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Engineering Leaders Conference 2014 on Engineering Education
- Conference date: 8-11 Nov 2014
- Location: Doha, Qatar
- Volume number: 2015
- Published: 29 August 2015
1 - 20 of 80 results
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Introduction to the Proceedings of the 2014 Engineering Leaders Conference
Authors: Hamid R. Parsaei and Nimir ElbashirFollowing the huge success story of the 2013 World Congress of Engineering Education, TexasA&M University at Qatar, in collaboration with our industry partner Maersk Oil Qatar, organizedthe 2014 Engineering Leaders Conference as an event to bring together Engineering Educationscholars from all over the world in one summit. The conference was held on November 8-11,2014 in the Hyatt Regency Hotel in Doha, Qatar. Over 350 people representing 28 countries fromsix continents attended this global event. This conference intended to provide a forum forresearchers, engineers and academicians from around the world to present and disseminate theirresearch results and development activities on engineering and STEM education. The conferencealso provided a platform to exchange ideas about effective techniques and pedagogies toprepare new generations of engineering leaders who will address global challenges.Many of our participants shared their findings and experience on how to motivate and engageyoung talent to choose STEM disciplines as career paths. One of our objectives in organizing the2014 Engineering Leaders conference was to bring together engineering and STEM educatorsfrom around the region and throughout the globe to further promote and exchange ideas anddiscuss experiences in STEM education, instructional excellence, engineering education research,the role of technology in engineering education, entrepreneurship, new models for collaborativeengineering education, and leadership.The Congress also intended to serve as a forum to encourage the involvement of corporatedecision makers, as well as public policy makers, to convey their opinion regarding the needsand type of theoretical and practical hands-on education the modern engineering graduate isexpected to possess. The conference included several plenary sessions and discussion groupsfor high profile scholars and industry leaders to provide insight in the future of EngineeringEducation. Future trends in STEM and engineering education and instructional quality, aswell as the resources required to deliver a world-class education, were some of the significantissues addressed by this annual event. The conference also showcased the advancements inengineering and STEM education in Qatar and Middle East and North African countries over thepast two decades.We received over 150 submissions and selected 78 of them for presentation and inclusion inthis proceedings.Again, we truly appreciate your submission and participation in this conference and lookforward to seeing you at the third conference in 2016. The editor of this proceeding wouldlike to acknowledge QScience for their support in developing and publishing the conferenceproceedings.
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A report on a university-wide internship scheme in higher education
Authors: Achilles Vairis, Kostas Loulakakis and Markos PetousisInternships in firms are becoming more widespread, either as an integral part of higher education courses, (ranging from engineering to accounting and social work), or are sought out by students themselves. This paper reports on a four-year period (2010-2013) of internship practice at a technological university on the Greek island of Crete – where internships are a compulsory part of undergraduate courses – and analyses the experiential-learning process as experienced by the students, academics and business managers. The particular internship programmes are described in terms of goals and procedures regarding employment conditions and assesses the students, employers and the process itself through questionnaires. Finally, recommendations are made for the future of internship programmes based on this assessment so as to benefit all stakeholders.
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Ethical issues in teaching at an American university in the Middle-East
Authors: Sami W. Tabsh, Hany A. El Kadi and Akmal S. AbdelfatahResponsibilities of faculty members generally focus on teaching, research, and service. Faculty members are expected to hold high standards of ethics while performing their duties. As teachers, faculty members are involved in the education of students and are responsible for supervising student work. They are expected to maintain competency in their field of concentration, conduct their courses in conformity with the content and format, and carry out classes and exams at the scheduled times and places. They should encourage honest academic conduct and make sure that student evaluation reflects their true performance. This paper discusses the results of a survey completed by faculty on issues related to faculty ethics at a university in the Middle-East. Results of the study showed that a large number of the faculty considered issues related to grade change to be serious. Preferred courses of action by senior faculty were stricter than those of junior faculty. No definite trend was observed between the responses of faculty based on their discipline. Female faculty and administrators were generally in favor of seeking information from the guilty faculty on issues involving dishonesty before taking the matter up to the higher administration.
