Homework 3 INF 552
Homework 3 INF 552, Instructor: Mohammad Reza Rajati
1. Time Series Classi�cation
An interesting task in machine learning is classi�cation of time series. In this problem,
we will classify the activities of humans based on time series obtained by a Wireless
Sensor Network.
(a) Download the AReM data from: https://archive.ics.uci.edu/ml/datasets/
Activity+Recognition+system+based+on+Multisensor+data+fusion+\%28AReM\
%29 . The dataset contains 7 folders that represent seven types of activities. In
each folder, there are multiple �les each of which represents an instant of a human
performing an activity. Each �le containis 6 time series collected from activities
of the same person, which are called avg rss12, var rss12, avg rss13, var rss13,
vg rss23, and ar rss23. There are 88 instances in the dataset, each of which contains
6 time series and each time series has 480 consecutive values.
(b) Keep datasets 1 and 2 in folders bending1 and bending 2, as well as datasets 1,
2, and 3 in other folders as test data and other datasets as train data.
(c) Feature Extraction
Classi�cation of time series usually needs extracting features from them. In this
problem, we focus on time-domain features.
i. Research what types of time-domain features are usually used in time series
classi�cation and list them (examples are minimum, maximum, mean, etc).
ii. Extract the time-domain features minimum, maximum, mean, median, standard
deviation, �rst quartile, and third quartile for all of the 6 time series
in each instance. You are free to normalize/standardize features or use them
directly.1
Your new dataset will look like this:
Instance min1 max1 mean1 median1 � � � 1st quart6 3rd quart6
where, for example, 1st quart6, means the �rst quartile of the sixth time series
in each of the 88 instances.
iii. Estimate the standard deviation of each of the time-domain features you
extracted from the data. Then, use Python's bootstrapped or any other
method to build a 90% bootsrap con�dence interval for the standard deviation
of each feature.
iv. Use your judgement to select the three most important time-domain features
(one option may be min, mean, and max).
(d) Binary Classi�cation Using Logistic Regression2
1You are welcome to experiment to see if they make a di�erence.
2Some logistic regression packages have a built-in L2 regularization. To remove the e�ect of L2 regular-
ization, set � = 0 or set the budget C ! 1 (i.e. a very large value).
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Homework 3 INF 552, Instructor: Mohammad Reza Rajati
i. Assume that you want to use the training set to classify bending from other
activities, i.e. you have a binary classi�cation problem. Depict scatter plots
of the features you speci�ed in 1(c)iv extracted from time series 1, 2, and 6 of
each instance, and use color to distinguish bending vs. other activities. (See
p. 129 of the textbook).3
ii. Break each time series in your training set into two (approximately) equal
length time series. Now instead of 6 time series for each of the training
instances, you have 12 time series for each training instance. Repeat the
experiment in 1(d)i, i.e depict scatter plots of the features extracted from both
parts of the time series 1,2, and 12. Do you see any considerable di�erence
in the results with those of 1(d)i?
iii. Break each time series in your training set into l 2 f1; 2; : : : ; 20g time series
of approximately equal length and use logistic regression4 to solve the binary
classi�cation problem, using time-domain features. Remember that breaking
each of the time series does not change the number of instances. It only
changes the number of features for each instance. Calculate the p-values for
your logistic regression parameters in each model corresponding to each value
of l and re�t a logistic regression model using your pruned set of features.5
Alternatively, you can use backward selection using sklearn.feature selection
or glm in R. Use 5-fold cross-validation to determine the best value of the pair
(l; p), where p is the number of features used in recursive feature elimination.
Explain what the right way and the wrong way are to perform cross-validation
in this problem.6 Obviously, use the right way! Also, you may encounter the
problem of class imbalance, which may make some of your folds not having
any instances of the rare class. In such a case, you can use strati�ed cross
validation. Research what it means and use it if needed.
In the following, you can see an example of applying Python's Recursive
Feature Elimination, which is a backward selection algorithm, to logistic regression.
