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辅导program编程、讲解c++,Python程序语言、Java编程设计辅导 辅导R语言编程|解析Haskell程序
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Multilayer Perceptrons (MLPs) and Backpropagation
Using MLPs with 1 hidden layer, create an ANN model of the following 3 problems and train them. Do it in
Jupiter Notebook and document your training with program output and charts. The number of neurons in
hidden layer and the training constant will need to be varied to find out what sized network models the
data.
Capture the work you do on these problems in a Jupyter Notebook.
Strictly speaking we should call them sigmoid neurons rather than perceptrons as the sigmoid activation
function is used rather than the step or threshold function.
Problem 1
Here we consider a MLP with a hidden layer of 4 sigmoid neurons and the following is the data set.
Start with sigmoid neurons and train the network with 2000 iterations. Try different learning rates, see
which learning rate make the learning unstable.
Problem 2 - Neural Network with 3 input and 2 output
Try a MLP on the following training data. Vary the number of neurons in the hidden layer, experiment with
learning rates and epochs. Analyse the training.
Problem 3 - Transportation Mode Choice
Suppose we have the following 10 rows of training data.
The training data is supposed to be part of a transportation study regarding the mode choice to
select bus, car or train among commuters along a major route in a city, gathered through a
questionnaire study. For simplicity and clarity, we selected only 4 attributes. Attribute ‘gender’ is a
binary type, while ‘car ownership’ is a quantitative integer. ‘Travel cost/km’ is a quantitative of
ratio type but here it was converted into an ordinal type. ‘Income level’ is also an ordinal type.
Train a neural network to predict the transport mode of a person, given the four attributes: gender,
car ownership, travel cost, and income level.
After training the neural network using the data above, try to predict the Transportation Mode
Choice of the following instance of data: Female without car ownership, willing to pay expensive
travel cost and having medium income level.
Using Pandas, see if you can copy the data to a dataframe and save it to a comma separated text file,
transport.csv.
Problem 4 - Iris flower classification
See problem dataset elsewhere.
1. Title: Iris Plants Database
Updated Sept 21 by C.Blake - Added discrepency information
2. Sources:
(a) Creator: R.A. Fisher
(b) Donor: Michael Marshall (MARSHALL%PLU@io.arc.nasa.gov)
(c) Date: July, 1988
3. Past Usage:
- Publications: too many to mention!!! Here are a few.
1. Fisher,R.A. "The use of multiple measurements in taxonomic problems"
Annual Eugenics, 7, Part II, 179-188 (1936); also in "Contributions
to Mathematical Statistics" (John Wiley, NY, 1950).
2. Duda,R.O., & Hart,P.E. (1973) Pattern Classification and Scene Analysis.
(Q327.D83) John Wiley & Sons. ISBN 0-471-22361-1. See page 218.
3. Dasarathy, B.V. (1980) "Nosing Around the Neighborhood: A New System
Structure and Classification Rule for Recognition in Partially Exposed
Environments". IEEE Transactions on Pattern Analysis and Machine
Intelligence, Vol. PAMI-2, No. 1, 67-71.
-- Results:
-- very low misclassification rates (0% for the setosa class)
4. Gates, G.W. (1972) "The Reduced Nearest Neighbor Rule". IEEE
Transactions on Information Theory, May 1972, 431-433.
-- Results:
-- very low misclassification rates again
5. See also: 1988 MLC Proceedings, 54-64. Cheeseman et al's AUTOCLASS II
conceptual clustering system finds 3 classes in the data.
4. Relevant Information:
--- This is perhaps the best known database to be found in the pattern
recognition literature. Fisher's paper is a classic in the field
and is referenced frequently to this day. (See Duda & Hart, for
example.) The data set contains 3 classes of 50 instances each,
where each class refers to a type of iris plant. One class is
linearly separable from the other 2; the latter are NOT linearly
separable from each other.
--- Predicted attribute: class of iris plant.
--- This is an exceedingly simple domain.
--- This data differs from the data presented in Fishers article
(identified by Steve Chadwick, spchadwick@espeedaz.net )
The 35th sample should be: 4.9,3.1,1.5,0.2,"Iris-setosa"
where the error is in the fourth feature.
The 38th sample: 4.9,3.6,1.4,0.1,"Iris-setosa"
where the errors are in the second and third features.
5. Number of Instances: 150 (50 in each of three classes)
6. Number of Attributes: 4 numeric, predictive attributes and the class
7. Attribute Information:
1. sepal length in cm
2. sepal width in cm
3. petal length in cm
4. petal width in cm
5. class:
-- Iris Setosa
-- Iris Versicolour
-- Iris Virginica
8. Missing Attribute Values: None
Summary Statistics:
Min Max Mean SD Class Correlation
sepal length: 4.3 7.9 5.84 0.83 0.7826
sepal width: 2.0 4.4 3.05 0.43 -0.4194
petal length: 1.0 6.9 3.76 1.76 0.9490 (high!)
petal width: 0.1 2.5 1.20 0.76 0.9565 (high!)
9. Class Distribution: 33.3% for each of 3 classes.
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