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African American female engineering students' experience with stereotype threat: A narrative inquiry
More LessDue to the social context of engineering classrooms, stereotype threat (STT) may play an essential role in the dearth of AA females in engineering. Empirical studies have confirmed the deleterious effects STT has on students' performance. However, acceptance of STT as more than a laboratory phenomenon necessitates an in-depth understanding of how stigmatized groups experience being socially devalued and negatively stereotyped. In this qualitative investigation, the Critical Race Theory tenet of counter-storytelling is applied to capture the narratives of AA females to comprehend how they resist or overcome STT and persist in engineering. Data from semi-structured interviews is used to assess what meaning AA female engineering students construct of events that trigger or protect them from STT. Findings suggest that AA females in engineering are certainly experiencing STT. Preliminary analysis reveal five characteristic themes shared by the participants: (1) excessive competitiveness with other students, especially other females; (2) being ‘invisible’ or an aversion of being identified by their gender and/or race; (3) discomfort with uncaring and unwelcoming environments; (4) silence and (5) reliance on received knowledge.
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Factors pertaining to academic probation of engineering students: A case study
Authors: Abdullah Al-Badi, Joseph Jervase, Saleh Sanussi and Adel GastliEnsuring normal progression of students isof paramount importance due to its financial implications in a higher education institution. An indicator that reflects how well an institution is doing in this respect is in the number of students on probation. This study was conducted through a survey to determine the underlying factors that lead to academic probation by the students in order to help in recommending remedial measures. As a case study, the survey was carried out on students in the College of Engineering at Sultan Qaboos University (Oman) who were on academic probation by the end of fall semester. This study has revealed that failure in basic science courses is a major contributing factor. Other factors are the students' poor study habits, inability to concentrate and lack of academic advising in some cases. Recommended remedial measures include establishing drop-in centers to provide individual tutoring, and an advising unit in each department. A course on study skills and time management is recommended for all new students.
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Engineering ethics and professionalism education for a global practice
By Nael BarakatEngineering practice today has no geographical boundaries. When considering global challenges shared by all humans, collaboration between engineers around the globe becomes a requirement for the success of any proposed solution. Therefore, globally competent engineers are critical and needed in huge numbers to lead such collaborations. Nevertheless, preparing globally competent engineers requires equipping them with a solid and relevant technical base, coupled with a thorough and robust engineering ethics and professionalism understanding, which will allow them to quickly understand the human, societal, and local context of their practice, adapt to unexpected situations, and lead improvements and innovations. This set of skills in engineering, also known in the literature as soft or professional skills, falls within the area of engineering ethics and professionalism, which make up the umbrella covering all the qualitative and evolving aspects of engineering education and practice, and needed for leadership. These same aspects are prominently emphasized by accreditation standards for engineering education programs, like the accreditation criteria produced by ABET.
Literature includes many reports investigating the different issues related to global practice of engineering as well as attempts to formulate lists of attributes of a competent global engineer. The majority of these reports include common themes related to understanding and including the human and local context while practicing engineering, as well as the tools to handle this context gathered under the leadership skillset. A major reason is because most barriers to success in international engineering practice belong to this qualitative side of engineering and the context of practice.
This paper will discuss and summarize the common themes related to engineering ethics and professionalism education, for a global practice and leadership, and provide recommendations on the best practices to incorporate or update these themes in engineering education, based on multiple sources including the author's own research and findings.
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Applying Dale's Cone of Experience to increase learning and retention: A study of student learning in a foundational leadership course
Authors: Beverly Davis and Michele SummersThe goal of this study will be to examine how Edger Dale's Cone of Experience is employed to positively impact student learning in a foundational leadership course. To accomplish this we will examine student projects in a foundational leadership course at Purdue in which students interactively evaluate leadership by creating surveys, summarizing the results and developing a leadership guidebook with practical recommendations. In addition, the authors will survey students who have completed this project and measure student achievement of learning outcomes as defined as what the student should know and realistically be able to do by the end of the course. This approach will focus on a self-assessment survey to gather in-depth understanding of learning and the reasons that student learning occurred as a result application of Edger Dale's Cone of Experience. The results will be the why and how of learning and retention, not just what. This method will produce information only on this particular course but general conclusions about the application of student projects in any course or discipline will be inferred.
Our study will show that in the foundational leadership course effective learning was achieved by applying strategies at the bottom of the pyramid using direct, purposeful learning experiences that simulates “doing the real thing,” and represents reality or the closest things to real, every-day life.
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Using technology in engineering education
More LessWith the exponential rate of development in technology for delivering education, we now stand at the gateway of seeing sweeping changes in how the engineering students are educated in the 21st century. These techniques will need to be tailored to satisfy the needs of the generation of students who are now in college—better known as the millennial students. These students have some unique characteristics which make it difficult for them to derive maximum benefits from the traditional teaching methods with hour-long classroom lectures. They have developed short attention spans and so, when they are not interested in something, their attention quickly shifts somewhere else. As a result, their ideal learning environment has changed to shorter lectures, use of a variety of multimedia, and collaborating with their peers for maximum effectiveness. With the help of technology, it has been found that techniques such as the flipped classroom and on-line and hybrid offering of the class are helping today's students to become independent learners, an attribute that will be extremely useful in their future where lifelong learning has become an integral part of a person's working career.
