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代做MA2552、代写Matlab编程设计
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MA2552 Introduction to Computing (DLI) 2023/24
Computational Project
Aims and Intended Learning Outcomes
The aims of the Project are to describe methods for solving given computational problems, develop and test Matlab code implementing the methods, and demonstrate application
of the code to solving a specific computational problem. In this Project, you be will be required to demonstrate
• ability to investigate a topic through guided independent research, using resources
available on the internet and/or in the library;
• understanding of the researched material;
• implementation of the described methods in Matlab;
• use of the implemented methods on test examples;
• ability to present the studied topic and your computations in a written Project Report.
Plagiarism and Declaration
• This report should be your independent work. You should not seek help from other
students or provide such help to other students. All sources you used in preparing your
report should be listed in the References section at the end of your report and referred
to as necessary throughout the report.
• Your Project Report must contain the following Declaration (after the title page):
DECLARATION
All sentences or passages quoted in this Project Report from other people’s work have
been specifically acknowledged by clear and specific cross referencing to author, work and
page(s), or website link. I understand that failure to do so amounts to plagiarism and
will be considered grounds for failure in this module and the degree as a whole.
Name:
Signed: (name, if submitted electronically)
Date:
Project Report
The report should be about 6-8 pages long, written in Word or Latex. Equations should
be properly formatted and cross-referenced, if necessary. All the code should be included in
the report. Copy and paste from MATLAB Editor or Command Window and choose ‘Courier
New’ or another fixed-width font. The Report should be submitted via Blackboard in a single
file (Word document or Adobe PDF) and contain answers to the following questions:
1
MA2552 Introduction to Computing (DLI) 2023/24
Part 0: Context
Let f(x) be a periodic function. The goal of this project is to implement a numerical method
for solving the following family of ordinary differential equations (O.D.E):
an
d
nu(x)
dxn
+ an−1
d
n−1u(x)
dxn−1
+ . . . + a0u(x) = f(x), (1)
where ak, k = 0, · · · , n, are real-valued constants. The differential equation is complemented
with periodic boundary conditions:
d
ku(−π)
dxk
=
d
ku(π)
dxk
for k = 0, · · · , n − 1.
We aim to solve this problem using a trigonometric function expansion.
Part 1: Basis of trigonometric functions
Let u(x) be a periodic function with period 2π. There exist coefficients α0, α1, α2, . . ., and
β1, β2, . . . such that
u(x) = X∞
k=0
αk cos(kx) +X∞
1
βk sin(kx).
The coefficients αk and βk can be found using the following orthogonality properties:
Z π
−π
cos(kx) sin(nx) dx = 0, for any k, n
Z π
−π
cos(kx) cos(nx) dx =
0 if k ̸= n
π if k = n ̸= 0
2π if k = n = 0.
Z π
−π
sin(kx) sin(nx) dx =
(
0 if k ̸= n
π if k = n ̸= 0.
1. Implement a function that takes as an input two function handles f and g, and an
array x, and outputs the integral
1
π
Z π
−π
f(x)g(x) dx,
using your own implementation of the Simpson’s rule scheme. Corroborate numerically
the orthogonality properties above for different values of k and n.
2. Show that
αk =
(
1
π
R π
−π
u(x) cos(kx) dx if k ̸= 0
1
2π
R π
−π
u(x) dx if k = 0
βk =
1
π
Z π
π
u(x) sin(kx) dx.
2
MA2552 Introduction to Computing (DLI) 2023/24
3. Using question 1 and 2, write a function that given a function handle u and an integer
m, outputs the array [α0, α1 . . . , αm, β1, . . . , βm].
4. Write a function that given an array [α0, α1 . . . , αm, β1, . . . , βm], outputs (in the form
of an array) the truncated series
um(x) := Xm
k=0
αk cos(kx) +Xm
k=1
βk sin(kx), (2)
where x is a linspace array on the interval [−π, π].
5. Using the function from question 3, compute the truncated series um(x) of the following
functions:
• u(x) = sin3
(x)
• u(x) = |x|
• u(x) = (
x + π, for x ∈ [−π, 0]
x − π, for x ∈ [0, π]
,
and using question 4, plot u(x) and um(x) for different values of m.
6. Carry out a study of the error between u(x) and um(x) for ∥u(x)−um(x)∥p with p = 2
and then with p = ∞. What do you observe?
Part 2: Solving the O.D.E
Any given periodic function u(x) can be well approximated by its truncate series expansion (2) if m is large enough. Thus, to solve the ordinary differential equation (1)
one can approximate u(x) by um(x):
u(x) ≈
Xm
k=0
αk cos(kx) +Xm
k=1
βk sin(kx),
Since um(x) is completely determined by its coefficients [α0, α1 . . . , αm, β1, . . . , βm],
to solve (1) numerically, one could build a system of equations for determining these
coefficients.
7. Explain why under the above approximation, the boundary conditions of (1) are automatically satisfied.
8. We have that
dum(x)
dx =
Xm
k=0
γk cos(kx) +Xm
k=1
ηk sin(kx)
Write a function that takes as input the integer m, and outputs a square matrix D that
maps the coefficients [α0, . . . , αm, β1, . . . , βm] to the coefficients [γ0, . . . , γm, η1, . . . , ηm].
3
MA2552 Introduction to Computing (DLI) 2023/24
9. Write a function that given a function handler f and the constants ak, solves the
O.D.E. (1). Note that some systems might have an infinite number of solutions. In
that case your function should be able identify such cases.
10. u(x) = cos(sin(x)) is the exact solution for f(x) = sin(x) sin(sin(x))−cos(sin(x)) (cos2
(x) + 1),
with a2 = 1, a0 = −1 and ak = 0 otherwise. Plot the p = 2 error between your numerical solution and u(x) for m = 1, 2, . . .. Use a log-scale for the y-axis. At what rate
does your numerical solution converge to the exact solution?
11. Show your numerical solution for different f(x) and different ak of your choice.
4
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