COMP3308/3608 Introduction to Artificial Intelligenece (regular and advanced)
semester 1, 2020
Information about the exam
The exam will be online, via Canvas, un-proctored. It is set as a Quiz.
The Canvas site for the exam is different that the Canvas site we use during the semester. There are 2 exam sites: one for COMP3308 called “Final Exam for COMP3308” and another one for COMP3608 – “Final Exam for COMP3608”. The Exams Office will give you access to your exam site.
Students who are not in Australia and are in different time zones may apply for special arrangements for the exam: https://www.sydney.edu.au/students/special-consideration.html#time-zone
The duration of the exam is standard: 2 hours + 10 minutes reading time = 130 min. The Canvas Quiz will open at the scheduled time (as per your exam timetable) and close after 130 mins.
The exam is worth 60 marks ( =60% of your final mark). To pass the course you need at least 40% on the exam (i.e. 24 marks), regardless of what your mark during the semester is.
All material is examinable except week 1, week 13a (recommender systems), historical context, Matlab and Weka.
Tip: Have a calculator ready as there are some calculation questions.
There are 3 types of questions: 1) problem solving, 2) questions requiring short answers,
and 3) multiple-choice questions (a small number).
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Sample exam questions
In addition to these questions please also see on Canvas: Search: Quiz_Practice _with_Quokkas.pdf
Bayesian networks: BN_practice_questions.pdf
Question 1. In the tree below the step costs are shown along the edges and the h values are shown next to each node. The goal nodes are double-circled: F and D.
Write down the order in which nodes are expanded using:
a) Breadth-first search
b) Depth-first search
c) Uniform cost search
d) Iterative deepening search
e) Greedy search
f) A*
In case of ties, expand the nodes in alphabetical order.
Question 2. Answer briefly and concisely:
a) A* uses admissible heuristics. What happens if we use a non-admissible one? Is it still
useful to use A* with a non-admissible heuristic?
b) What is the advantage of choosing a dominant heuristic in A* search?
c)What is the main advantage of hill climbing search over A* search?
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Question 3. Consider the following game in which the evaluation function values for player MAX are shown at the leaf nodes. MAX is the maximizing player and MIN is the minimizing player. The first player is MAX.
a)What will be the backed-up value of the root node computed by the minimax algorithm?
b)Which move should MAX choose based on the minimax algorithm – to node B, C or D?
c)Assume that we now use the alpha-beta algorithm. List all branches that will be pruned, e.g. AB etc. Assume that the children are visited left-to-right (as usual).
Question 4. Answer briefly and concisely:
a) The 1R algorithm generates a set of rules. What do these rules test?
b) Gain ratio is a modification of Gain used in decision trees. What is its advantage?
c) Propose two strategies for dealing with missing attribute values in learning algorithms.
d) Why do we need to normalize the attribute values in the k-nearest-neighbor algorithm?
e) What is the main limitation of the perceptrons?
f) Describe an early stopping method used in the backpropagation algorithm to prevent overfitting.
g) The problem of finding a decision boundary in support vector machine can be formulated as an optimisation problem using Lagrange multipliers. What are we maximizing?
h) In linear support vector machines, we use dot products both during training and during classification of a new example. What vectors are these products of?
During training:
During classification of a new example:
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Question 5. Consider the task of learning to classify mushrooms as safe or poisonous based on the following four features: stem = {short, long}, bell = {rounded, flat}, texture = {plain, spots, bumpy, ruffles} and number = {single, multiple}.
The training data consists of the following 10 examples:
Safe:
Poisonous:
a)Use Naïve Bayes to predict the class of the following new example: Show your calculations.
b)How would 3-Nearest Neighbor using the Hamming distance classify the same example as above?
c) Consider building a decision tree. Calculate the information gain for texture and number. Which one of these two features will be selected?
You may use this table:
d) Consider a single perceptron for this task. What is the number of inputs? What is the dimensionality of the weight space?
—–
Note: The training data and new example will be given to you in a table, you are not expexted to derive them from pictures during the exam.
