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Introduction to Machine Learning and Data Mining - История изменений
2026-06-06T12:11:22Z
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imported>Akorabelnikov: TA's homeworks
2019-05-30T12:49:15Z
<p>TA's homeworks</p>
<p><b>Новая страница</b></p><div>'''Lecturers:''' Dmitry Ignatov<br />
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'''TAs:''' Ivan Zaputliaev (Module 3 and 4), Alexander Korabelnikov (Module 4).<br />
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=== Homeworks ===<br />
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Homework 1: Spam classification. <br />
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Soft deadline (up to 10 points): <s>March 9</s> <span style="color:#ff0000">March 19</span><br />
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Hard deadline (-2 points): <s>March 15</s> <span style="color:#ff0000">March 25</span><br />
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Neural nets homework 1: logistic regression from scratch and first neural net on tensorflow's arithmetics<br />
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Neural nets homework 2: convolutional neural net on tensorflow and it's real-life application<br />
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=== Lecture on 23.01.2019===<br />
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Intro slides.<br />
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Practice: demonstration with Orange.<br />
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=== Lecture on 06.02.2019===<br />
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Slides: Introduction to classification techniques (1-rule, kNN, Naive Bayes, Logistic Regression).<br />
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Practice: demonstration with Orange and scikit-learn.<br />
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=== Lecture on 22.02.2019 ===<br />
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Practice with scikit-learn (kNN, Naive Bayes, Logistic Regression, basic quality metrics, cross-validation, error plots)<br />
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Slides: Decision trees. Entropy and information gain. ID3 algorithm. Gini impurity. Tree pruning.<br />
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=== Lecture on 06.03.2019 ===<br />
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Slides: 1. Clustering. K-means, k-medoids, fuzzy c-means. The number of clusters problem and related heuristics. Hierarchical clustering. Density-based clustering: DBscan and Mean-shift. <br />
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2. Spectral Clustering for graph partition. Min-cut, Laplace matrix, Fiedler vector. Bipartite spectral clustering.<br />
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=== Lecture on 20.03.2019 ===<br />
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Frequent itemsets and association rules. Apriori and FP-growth algorithms. Interestingness measures. Compact representations of frequent itemsets: closed itemsets and association rules. <br />
Applications: taxonomies of web-site users and contextual advertisement.<br />
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=== Lecture on 15.05.2019 ===<br />
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Linear regression (simple regression, multivariative regression), RMS solution, gradient descent solution, Logistic regression, Multilayer neural net, chain rule, Cross-Entropy as loss function, introduciton in convolutional neural nets (convolution, pooling).<br />
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Applications: general purpose regression and classification tasks, computer vision.<br />
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=== Lecture on 29.05.2019 ===<br />
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ConvNets regularization (L1+L2 weight decay, soft labels, early stopping), ConvNet debug(monitoring of metrics and tuning Learning Rate, checklist for debug), Image augmentations, Advanced tips&trics (pseudo-labeling, test-time augmentation, pretraining, Ensemble of nets with SGD), Common image-specific problems (Segmentation: Semantics and Instance, Detection, Identification; their metrics: IoU, mAP).<br />
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Applications: computer vision.</div>
imported>Akorabelnikov