451

(Syllabus)

Day #: Date Subject Homework Due (11:59 p.m.)

1: Th 9/5/24
Help with Anaconda installation
01 Introduction (6): course overview; SVM
01 Python as a Calculator (1)
Read introductory email
Q00: background survey (extended to Th 9/17 to accommodate Fr 9/13 add class deadline)

2: Tu 9/10
02 Juypter Lab (4) (JupyterExample.ipynb/.html) 02 Juypter Lab (4)
01 Introduction, continued: SVM
Q01: calculator (extended to 9/17)
(login help)

3: Th 9/12
(01separatingHyperplane.ipynb/.html)
[02 Notation and Definitions: optional reading]
03 Sequences (2) (stringsDemo.ipynb, TuplesListsDemo.ipynb)
Q02: Jupyter (extended to 9/17)

4: Tu 9/17
03 Fundamental Algorithms, Part 1: linear regression (4) (03linearRegression.ipynb/.html)
Discuss HW01

5: Th 9/19
(04_numpy was here, but I am a little behind my planned schedule)
Q03: sequences

6: Tu 9/24
04_NumPy (2) (04_numpy.ipynb/.html)
03 Fundamental Algorithms, Part 2: logistic regression: logistic regression (4) (03logisticRegression.ipynb/.html)
HW01: SVM, linear regression

7: Th 9/26
05 pandas (2) (05_pandas.ipynb/.html)
Q04: NumPy

8: Tu 10/1
continue 05_pandas from value_counts() (8:00), Create(?) (11:00)
03 Fundamental Algorithms, Part 3: decision tree (4) (03decisionTree.ipynb/.html)
(Q05 pandas was here)

9: Th 10/3
06 matplotlib (3) (06_matplotlib.ipynb/.html)
continue decision tree Q05: pandas

10: Tu 10/8
03 Fundamental Algorithms, Part 4: more on SVM (4) (03SVM.ipynb/.html)
HW02: logistic regression, decision tree

11: Th 10/10
03 Fundamental Algorithms, Part 5: k-NN (2) (03kNN.ipynb/.html)
(07 write functions was here)
Q06 matplotlib

12: Tu 10/15
07 write functions (2)
04 Anatomy of a Learning Algorithm (4): gradient descent, scikit-learn (04gradientDescent.ipynb/.html)

13: Th 10/17
05 Basic Practice, Part 1: feature engineering (6) (05featureEngineering.ipynb/.html)
Q07 functions

14: Tu 10/22
Discuss exam rules
Revisit 10/8/24 question: does soft-margin SVM have support vectors?
08 conditional expressions (2)
05 Basic Practice, Part 2: algorithm / data split / model fit / regularize (4) (05modelFitRegularize.ipynb/.html)
HW03: more SVM, kNN, gradient descent, feature engineering

15: Th 10/24
(optional) Q&A review
Q08 conditional expressions

16: Tu 10/29 Midterm exam in class (rules, spring2022/key, fall2022/key, spring2023/key, fall2023/key; spring 2024/key)
Midterm exam

17: Th 10/31
05 Basic Practice, Part 3: assessment / hyperparameter tuning / cross-validation (5) (05assessmentTuningCV.ipynb/.html)
Project: form a group

18: Tu 11/5
05 Basic Practice, Part 3, continued: tuning & CV
07 Problems and Solutions, Part 1: kernel regression (1) (07kernelRegression.ipynb/.html)

19: Th 11/7
(FYI: Undergraduate Research Quick Talks)
07 Problems and Solutions, Part 2: multiclass, one-class, and multilable classification (4)
HW04: feature engineering, data split, model fit and regularization

20: Tu 11/12
07 Problems and Solutions, Part 3: ensemble learning (3) (07ensemble.ipynb/.html)
Project: proposal

21: Th 11/14
08 Advanced Practice: 08.pdf (5): imbalance, combining/stacking, efficiency, multicore (08imbalance_stacking_timing_multicore.ipynb/.html)

22: Tu 11/19 project proposal feedback: meet in class with teacher and/or TA
Project proposal feedback meeting
HW05: algorithm selection, multiclass classification, assesment, tuning, ensemble learning, imbalance

23: Th 11/21
09 Unsupervised Learning: 09.pdf (7) (09densityEstimation.ipynb/.html, 09clustering.ipynb/.html, 09PCA.ipynb/.html)

24: Tu 11/26
presentation schedule
09 Unsupervised Learning, continued: k-means code, DBSCAN, PCA
project help
Mo 12/2: Project: turn in slides

[Th 11/28] [no class--Thanksgiving]

25: Tu 12/3 Project: first 1/2 of presentations
Project: peer feedback on first 1/2

26: Th 12/5 Project: second 1/2 of presentations
Project: peer feedback on second 1/2

27: Tu 12/10
(optional) Q&A review
Project: report

Tu 12/17 Final exam: Tu 12/17 7:45-9:45 a.m.
Final exam

Note:

Black lines in this schedule correspond to materials on machine learning. A black number at the start of a phrase, like the "01" in "01 Introduction", indicates a chapter in the optional reference book, The Hundred-Page Machine Learning Book by Andriy Burkov.
Orange lines correspond to materials on Python basics, which we study to allow using the scikit-learn library to apply machine learning techniques to real data.
A number in parentheses, like "(2)", indicates the number of pages in a handout to help me with planning.

