in Engineering Courses

Project Overview
Project Title	Less Mathematics Anxiety and More Engineering: the Integration of Graphing Calculators with Computer Algebra Systems (GCCAS) in Engineering Courses
Project Leader	Prof Thomas WC Hu and Prof Wenjing Ye
School / Dept	SENG / CIVL & MECH
Project Duration	Jul 2011 - May 2013
Project Description	This project promoted the use of Graphing Calculators with Computer Algebra Systems (GCCAS) in handling mathematical tasks in engineering courses that cannot be done efficiently by hand and/or ordinary calculators. Teaching materials and problem sets were developed to train students on the engineering applications of GCCAS. In addition, a web-based discussion group in Facebook was developed for students and instructors of engineering and science courses to communicate on using GCCAS.
Project Outcome	New methods for solving mechanics problems, further automating previously CAS-assisted approaches (e.g. complete automation of the assembly procedure for matrix truss analysis), and their step-by-step illustration in various CIVL course materials; Revised mechanics problem sets, quizzes and exams which incorporate more in-depth treatment of popular topics in statics, dynamics and engineering surveying; Student survey responses and control-group test data verifying the positive impact of using computer algebra systems to alleviate mathematical burden in engineering classes; Innovative supplementary course materials to treat MECH 2010 homework problmes in a non-traditional, CAS-assisted way.
Status	Completed
Project Documents (Only accessible by HKUST users)	Project Plan Final Report Project-end Review by Project Leader
Adaptation	Full Project

Eliminating Teaching and Learning Barriers for Improved Learning Outcomes in a Class with Students of Diverse Academic Backgrounds by Employing a Student-Centered Problem-Based Teaching and Learning Method

Project Overview
Project Title	Eliminating Teaching and Learning Barriers for Improved Learning Outcomes in a Class with Students of Diverse Academic Backgrounds by Employing a Student-Centered Problem-Based Teaching and Learning Method
Project Leader	Prof Xueqing Zhang
School / Dept	SENG / CIVL
Project Duration	Jul 2011 - Jun 2013
Project Description	This project employed a student-centered problem-based teaching and learning method (PBTL) to a sample course. With a review of PBTL practices in other universities, a number of interactive teaching and learning resources were developed, including suites of problems, guidelines for in-class exercises, student teamwork, in-class presentations and oral presentations. Special focus was placed on how to develop the problems for PBTL in the view of the diverse student backgrounds to stimulate and situate learning with increased degree of relevance and rigor.
Project Outcome	Developed a student-centered problem-based teaching and learning methodology for the civil engineering courses/programs Developed resources for the implementation of the student-centered problem-based teaching and learning methodology, e.g., suites of problems and guidelines for in-class exercises, student team work, in-class discussions and oral presentations Developed innovative methods for the assessment of student learning outcomes, including student’s self-evaluation, student’s peer-evaluation, and instructor’s continuous evaluation Implemented the student-centered problem-based teaching and learning methodology in two sample courses, CIVL5210 and CIVL4250 Created an interactive teaching-learning environment for two sample courses CIVL5210 and CIVL4250
Status	Completed
Project Documents (Only accessible by HKUST users)	Project Plan Final Report Project-end Review by Project Leader
Adaptation	Full Project

Learning Embedded System Design through the Anatomy of a Smart Phone and Hands-on Experience of Implementing Real-Life Applications

Project Overview
Project Title	Learning Embedded System Design through the Anatomy of a Smart Phone and Hands-on Experience of Implementing Real-Life Applications
Project Leader	Prof Chi-ying Tsui
School / Dept	SENG / ECE
Project Duration	Jan 2011 - Jun 2012
Project Description	This project provided opportunities for students to get to know what an embedded system was, to provide hands-on experience on how to use an embedded system to create new applications as well as to prepare them for their future career. Practical components were injected into the course by the inviting experienced engineering practitioners from the industry to hold hands-on sessions. Apart from the coursework, students carried out their own embedded system design project which fostered their creativity and design knowledge.
Project Outcome	Developed and offered a new course on embedded system design that focused on introducing a holistic view on complex electronic system design and providing experience on integrated hardware/software design. Developed different software and hardware learning modules which were used in the course to provide a comprehensive understanding and appreciation on embedded systems. In particular, 14 weeks lecture materials were developed, 6 software and hardware laboratory sessions and material were developed. Offered hand-on experience which included laboratory sessions, design projects and presentations in the course. The students needed to do project proposal presentations and also final project presentation. Invited the guest lecturer and some experienced engineering practitioners from the industry to share their real working experience in the field of embedded design. Presented the course in the department faculty seminar to share the project experience.
Status	Completed
Project Documents (Only accessible by HKUST users)	Project Plan Final Report Project-end Review by Project Leader
Adaptation	Full Project

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