Difference between revisions of "Course Grade and GPA Prediction"

Latest revision as of 09:09, 23 February 2023

Lee and Kizilcec (2020) pdf

Models predicting college success (or median grade or above)
Random forest algorithms performed significantly worse for underrepresented minority students (URM; American Indian, Black, Hawaiian or Pacific Islander, Hispanic, and Multicultural) than non-URM students (White and Asian), for male students than female students
Random forest algorithms performed significantly worse for male students than female students
The fairness of the model, namely demographic parity and equality of opportunity, as well as its accuracy, improved after correcting the threshold values from 0.5 to group-specific values

Yu et al. (2020) pdf

Models predicting undergraduate course grades and average GPA

Students who are international, first-generation, or from low-income households were inaccurately predicted to get lower course grade and average GPA than their peer, and fairness of models improved with the inclusion of clickstream and survey data
Female students were inaccurately predicted to achieve greater short-term and long-term success than male students, and fairness of models improved when a combination of institutional and click data was used in the model

Riazy et al. (2020) pdf

Models predicting course outcome of students in a virtual learning environment (VLE)
More male students were predicted to pass the course than female students, but this overestimation was fairly small and not consistent across different algorithms
Among the algorithms, Naive Bayes had the lowest normalized mutual information value and the highest ABROCA value, or differences between the area under curve
Students with self-declared disability were predicted to pass the course more often

Jiang & Pardos (2021) pdf

Predicting university course grades using LSTM
Roughly equal accuracy across racial groups
Slightly better accuracy (~1%) across racial groups when including race in model

Kung & Yu (2020) pdf

Predicting course grades and later GPA at public U.S. university
Five algorithms and three metrics (independence, separation, sufficiency) analyzed
Poorer performance for Latinx students on course grade prediction for all three metrics; poorer performance for Latinx students on GPA prediction in terms of independence and sufficiency, but not separation
Poorer performance for first-generation students on course grade prediction for independence and separation, and for some algorithms for GPA prediction as well
Poorer performance for low-income students in several cases, about 1/3 of cases checked

Jeong et al. (2022) [1]

Predicting 9th grade math score from academic performance, surveys, and demographic information
Despite comparable accuracy, model tends to overpredict Asian and White students' performance, and underpredict Black, Hispanic, and Native American students' performance
Several fairness correction methods equalize false positive and false negative rates across groups.

Sha et al. (2022) [2]

Predicting course pass/fail with random forest in Open University data
A range of over-sampling methods tested
Regardless of over-sampling method used, course pass/fail performance was moderately better for males

Deho et al. (2023) [3]

Predicting whether course grade will be above or below 0.5
Better prediction for female students in some courses, better prediction for male students in other courses
Generally worse prediction for international students

@@ Line 1: / Line 1: @@
-Lee and Kizilcec (2020) [[https://arxiv.org/pdf/2007.00088.pdf pdf]]
+Lee and Kizilcec (2020) [https://arxiv.org/pdf/2007.00088.pdf pdf]
 * Models predicting college success (or median grade or above)
 *Random forest algorithms performed significantly worse for underrepresented minority students (URM; American Indian, Black, Hawaiian or Pacific Islander, Hispanic, and Multicultural) than non-URM students (White and Asian), for male students than female students
-* The fairness of the model for URM and male students, namely demographic parity and equality of opportunity, as well as its accuracy, improved after correcting the threshold values
+*Random forest algorithms performed significantly worse for male students than female students
+* The fairness of the model, namely demographic parity and equality of opportunity, as well as its accuracy, improved after correcting the threshold values from 0.5 to group-specific values<br />
+Yu et al. (2020) [https://files.eric.ed.gov/fulltext/ED608066.pdf pdf]
-Yu et al. (2020) [[https://files.eric.ed.gov/fulltext/ED608066.pdf pdf]]
+* Models predicting undergraduate course grades and average GPA
-* Model predicting undergraduate short-term (course grades) and long-term (average GPA) success
 * Students who are international, first-generation, or from low-income households were inaccurately predicted to get lower course grade and average GPA than their peer, and fairness of models improved with the inclusion of clickstream and survey data
@@ Line 16: / Line 16: @@
-Riazy et al. (2020) [pdf]
+Riazy et al. (2020) [https://www.scitepress.org/Papers/2020/93241/93241.pdf pdf]
 * Models predicting course outcome of students in a virtual learning environment (VLE)
 * More male students were predicted to pass the course than female students, but  this overestimation was fairly small and not consistent across different algorithms
 *Among the algorithms, Naive Bayes had the lowest normalized mutual information value and the highest ABROCA value, or differences between the area under curve
+* Students with self-declared disability were predicted to pass the course more often
+Jiang & Pardos (2021) [https://dl.acm.org/doi/pdf/10.1145/3461702.3462623 pdf]
+* Predicting university course grades using LSTM
+* Roughly equal accuracy across racial groups
+* Slightly better accuracy (~1%) across racial groups when including race in model
+Kung & Yu (2020)
+[https://dl.acm.org/doi/pdf/10.1145/3386527.3406755 pdf]
+* Predicting course grades and later GPA at public U.S. university
+* Five algorithms and three metrics (independence, separation, sufficiency) analyzed
+* Poorer performance for Latinx students on course grade prediction for all three metrics; poorer performance for Latinx students on GPA prediction in terms of independence and sufficiency, but not separation
+* Poorer performance for first-generation students on course grade prediction for independence and separation, and for some algorithms for GPA prediction as well
+* Poorer performance for low-income students in several cases, about 1/3 of cases checked
+Jeong et al. (2022) [https://fated2022.github.io/assets/pdf/FATED-2022_paper_Jeong_Racial_Bias_ML_Algs.pdf]
+* Predicting 9th grade math score from academic performance, surveys, and demographic information
+* Despite comparable accuracy, model tends to overpredict Asian and White students' performance, and underpredict Black, Hispanic, and Native American students' performance
+* Several fairness correction methods equalize false positive and false negative rates across groups.
+Sha et al. (2022) [https://ieeexplore.ieee.org/abstract/document/9849852]
+* Predicting course pass/fail with random forest in Open University data
+* A range of over-sampling methods tested
+* Regardless of over-sampling method used, course pass/fail performance was moderately better for males
-* Students with self-declared disability were predicted to pass the course with 16-23 percentage points in favor from the training and test set
+Deho et al. (2023) [https://files.osf.io/v1/resources/5am9z/providers/osfstorage/63eaf170a3fade041fe7c9db?format=pdf&action=download&direct&version=1]
+* Predicting whether course grade will be above or below 0.5
+* Better prediction for female students in some courses, better prediction for male students in other courses
+* Generally worse prediction for international students

Difference between revisions of "Course Grade and GPA Prediction"

Latest revision as of 09:09, 23 February 2023

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