Day #: Date	Subject	Homework Due (11:59 p.m.)
1: Th 9/5/24	Help with Anaconda installation 01 Introduction (6): course overview; SVM 01 Python as a Calculator (1)	Read introductory email Q00: background survey (extended to Th 9/17 to accommodate Fr 9/13 add class deadline)
2: Tu 9/10	02 Juypter Lab (4) (JupyterExample.ipynb/.html) 02 Juypter Lab (4) 01 Introduction, continued: SVM	Q01: calculator (extended to 9/17) (login help)
3: Th 9/12	(01separatingHyperplane.ipynb/.html) [02 Notation and Definitions: optional reading] 03 Sequences (2) (stringsDemo.ipynb, TuplesListsDemo.ipynb)	Q02: Jupyter (extended to 9/17)
4: Tu 9/17	03 Fundamental Algorithms, Part 1: linear regression (4) (03linearRegression.ipynb/.html) Discuss HW01
5: Th 9/19	(04_numpy was here, but I am a little behind my planned schedule)	Q03: sequences
6: Tu 9/24	04_NumPy (2) (04_numpy.ipynb/.html) 03 Fundamental Algorithms, Part 2: logistic regression: logistic regression (4) (03logisticRegression.ipynb/.html)	HW01: SVM, linear regression
7: Th 9/26	05 pandas (2) (05_pandas.ipynb/.html)	Q04: NumPy
8: Tu 10/1	continue 05_pandas from `value_counts()` (8:00), `Create(?) (11:00)` 03 Fundamental Algorithms, Part 3: decision tree (4) (03decisionTree.ipynb/.html)	(Q05 pandas was here)
9: Th 10/3	06 matplotlib (3) (06_matplotlib.ipynb/.html) continue decision tree	Q05: pandas
10: Tu 10/8	03 Fundamental Algorithms, Part 4: more on SVM (4) (03SVM.ipynb/.html)	HW02: logistic regression, decision tree
11: Th 10/10	03 Fundamental Algorithms, Part 5: k-NN (2) (03kNN.ipynb/.html) (07 write functions was here)	Q06 matplotlib
12: Tu 10/15	07 write functions (2) 04 Anatomy of a Learning Algorithm (4): gradient descent, scikit-learn (04gradientDescent.ipynb/.html)
13: Th 10/17	05 Basic Practice, Part 1: feature engineering (6) (05featureEngineering.ipynb/.html)	Q07 functions
14: Tu 10/22	Discuss exam rules Revisit 10/8/24 question: does soft-margin SVM have support vectors? 08 conditional expressions (2) 05 Basic Practice, Part 2: algorithm / data split / model fit / regularize (4) (05modelFitRegularize.ipynb/.html)	HW03: more SVM, kNN, gradient descent, feature engineering
15: Th 10/24	(optional) Q&A review	Q08 conditional expressions
16: Tu 10/29	Midterm exam in class (rules, spring2022/key, fall2022/key, spring2023/key, fall2023/key; spring 2024/key)	Midterm exam
17: Th 10/31	05 Basic Practice, Part 3: assessment / hyperparameter tuning / cross-validation (5) (05assessmentTuningCV.ipynb/.html)	Project: form a group
18: Tu 11/5	05 Basic Practice, Part 3, continued: tuning & CV 07 Problems and Solutions, Part 1: kernel regression (1) (07kernelRegression.ipynb/.html)
19: Th 11/7	(FYI: Undergraduate Research Quick Talks) 07 Problems and Solutions, Part 2: multiclass, one-class, and multilable classification (4)	HW04: feature engineering, data split, model fit and regularization
20: Tu 11/12	07 Problems and Solutions, Part 3: ensemble learning (3) (07ensemble.ipynb/.html)	Project: proposal
21: Th 11/14	08 Advanced Practice: 08.pdf (5): imbalance, combining/stacking, efficiency, multicore (08imbalance_stacking_timing_multicore.ipynb/.html)
22: Tu 11/19	project proposal feedback: meet in class with teacher and/or TA	Project proposal feedback meeting HW05: algorithm selection, multiclass classification, assesment, tuning, ensemble learning, imbalance
23: Th 11/21	09 Unsupervised Learning: 09.pdf (7) (09densityEstimation.ipynb/.html, 09clustering.ipynb/.html, 09PCA.ipynb/.html)
24: Tu 11/26	presentation schedule 09 Unsupervised Learning, continued: k-means code, DBSCAN, PCA project help	Mo 12/2: Project: turn in slides
[Th 11/28]	[no class--Thanksgiving]
25: Tu 12/3	Project: first 1/2 of presentations	Project: peer feedback on first 1/2
26: Th 12/5	Project: second 1/2 of presentations	Project: peer feedback on second 1/2
27: Tu 12/10	(optional) Q&A review	Project: report
Tu 12/17	Final exam: Tu 12/17 7:45-9:45 a.m.	Final exam