For the past three years I have been offering two math-based courses as a hybrid class using the inverted classroom model. During this period, I have offered 15 sections to about 400 students with extreme success. In my presentation I will discuss the changes which I have made in my courses to teach them as a “paperless” class using technology. I will also relate my experiences with these courses and the improvement in results obtained from this change.
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Using online Moodle quizzes to support the teaching of mathematics to foundation engineering students
More LessSome first year engineering students lack basic knowledge of, and have a lack of engagement with the topics of foundation mathematics. This was clearly reflected on their low level of in-class interaction with the face-to-face lectures, and low marks in their final exams. The aim of this paper is to investigate the usefulness of online Moodle quizzes in improving and enhancing the teaching of mathematics to foundation engineering students. For this purpose, online Moodle quizzes with multiple-choice questions were developed and used to support the teaching and learning of foundation mathematics, help students during their exam revision, and improve their engagement with the topics of mathematics. The students had the opportunity to customize the online quizzes to their needs, control the topics and level of difficulty they want to study, and control their own pace and time of study during their revision before final exams.
The preliminary results from this research revealed an improvement of students' exam results compared to last year's results. More than 90% of the students felt positively about and commended the use of online Moodle quizzes, thought that online quizzes helped them learn mathematics, and prepared them during revision for their final exams.
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Developing a professional skills matrix for engineering students
More LessGraduates of engineering programs in today's globalized economy must be able to apply their technical knowledge in team-based environments where flexibility, communication, and cooperation are needed to solve problems that do not necessarily have well-defined technical boundaries. Despite the importance of soft skills, research indicates that students in engineering programs are not satisfied with the soft skills training they receive at the university level. In order to better integrate soft skills and technical knowledge in the university curriculum, the mode of instruction must veer away from traditional lecture-based models to more student-centered and project-based approaches.
At the Petroleum Institute (PI), an engineering university in Abu Dhabi, the identification of core professional skills is an ongoing process that involves the integration of technical knowledge with soft skills training to prepare graduates for work in the oil and gas industry. These skills include communication (oral, written, and graphical), teamwork, project management, critical thinking, and lifelong learning. Given the interdisciplinary and global nature of the industry, these skills are essential for engineers to be successful in the field.
This paper discusses the process of mapping the engineering professional skills across three curriculum levels in the Arts and Sciences Program at the PI. It also includes feedback from students who completed the target courses to show how they perceive the growth of their own professional skills as engineering students and their level of preparedness for work in the oil and gas industry.
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Chemical engineering curricula and challenges resulting from global megatrends
Authors: Norbert Kockmann, Philip Lutze and Andrzej GórakChemical processing industry is progressively focusing their research activities and product placements in the areas of global megatrends, such as mobility, energy, materials, or health care and nutrition. Innovation in all these fields requires solving highly complex problems, rapid product development as well as dealing with international competition. These factors should also be reflected in modern chemical and biochemical engineering curricula. At TU Dortmund University, chemical and biochemical engineering education has a long tradition in combining fundamental knowledge in natural science with engineering skills. Hence, the introductory course on chemical engineering presents the subject in view of the aforementioned global challenges and megatrends. The lecture and tutorials are accompanied by a group project. Here, already in the first semester, the students work on a subject related to a/or more than one megatrend and finalize this with poster presentation. Besides the fundamentals in chemical engineering and related subjects, problem-based learning - as well as design skills and problem-solving techniques - are utilized throughout later courses. In the final phase of the Bachelor curriculum, for example, a group of 8 to 10 students develop a complete production plant, starting from conceptual process design including reaction kinetics and separation units identification, to detailed engineering (plant layout), up to cost calculation. In the last phase of their studies, students are often directly involved in research projects for their Bachelor's or Master's thesis. With the final presentation and “defence” of their work, the students are well prepared for their industrial experience.
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Beyond professional development: The value proposition of multi-disciplinary networks for creating global engineers
Authors: Alexander T. Dale, Justin L. Hess, Robert E. Best and Erin R. LennoxNeither current engineering curricula, nor existing professional and international development organizations, will be sufficient to create engineers who can productively engage with the grand challenges and the ‘wicked’ problems in which they are embedded. There is a need to develop multi-disciplinary coursework and extracurricular learning experiences, and enacting these changes can benefit from a new type of institution, ‘topical networks’, that support local coursework and extracurricular activities and connect multiple stakeholders and disciplines around broad and important topics. We describe potential benefits to three core stakeholder groups - students, faculty, and universities - from engaging with such an organization, using the case study of Engineers for a Sustainable World (ESW).
