New Trends and Futuristic Information Communication Technologies for Engineering Education

New Trends and Futuristic Information Communication Technologies for Engineering Education

Manjit Singh Sidhu (University Tenaga Nasional, Malaysia) and Lee Chen Kang (University Tunku Abdul Rahman, Malaysia)
DOI: 10.4018/jicthd.2010100106
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Improving and enhancing education is a goal for higher learning institutions that seek to provide better learning techniques, technologies, and educators and generate knowledgeable students to fulfill the needs of industry. A field in need of significant improvement is engineering. One approach is to review the delivery and pedagogies used in the current educational system. This paper examines the problems faced by staff and students in the field of mechanical engineering. In addition, the authors explore new technologies that enhance and promote the learning process.
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Common Problems Faced By Engineering Students

Katarzyna (2002) reported the problems that first year undergraduates face while studying the Engineering Mechanics Dynamics course is the difference in understanding with regard to what is being taught in the classroom. Undergraduate students often expect a variety of teaching methods to be used in their learning. Although, in general, the lecture method is a common way of delivering knowledge to students, it treats all students on the same level of the basic acquired knowledge. However, in general most of these students do not bring to the course the same academic preparation (do not have the same motivation, interest, and ability to learn). They come from different disciplines, some from remote regions with limited exposure to modern technology, have varying learning styles, and have different levels of proficiency in material learned at the foundation level. This results in different starting points, progress rates, and ultimately different levels of satisfaction, academic progress, and performance.

However, the aforementioned is not the only reason for the difference among undergraduate student development in the same class. Students enrolled in the same foundation program but from different institutions and cultures are taught varying degrees of basic material, which they are required to know.

Finally, some entry-level undergraduate students do not have very strong grades in science and mathematics which make certain engineering subjects difficult for them to comprehend and this discourages learning from taking place. As a result of this problem, if the lectures are too fast, this set of students may not be able to keep pace with the rest of the class, thus the gap in their knowledge will only get wider as compared to the more advanced students. In this situation, some students are left out, and often the instructors are forced to find alternative methods (for example conducting extra classes) to help these students in understanding the subject matter. Since some students may take more time to understand the problem solving techniques and may require the lesson to be repeated several times before they understand, there is a need to study and understand the availability and benefits of newer technologies that could help them visualize and understand the engineering problems better. The emerging trends and benefits of new technologies are briefly addressed in the next sections.

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