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x
y
-(x/y)*log2(x/y)
x
y
-(x/y)*log2(x/y
x
y
-(x/y)*log2(x/y
x
y
-(x/y)*log2(x/y
1
2
0.50
4
5
0.26
6
7
0.19
5
9
0.47
1
3
0.53
1
6
0.43
1
8
0.38
7
9
0.28
2
3
0.39
5
6
0.22
3
8
0.53
8
9
0.15
1
4
0.5
1
7
0.40
5
8
0.42
1
10
0.33
3
4
0.31
2
7
0.52
7
8
0.17
3
10
0.52
1
5
0.46
3
7
0.52
1
9
0.35
7
10
0.36
2
5
0.53
4
7
0.46
2
9
0.48
9
10
0.14
3
5
0.44
5
7
0.35
4
9
0.52
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The training data is:
n
stem
bell
texture
number
class
1
short
rounded
spots
single
safe
2
long
flat
ruffles
single
safe
3
long
flat
ruffles
multiple
safe
4
long
rounded
plain
single
safe
5
long
flat
plain
single
safe
6
short
rounded
plain
single
poisonous
7
short
flat
plain
single
poisonous
8
short
rounded
bumpy
single
poisonous
9
long
rounded
spots
single
poisonous
10
long
rounded
bumpy
single
poisonous
The new example is: stem=long, bell=flat, texture=spots, number=single
Question 6. Given the training data in the table below where credit history, debt, collateral and income are attributes and risk is the class, predict the class of the following new example using the 1R algorithm: credit history=unknown, debt=low, collateral=none, income=15-35K. Show your calculations.
credit history
debt
collateral
income
risk
bad
high
none
0-15k
high
unknown
high
none
15-35k
high
unknown
low
none
15-35k
moderate
unknown
low
none
0-15k
high
unknown
low
none
over 35k
low
unknown
low
adequate
over 35k
low
bad
low
none
0-15k
high
bad
low
adequate
over 35k
moderate
good
low
none
over 35k
low
good
high
adequate
over 35k
low
good
high
none
0-15k
high
good
high
none
15-35k
moderate
good
high
none
over 35k
low
bad
high
none
15-35k
high
Question 7. Use the k-means algorithm to cluster the following one dimensional examples into 2 clusters: 2, 5, 10, 12, 3, 20, 31, 11, 24. Suppose that the initial seeds are 2 and 5. The convergence criterion is met when either there is no change between the clusters in two successive epochs or when the number of epochs has reached 5.
Show the final clusters. How many epochs were needed for convergence? There is no need to show your calculations.
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Question 8. You task is to develop a computer program to rate chess board positions. You got an expert chess player to rate 100 different chessboards and then use this data to train a backpropagation neural network, using board features as the ones shown in the figure below.
Select the correct answer (“Yes” or “No”) in the questions below. Select “Yes” for all issues that could, in principle, limit your ability to develop the best possible chess program using this method. Select “No” for all issues that could not.
a) The backpropagation network may be susceptible to overfitting of the training data, since you tested its performance on the training data instead of using cross validation.
b) The backpropagation neural network can only distinguish between boards that are completely good or completely bad.
c) The backpropagation network implements gradient descent, so it may converge to a set of weights that is only a local minimum rather than the global minimum.
d) You should have used higher learning rate and momentum to guarantee convergence to the global minimum.
e) The topology of your neural net might not be adequate to capture the expertise of the human expert.
Question 9. In the figure below, the circles are training examples and the squares are test examples, i.e. we are using the circles to predict the squares. Two algorithms are used: 1- Nearest Neighbour and 3-Nearest Neighbour.
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Powered by TCPDF (www.tcpdf.org)
We are given the following results about the squares:
What will be the class of the following examples? Write +, – or U for cannot be determined.
1) Circle L:
2) Circle I:
3) Circle H:
4) Circle E:
5) Circle K:
6) Circle C:
7) Square 6 using 1-Nearest Neighbour:
8) Square 6 using 3-Nearest Neighbour:
9) Square 3 using 1-Nearest Neighbour?
10) Square 5 using 1-Nearest Neighbour?
Square
Using 1-Nearest Neighbors
Using 3-Nearest Neighbors
1
–
+
2
–
3
+
4
+
–
5
–
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