Networks help students by improving the resilience of local chapters and supporting projects through grants or mentorship, provide faculty with curriculum materials that can be localized to avoid designing bespoke courses in a resource-scarce environment, and allow universities to leverage a broader geographic and disciplinary scope to find people or partners that are not locally available. Topical networks also focus on enabling all three of these groups to share knowledge about best practices and benefit from others' experience. The presence of topical networks at a college or university can provide separate value from professional societies or international development groups while collaborating with them at the local level, and simultaneously address barriers to change within the existing curriculum.
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Successfully mentoring diverse male students in Engineering at North Carolina State University: An engaged approach
Authors: Olgha Davis, Christine Grant, Tuere Bowles and Rex JeffriesOver the past three decades, the U.S. social, educational and economic outcomes for African-American and Hispanic (minority) males have been more systemically devastating than the outcomes for any other group - such as race, ethnicity, or gender group. In 2009/10, the national high school graduation rate for African-American male (AAM) students was 52%, while the graduation rate for Caucasian males students was 78%. On average, AAMs are more likely to attend the most segregated and least-resourced public schools. However, in most states, the stratification of school quality works to minimize educational opportunities specifically for African-American students. According to a 2012 National Science Foundation report, AAM students made up only 4% of the currently enrolled male students in engineering.
Therefore, there is a compelling need for a program that develops self-efficacy in Under-Represented Minority (URM) male students in engineering fields. To answer this need, professor and lifelong mentor, Dr. Christine Grant, developed the national mentored-leadership initiative program to empower URM students at the high school and the 2-year and 4-year undergraduate levels in their successful pursuit of engineering careers. This objective is accomplished by actively partnering students with senior URM mentors (i.e. graduate students, post-doctoral associates and faculty members) in targeted research, academic preparation, and professional development. Students that completed the program more likely have a stronger mathematics and programming foundations and a firm understanding of the translational aspects of their research, enabling them to make informed career choices to maximize their expertise and engineering interests. Ultimately, this outcome can be achieved through engaged participation in: a “mentoring incubator” and mentoring course led by URM full professor and lifelong mentor; weekly math and programming tutoring sessions, one-on-one meetings with an education mentor to discuss research and learning contracts, interactive seminars and roundtable discussions with mentee “success story” resource group; sessions with research group of successful URM engineering faculty; and targeted research experiences at a large research university (i.e. North Carolina State University), leveraging partnerships with agency-sponsored programs. The participated students present their final research results at a showcase event and a university-wide Summer Undergraduate Research Symposium at North Carolina State University.
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Development of a methodology and information technology tools for micro-adaptive instruction: An engineering course case study
More LessDespite the wide spread of modern teaching techniques such as the flipped classroom and blended learning, most still provide one-way feedback, from the instructor to the student. A new teaching approach – the micro-Adaptive Instruction (mAI) – isa presented in this paper. Through mAI the instructor can adapt lecture content based on student feedback and additional detailed information on their learning progress. mAI is mainly based on a multimedia platform that delivers the course material, and monitors and tracks students’ activities. The instructor is now aware of the specific topics that need to be addressed and clarified, so the lectures can be carried out more efficiently. This new approach has been tested and demonstrated on a module of Chemical Engineering Fluid Operations course (CHEN 304) at Texas A&M University at Qatar. Three evaluation metrics were implemented during and at the end of the demonstration. All metrics showed improvement at both the comprehension level and perception of the students. Around 80% of the students agreed that the collected information helped the instructor to properly adapt the lectures to their needs, while 87% believed that the platform enhanced their understanding. On average, students spent 34 active minutes on the platform while 23% spent more than 60 minutes. In spite of all the positive feedback and impact of this approach, it should be noted that significant effort might be necessary to upgrade existing teaching material to the level of the presented platform. On the other hand, this is a process that can take place gradually or even be directly adopted by educational publishers.