# Re cur s ive Feature El iminat ion
from s k l e a rn import da t a s e t s
from s k l e a rn . f e a t u r e s e l e c t i o n import RFE
from s k l e a rn . l ine a r mode l import Lo g i s t i cRe g r e s s i o n
# load the i r i s da t a s e t s
da t a s e t = da t a s e t s . l o a d i r i s ( )
3You are welcome to repeat this experiment with other features as well as with time series 3, 4, and 5 in
each instance.
4If you encountered instability of the logistic regression problem because of linearly separable classes,
modify the Max-Iter parameter in logistic regression to stop the algorithm immaturely and prevent from its
instability.
5R calculates the p-values for logistic regression automatically. One way of calculating them in Python
is to call R within Python. There are other ways to obtain the p-values as well.
6This is an interesting problem in which the number of features changes depending on the value of the
parameter l that is selected via cross validation. Another example of such a problem is Principal Component
Regression, where the number of principal components is selected via cross validation.
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Homework 3 INF 552, Instructor: Mohammad Reza Rajati
# c r e a t e a base c l a s s i f i e r used to eva lua t e a subs e t o f a t t r i b u t e s
model = Lo g i s t i cRe g r e s s i o n ( )
# c r e a t e the RFE model and s e l e c t 3 a t t r i b u t e s
r f e = RFE(model , 3)
r f e = r f e . f i t ( da t a s e t . data , da t a s e t . t a r g e t )
# summarize the s e l e c t i o n o f the a t t r i b u t e s
pr int ( r f e . suppor t )
pr int ( r f e . r anking )
iv. Report the confusion matrix and show the ROC and AUC for your classi�er
on train data. Report the parameters of your logistic regression �i's as well
as the p-values associated with them.
v. Test the classi�er on the test set. Remember to break the time series in
your test set into the same number of time series into which you broke your
training set. Remember that the classi�er has to be tested using the features
extracted from the test set. Compare the accuracy on the test set with the
cross-validation accuracy you obtained previously.
vi. Do your classes seem to be well-separated to cause instability in calculating
logistic regression parameters?
vii. From the confusion matrices you obtained, do you see imbalanced classes?
If yes, build a logistic regression model based on case-control sampling and
adjust its parameters. Report the confusion matrix, ROC, and AUC of the
model.
(e) Binary Classi�cation Using L1-penalized logistic regression
i. Repeat 1(d)iii using L1-penalized logistic regression,7 i.e. instead of using pvalues
for variable selection, use L1 regularization. Note that in this problem,
you have to cross-validate for both l, the number of time series into which you
break each of your instances, and �, the weight of L1 penalty in your logistic
regression objective function (or C, the budget). Packages usually perform
cross-validation for � automatically.8
ii. Compare the L1-penalized with variable selection using p-values. Which one
performs better? Which one is easier to implement?
(f) Multi-class Classi�cation (The Realistic Case)
i. Find the best l in the same way as you found it in 1(e)i to build an L1-
penalized multinomial regression model to classify all activities in your training
set.9 Report your test error. Research how confusion matrices and ROC
curves are de�ned for multiclass classi�cation and show them for this problem
if possible.10
ii. Repeat 1(f)i using a Na�ve Bayes' classi�er. Use both Gaussian and Multinomial
priors and compare the results.
7For L1-penalized logistic regression, you may want to use normalized/standardized features
8Using the package Liblinear is strongly recommended.
9New versions of scikit learn allow using L1-penalty for multinomial regression.
10For example, the pROC package in R does the job.
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Homework 3 INF 552, Instructor: Mohammad Reza Rajati
iii. Which method is better for multi-class classi�cation in this problem?
2. ISLR 3.7.4
3. ISLR, 4.7.3
4. ISLR 4.7.7
5. Extra Practice (you do not need to submit the answers): ISLR 3.7.3, 3.7.5, 4.7.4, 4.7.9