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--- start [2024/03/14 10:52]
ge461 [Week 7 (Mar 11, Mar 14)]
+++ start [2024/05/21 05:04] (current)
ge461 [Week 10 (Apr 1, Apr 4)]
@@ Line 13: / Line 13: @@
   * Course Coordinator (contact point): S. Aksoy (saksoy AT cs.bilkent.edu.tr)
 **TAs**
-  * TBD
+  * Ali Azak (ali.azak AT bilkent.edu.tr)
+  * Hakan Gökçesu (hgokcesu AT ee.bilkent.edu.tr)
 **Classroom and Hours**
@@ Line 31: / Line 32: @@
 ** Exam**
-  * TBD
+  * The final exam will be held at EA-Z01 (for lastnames in the range AAMIR-KOŞAY) and EA-Z03 (for lastnames in the range OĞUZTÜZÜN-YÜZLÜ) during 18:00-20:00 on May 23, 2024.
 ** Projects**
@@ Line 107: / Line 108: @@
 ==== Week 6 (Mar 4) ====
 ** Application to customer choice problems (conjoint analysis) ** [S. Dayanık] \\
-Topic Details: Part worths, part importance, their estimations from product rankings with multiple regression\\
+Topic Details: Part worths, part importance, their estimations from product rankings with multiple regression, new product design with market simulation to increase overall market share.\\
 Slides:  {{ ::s2024_week06.pdf | Conjoint Analysis and Market Simulation}}\\
 Project/Exercise-Problem-Set/Homework: \\
 References:
   * B. K. Orme, Getting Started With Conjoint Analysis: Strategies for Product Design and Pricing Research
-  * Miller, Marketing Data Science: Modeling Techniques in Predictive Analytics With R and Python
+  * Miller, Marketing Data Science: Modeling Techniques in Predictive Analytics With R and Python\\
-\\
 Events: Spring Break (Mar 7-8)\\
@@ Line 131: / Line 131: @@
 **  Dimensionality reduction; visualization.** [Aksoy] \\
 Topic Details: Feature reduction, feature selection, high-dimensional data visualization.\\
-Slides and Additional Material:\\
+Slides and Additional Material: {{ :ge461_dimensionality.pdf |Dimensionality slides}}, {{ :knaw_t-sne_talk.pptx |t-SNE slides}}\\
-Project/Exercise-Problem-Set/Homework:\\
+Project/Exercise-Problem-Set/Homework: [{{ :ge461_project_dimensionality.pdf |Project}} ({{ :fashion_mnist.zip |data}})]  (due 23:59 on April 7, 2024)\\
-References: [[https://www.mathworks.com/help/stats/dimensionality-reduction.html|Matlab: dimensionality reduction]], [[https://scikit-learn.org/stable/modules/decomposition.html|Scikit-learn: decomposition]], [[https://scikit-learn.org/stable/auto_examples/index.html#decomposition-examples|Scikit-learn: decomposition examples]], [[https://scikit-learn.org/stable/modules/manifold.html|Scikit-learn: manifold learning]], [[https://lvdmaaten.github.io/tsne/|t-SNE]]\\
+References: [[https://www.mathworks.com/help/stats/dimensionality-reduction.html|Matlab: dimensionality reduction]], [[https://scikit-learn.org/stable/modules/decomposition.html|Scikit-learn: decomposition]], [[https://scikit-learn.org/stable/auto_examples/index.html#decomposition|Scikit-learn: decomposition examples]], [[https://scikit-learn.org/stable/modules/manifold.html|Scikit-learn: manifold learning]], [[https://www.mathworks.com/discovery/data-visualization.html|Matlab: data visualization]],
+[[https://matplotlib.org/|Matplotlib: data visualization]], [[https://lvdmaaten.github.io/tsne/|t-SNE]]\\
 Events: \\
@@ Line 139: / Line 140: @@
 ** Unsupervised learning, clustering.  ** [Aksoy] \\
 Topic Details: K-means clustering, mixture models, hierarchical clustering.\\
-Slides and Additional Material:\\
+Slides and Additional Material: {{ :ge461_clustering.pdf |Clustering slides}}\\
 Project/Exercise-Problem-Set/Homework:  \\
-References: [[https://www.mathworks.com/help/stats/cluster-analysis.html|Matlab: cluster analysis]], [[https://scikit-learn.org/stable/modules/clustering.html|Scikit-learn: clustering]]\\
+References: [[https://www.mathworks.com/help/stats/cluster-analysis.html|Matlab: cluster analysis]], [[https://scikit-learn.org/stable/modules/clustering.html|Scikit-learn: clustering]], [[https://scikit-learn.org/stable/auto_examples/index.html#clustering|Scikit-learn: clustering examples]]\\
 Events: \\
@@ Line 147: / Line 148: @@
 ** Machine learning; supervised learning; classifiers; deep learning. ** [Dündar]\\
 Topic Details: Bayesian decision theory, linear discriminants, introduction to neural networks, support vector machines, decision trees.\\
-Slides and Additional Material: \\
+Slides and Additional Material: {{ :ge461_supervisedlearning_part1.pdf |supervisedlearning_part1}}, {{ :ge461_supervisedlearning_part2.pdf | supervisedlearning_part2}}\\
 Project/Exercise-Problem-Set/Homework: \\
 References: \\
@@ Line 158: / Line 159: @@
 ** Machine learning; supervised learning; classifiers; deep learning.** [Dibeklioğlu] \\
 Topic Details: Activation functions, convolutional neural networks, recurrent architectures.\\
-Slides and Additional Material: \\
+Slides and Additional Material: {{ ::ge461_deep_learning_2024s.pdf |}} \\
-Project/Exercise-Problem-Set/Homework:\\
+Project/Exercise-Problem-Set/Homework:[{{ :GE461_project_supervised_learning_2024s.pdf |Project Description}} | {{ :data_supervised_learning_project.zip |Data}}]  (due 23:55 on April 27, 2024)\\
 References: \\
 Events: \\
@@ Line 166: / Line 167: @@
 ** Machine learning in healthcare. ** [Çukur] \\
 Topic Details: Healthcare analytics: diagnostics, medical imaging, in-patient care, hospital management, risk analytics, wearables. Deep learning architectures for medical applications; \\
-Slides and Additional Material: \\
+Slides and Additional Material: {{ ::ge461_ml_in_healthcare.pdf |}}\\
-Project/Exercise-Problem-Set/Homework:\\
+Project/Exercise-Problem-Set/Homework: {{ :ge461_pw13_description.pdf |}} {{ :ge461_pw13_data.zip |}}\\
 References: Hastie, Tibshirani and Friedman, The Elements of Statistical Learning, Ch. 11 and 14; Mead, Analog VLSI and Neural Systems, Ch. 4; Bishop, Pattern Recognition and Machine Learning, Ch. 5\\
 Events: National Sovereignty and Children's Day (Apr 23)\\
@@ Line 180: / Line 181: @@
 ==== Week 15 (May 6, May 9) ====
+==== Week 16 (May 13, May 16) ====
 ** Reinforcement learning; applications.  ** [Tekin] \\
 Topic Details: Applications of Reinforcement Learning, Markov Decision Processes, Value Iteration, Q Learning\\
-Slides and Additional Material: \\
+Slides and Additional Material: {{ :ge461_reinforcementlearning.pdf |}} \\
 Project/Exercise-Problem-Set/Homework: \\
 References: \\
 Events: \\
-==== Week 16 (May 13, May 16) ====
-** To be used if needed **
-----
 ==== Textbooks ====

GE461 Spring 2023

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