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Promoting a culture of inquiry: Foregrounding research skills in first and second year engineering students
Authors: Robert Craig and Brian BielenbergThis paper describes a program of study designed to enhance research skills and promote cognitive development in first and second year undergraduate engineering students. The concerned population consists primarily of students studying in English as an additional language (EAL) while simultaneously adapting to an approach to learning which is considerably different from their most recent high school experiences. The discussed program is an extension of the ‘Learning to Write, Writing to Learn’ concept of the Writing Across the Curriculum movement, and adds the notion of ‘Learning to Research, Researching to Learn’, to its rationale. In two first-year courses, COMM 101 and COMM 151, students learn the basics of inquiry including quantitative and qualitative analysis methods. As ‘apprentice researchers’ they receive instruction, guidance and support while engaging in team-based, real-world research which serves as a platform for further development and application of research methods during engineering design courses and in their future participation in a knowledge based society. The paper highlights documented gains across several relevant learning outcomes related to research, thinking, and teamwork skills, all desired competencies for participation in a knowledge based society.
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Active engineering learning in a simulated environment
More LessThis work emphasizes novel ways to teach and learn which can be developed by most instructors provided that they have the patience and interest to produce class innovations using computers. The specific approach followed is known as “learning-by-doing in a virtual environment”. The basic idea is to train students to do sophisticated tasks in a way similar to what an expert would do, and the only way to verify if the learner has learned a lesson is to ask her to perform a task in a specific situation. The learning modules developed include a problem statement, with the specific tasks that the participant is required to accomplish. The system allows following of multiple paths in order to gather information and expert advice. There is a virtual library, in which literature related to the case is available; a computer room, in which computations can be carried out to obtain new data for the case; there is expert advice, in which typical questions related to the topic are responded by virtual experts in this field; and there is a navigation dimension, in which the participant can interact with the case by asking questions to virtual characters, exploring data specific for this case, going to a virtual field, and others. As a result, the participant should provide her response to the problem statement which originated the study. Construction of the navigation tool is made by means of a web-page with a tree structure. A number of simulations have been implemented, with differences in contents and also in complexity. This work addresses the National Academies Grand Challenge of “Advancing Personalized Learning”.
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An assessment of the awareness of non-technical skills of future engineers
By Nihad DukhanThe importance and nature of non-technical skills for future engineers are described in this paper. The discourses of educational, industrial and governmental organizations concerning these skills are summarized. Related issues such as nature of the knowledge-based economy, the nature and need for innovation, entrepreneurship, working in teams and the need for life-long learning in relation to non-technical skills are also discussed. The rubric that was used to assess the awareness of engineering students of these skills is presented, along with the results of the assessment. In general, the results show that the vast majority of students showed a great deal of awareness and importance of these skills for their futures as engineers. The assessment for establishing the existing knowledge level of students is critical for guiding future curricular materials geared toward enhancing some of the non-technical skills of future engineers. Particularly, the results suggest any new curricular materials must enhance existing awareness and go deeper in its addressing of non-technical skills with tangible exercises and applications.
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On the worldwide engineering students' meager performance in thermodynamics
By Nihad DukhanIn engineering, thermodynamics is the science of energy. This includes traditional and alternative sources of energy and energy availability, conversion and transmission. Practical engineering issues such as the efficiency of thermodynamic processes and systems are also covered in engineering thermodynamics courses. As the world is becoming more aware of the impeding energy crisis, a rounded understanding of thermodynamics by the engineers of 2020 is vital for addressing this global issue. Despite the importance of the subject, past and current engineering students worldwide struggle with thermodynamics as indicated by the pertinent literature. Student's difficulties with thermodynamics have been reported in several European countries, the US, Australia and India. Indeed, understanding the root causes of problems with teaching/learning thermodynamics is a requisite first step toward any solution, e.g., a design of effective new instructional strategies, curricula and textbooks. This paper provides a concise account of the pertinent literature, and analyzes this literature in order to accurately frame the problems of learning (and teaching) thermodynamics. The paper describes methods used for probing these problems and attempts to solve them.
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Undergraduate group projects: Challenges and learning experiences
Authors: Siara Isaac and Roland TormeyWorking in groups and managing projects are important professional skills for engineers, and there is a growing demand to teach and assess such skills. But what should be taught and when? Tuckman's famous “stages of development of performing groups” provides a framework for understanding the types of challenges which groups face. Yet, as with any abstract model, it will not be transferred into students' practice if they do not see it as relevant to their lived experiences.
In 2014, a new course exploring the nexus of social and engineering issues in relation to the global challenges facing humanity was added to the obligatory program for all first year engineering students. Among the many noble goals of this course, in addition to gaining a more nuanced view of the global challenges from both an engineering and social science perspective, are the development of transversal skills such as team work, communication, presentation, library research and ethical engagement.
The taught material about team work was presented online, allowing for the use learning analytics on students' online responses to assess how well the “stages of group formation” literature matched students' experiences. It also allowed us to consider how students' perceptions of the challenges they will face differed from challenges they actually did face, as well as the implications of this for how they should be taught about group processes.
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