Introduction
Online teaching tools are becoming increasingly common. The data that they collect offers the potential to automatically identify struggling students who may benefit from intervention.
A large body of CS education research has focused on the challenges that students face with introductory programming. Structured Query Language (SQL) was not, until recently, the subject of much rigorous investigation. Student performance in SQL is interesting due to its imperative nature and prevalence in industry. Starting in 2015, Ahadi et al. published a series of papers on student performance in an introductory database course using SQL. They examined the relative difficulty of different query types [1], syntax errors made by students and the effectiveness of using these to predict student success [2]. Most recently, they reported that semantic errors were the most difficult for students to correct and emphasized the need “to explicitly teach students techniques for choosing the appropriate type of query” [3].
In an attempt to find other performance indicators and to further our understanding of techniques that improve student performance, this paper presents an analysis of the relationship between students’ problem-solving behaviour and their success in an introductory databases course. We believe the ability to break down a solution into appropriate, smaller pieces is important and hypothesized that students who built and submitted their query in a series of systematic steps would have greater success in the course. Throughout this paper, the strategy of incrementally building queries is referred to as “query-building.” More information on how we defined query-building can be found in Table 1. A separate strategy for decomposing queries is the use of views. This allows students to build a query from a number of discrete pieces of code while only making a single submission.
Strategy | |
---|---|
using query-building techniques | - code used in a modular fashion - subquery added to previous code - previous code put into a subquery - previous code used in assignment or to be used later - conditions systematically added to query |
not using query-building techniques | - large sections of code added or deleted between submissions - little reuse of code - many small edits made to code with no clear goal - repeated changing of join type or (in)equalities |
unclear if query-building techniques were used | - only a single submission was made - solution was reached too quickly for query-building techniques to be observed - initial submission was essentially correct, but required minor edits |
Table 1: Categories used in query-building analysis
Approach
Our data set consists of students’ responses to online exercises in SQL and Relational Algebra (RA) in a third year databases course. Students used an online tool that allows unlimited attempts for each question. They received feedback on each submission, showing them whether it was correct, incorrect or syntactically incorrect. If there were no syntax errors, they also saw the results of their query.
In total, 21,134 RA and 25,601 SQL submissions were collected from 241 students completing 24 separate queries. Students who scored below 40% for their course grade or who scored 0% on the final exam were excluded from analysis as they did not appear to have made substantial effort in the course.
To examine the effect of the use of query-building techniques, we chose the RA and SQL questions that had the most submissions for analysis. As the focus was on how students approached query-building, rather than how they dealt with syntactic errors, only syntactically correct submissions were analyzed.
All submissions after a student’s first passing submission were ignored because some students came back to questions later for further practice; analyzing these would not give further insight into how they built new queries. Any submissions made after the deadline for receiving credit were also ignored. This left 512 RA submissions from 208 students, and 2473 SQL submissions from 201 students.
We examined each student’s submissions in order of submission time and then placed the student into one of the following three categories: using query-building techniques, not using query-building techniques, or unclear if query building techniques were used (see Table 1). Based on this, 152 students were omitted from RA analysis and 74 students were omitted from SQL analysis because we could not determine if they were using query-building techniques. Students appear to have found the RA question easier; the number of students who only needed a single syntactically correct submission to receive a correct result for the RA question was 112 compared to 31 for the SQL question. The question being easier accounts for more students answering it correctly in very few submissions, and this made it impossible to determine whether they were using query-building techniques. This likely accounts for more students being omitted from the SQL analysis than from the RA analysis.
To analyze the effect of use of views and assignment, the equivalent operation to views in RA, students were categorized as using assignment in RA or views in SQL if they made a single submission to any question which used assignment or views respectively.
Analysis
To determine the effect of using query-building techniques, a Welch two sample t-test was run to compare the course grades of students who used query-building techniques to the grades of those who did not. This comparison was performed for both languages. We also compared the grades of students who used query building in both languages to the grades of students who did not use it in either. The analogous comparisons were made based on use of assignments/views.
Although the groups that used query-building techniques achieved higher mean grades in all three comparisons (Table 2), only one of the tests shows a statistically significant ($ p<0.05$) result. In section 2 it is noted that students likely found the SQL question more challenging than the RA question and may have only needed to rely on query-building techniques when doing this query. This could explain the negative results on the other two tests.
In each comparison, the group that used assignment/views achieved a significantly higher mean grade than the groups that did not use this feature (Table 3). One possible issue with these results is that views in SQL were not focused on as heavily in this course as assignment was in RA. This could mean that instead of identifying students who are using a technique taught in the course, we have identified students who had previous knowledge of SQL.
Strategy | N | Mean | Median | Difference in Mean |
---|---|---|---|---|
query-building in RA | (23, 26) | (78.5, 75.0) | (80.0, 80.0) | 0.5 (0.87) |
query-building in SQL | (81, 40) | (80.8, 76.9) | (81.0, 79.5) | 3.9 (0.043) |
query-building in RA and SQL | (12, 5) | (81.3, 70.8) | (79.0, 80.0) | 10.45 (0.16) |
Table 2: Influence of using query-building techniques on course grades (Welch two sample t-test). Each tuple is of the form (value for strategy users, value for strategy non-users).
Strategy | N | Mean | Median | Difference in Mean |
---|---|---|---|---|
assignment in RA | (171, 64) | (78.8, 74.0) | (81.0, 76.0) | 4.8 (0.0065) |
assignment in SQL | (52, 183) | (80.6, 76.7) | (82.0, 78.0) | 3.9 (0.043) |
assignment in RA and SQL | (12, 5) | (80.1, 73.0) | (81.5, 74.0) | 7.1 (0.0012) |
Table 3: Influence of using assginment in a single query on course grades (Welch two sample t-test). Each tuple is of the form (value for strategy users, value for strategy non-users).
Conclusion
Use of assignment and views appears to be associated with student performance, but the underlying reasons for this are unclear. Although use of query-building techniques, which is focused on heavily in the course, seems like it should help students solve problems, the results do not consistently show an effect on course grade. This could be in part due to the relative simplicity of the queries being analyzed.
A focus for further research could be to implement a system that identifies students who appear to be struggling on a query, and then present them with an alternative question to practice the use of query building techniques and/or use of views and assignment.
Acknowledgements
I would to like to thank Diane Horton, Bogdan Simion, and Andrew Petersen for their invaluable guidance. I would also like to thank Alireza Ahadi of the University of Technology Sydney for his input on my research.
References
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A. Ahadi, J. Prior, V. Behbood, and R. Lister, “A quantitative study of the relative difficulty for novices of writing seven different types of sql queries” in Proceedings of the 2015 ACM Conference on Innovationand Technology in Computer Science Education, pp. 201–206, 2015.
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A. Ahadi, V. Behbood, A. Vihavainen, J. Prior, and R. Lister, “Students’ syntactic mistakes in writing seven different types of sql queries and its application to predicting students’ success” in Proceedingsof the 47th ACM Technical Symposium on Computing Science Education, pp. 401–406, 2016.
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A. Ahadi, J. Prior, V. Behbood, and R. Lister, “Students’ semantic mistakes in writing seven different types of sql queries,” in Proceedings of the 2016 ACM Conference on Innovation and Technology in Computer Science Education, pp. 272–277, 2016.