Enhancing the SBEG3583 GIS Software System Course: A Comprehensive Analysis of Student Feedback and Recommendations

By Shahabuddin Amerudin

Introduction

The SBEG3583 Course Evaluation Survey for the GIS Software System course provided valuable insights into students’ perspectives on various aspects of the course, including course content, teaching methods, knowledge gained, and overall learning experience. The survey took place towards the conclusion of Semester 2 within the academic session of 2022/2023, and it garnered responses from 33 students who were enrolled in the SBEG3583 GIS Software System course. The findings suggest several strengths, as well as areas that could be enhanced for future iterations of the course.

Discussion of Findings

1. Course Content: The unanimous agreement among students regarding the course’s coverage of essential topics and concepts related to GIS software systems is a strong indication of the course’s success in meeting its intended learning objectives. This reflects a well-designed curriculum that caters to students’ expectations.

2. Knowledge Gained: Students’ unanimous agreement that the course helped them gain a comprehensive understanding of GIS software systems underscores the effectiveness of the teaching approach. The variety of skills acquired, such as software usage during internships and application development, highlights the practical application of course content.

3. Teaching and Learning: The majority of students rated the instructor’s teaching effectiveness as highly positive. The clarity of communication and effectiveness of teaching materials contributed to students’ comprehension of complex subjects. This positive feedback reflects the instructor’s ability to effectively convey technical information to students.

4. Teaching Evaluations – Individual Assignments, Lab Tasks, Projects, and Tests: Students’ unanimous agreement that assessments effectively reinforced their understanding of course material underscores the role of practical application in solidifying learning outcomes. The suggestions for clearer assessment criteria align with the need for transparent expectations, enhancing the assessment process.

5. Teaching Methods in Lecture, Lab, and Excursion: The appreciation for effective teaching methods during lectures and lab sessions emphasizes the balance between theoretical concepts and practical application. The positive impact of field trips and excursions on students’ understanding of GIS software systems underscores the value of real-world experiences in the learning process.

6. Overall Experience: The overall satisfaction expressed by students demonstrates the course’s success in meeting their expectations and providing a positive learning experience. The unanimous willingness to recommend the course indicates a high level of contentment and confidence in the course’s quality.

Recommendations:

1. Enhanced Visual Learning Materials: Based on the feedback regarding teaching materials, incorporating more visual aids such as graphics, diagrams, and mind maps could enhance the clarity of explanations. This visual approach can cater to different learning styles and facilitate understanding.

2. Interactive Elements: Responding to the desire for more interactivity, incorporating interactive elements such as quizzes, discussions, and group activities could further engage students during lectures and lab sessions. This approach can promote active participation and deeper learning.

3. Enhanced Excursions: Recognizing the positive impact of excursions, enhancing the quality and frequency of industry visits can provide students with more exposure to real-world GIS applications. Collaborating with industry experts can provide valuable insights and networking opportunities.

4. Diverse Assessment Strategies: Building on the success of assessments in reinforcing learning, incorporating a diverse range of assessment types, including real-world problem-solving tasks and case studies, can further encourage practical application and critical thinking.

5. Refined Lecture Structure: Addressing the feedback on lecture presentations, condensing slide content to focus on keywords and explanations, rather than excessive text, can streamline information delivery and improve overall comprehension.

6. Gamified Learning: Incorporating elements of gamification, such as GIS-related challenges or scavenger hunts, can infuse a sense of fun and competition into the learning process, enhancing engagement and motivation.

Conclusion

The discussion of survey findings and subsequent recommendations demonstrates the course’s strengths and potential for improvement. The feedback collected through the SBEG3583 Course Evaluation Survey serves as a foundation for enhancing the GIS Software System course, ensuring that future iterations continue to provide a comprehensive, engaging, and practical learning experience for students.

Please note that this analysis and the set of recommendations are based on insights provided in the article available at https://people.utm.my/shahabuddin/?p=6784. Further analysis can be found in another article accessible through this link: https://people.utm.my/shahabuddin/?p=6790.

Suggestion for Citation:
Amerudin, S. (2023). Enhancing the SBEG3583 GIS Software System Course: A Comprehensive Analysis of Student Feedback and Recommendations. [Online] Available at: https://people.utm.my/shahabuddin/?p=6786 (Accessed: 30 August 2023).
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