2. MATLAB
MATLAB is a program for doing numerical
computation. It was originally designed for
solving linear algebra type problems using
matrices. It’s name is derived from
MATrix LABoratory.
MATLAB has since been expanded and now
has built-in functions for solving problems
requiring data analysis, signal processing,
optimization, and several other types of
scientific computations. It also contains
functions for 2-D and 3-D graphics and
animation.
3. MATLAB
When you first open MATLAB, notice:
1. The command window is where you'll give MATLAB
its input and view its output.
2. The workspace shows you all of your current working
variables and other objects.
3. The history shows you all commands you used in CW.
4. The Editor for MATLAB scripts (M-files) . To save &
run the m-file type 'F5'. To open the editor with a new
or old m-file use the command open file_name
4. MATLAB help
For help, command description etc use F1 or following
commands:
help command_name
helpwin command_name
doc command_name
helpdesk command_name
demo command_name
lookfor keyword (search unknown command)
http://www.mathworks.com/support/
For example when running “help sin” one get
SIN Sine of argument in radians.
SIN(X) is the sine of the elements of X.
See also ASIN, SIND.
Overloaded functions
Reference page in Help browser doc sin
5. Some Useful commands
what List all m-files in current directory
dir/ls List all files in current directory
type test Display test.m in command window
delete test Delete test.m
cd/chdir Change directory
pwd Show current directory
which test Display directory path to ‘closest’
test.m
who List known variables
whos List known variables plus their size
clear Clear variables from workspace
clc Clear the command window
6. MATLAB & Matrices
MATLAB treats all variables as matrices.
For our purposes a matrix can be thought
of as an array, in fact, that is how it is
stored.
Vectors are special forms of matrices and
contain only one row OR one column.
Scalars are matrices with only one row
AND one column
7. Variable Names
Variable names ARE case sensitive
Variable names can contain up to 63 characters (as of MATLAB
6.5 and newer). One can use namelengthmax command to
verify it.
Variable names must start with a letter followed by letters, digits,
and underscores.
MATLAB variables are defined by assignment. There is no need to
declare in advance the variables that we want to use or their
type.
Example
x=1; % Define the scalar variable x
y=[1 2 3] % row vector
z=[1;2;3] % column vector
A=[1 2 3;4 5 6;7 8 9] % 3x3 matrix
whos % List of the variables defined
Note: terminate statement with semicolon (;) to suppress output.
8. Special Variables
ans Default variable name for results
pi Value of π
eps Smallest incremental number
inf Infinity
NaN Not a number e.g. 0/0
i,j,1i,1j imaginary unit i, i.e. square root of -1
realmin The smallest usable positive realnumber
realmax The largest usable positive real number
SpecialVars.m
9. Other symbols
>> prompt
. . . continue statement on next line
, separate statements and data
% start comment which ends at end of line
; (1) suppress output
(2) used as a row separator in a matrix
: specify range
10. Relational Operators
MATLAB supports six relational operators.
Less Than <
Less Than or Equal <=
Greater Than >
Greater Than or Equal >=
Equal To ==
Not Equal To ~=
11. Math & Assignment Operators
Power ^ or .^ a^b or
a.^b
Multiplication * or .* a*b or
a.*b
Division / or ./ a/b or
a./b
or or . ba or
b.a
NOTE: 56/8 = 856
- (unary) + (unary)
Addition + a + b
Subtraction - a - b
Assignment = a = b (assign
b to a)
Operators.m
12. MATLAB Logical Operators
MATLAB supports five logical
operators.
not/~ element wise/scalar logical NOT
and/&element wise logical AND
or / | element wise logical OR
&& logical (short-circuit) AND
|| logical (short-circuit) AND
13. Logical Functions
MATLAB also supports some logical functions.
xor (a, b) exclusive or
any(x) returns 1 if any element of x is nonzero
all(x) returns 1 if all elements of x are nonzero
isnan(x) returns 1 at each NaN in x
isinf(x) returns 1 at each infinity in x
finite(x) returns 1 at each finite value in x
find(x) find indices and values of non zero elements
14. Some Matrix functions
zeros(rows, cols) – create zero
matrix
rand(rows, cols) – generate random
matrix
ones(rows, cols) – matrix with 1 in all
entries
eye (rows, cols) – identity matrix
sub2ind, ind2sub indices
manipulation
15. Extracting a Sub-Matrix
A portion of a matrix can be extracted and stored in a
smaller matrix by specifying the names of both matrices
and the rows and columns to extract. The syntax is:
sub_matrix = matrix ( r1 : rn , c1 : cn ) ;
sub_matrix = matrix ( r1 : rn , : ) ;
sub_matrix = matrix ( : , c1 : cn ) ;
sub_matrix = matrix ( r1 : dr : rn , c1 : dc : cn ) ;
where r1 and rn specify the beginning and ending rows
and c1 and cn specify the beginning and ending
columns to be extracted to make the new matrix.
The terms dr and dc define spacing different than one.
matrix.m
16. “Continuous” functions
Numerically, we cannot represent a general continuous function
(x,f(x)) because it requires handling infinite data (for each point in
the range, we need to keep f(x)). Instead, we represent a
function by its values at a finite number of data points (x_i,f(x_i)),
where the series of points {x_i} is typically referred to as the
sampling points or the grid points. Accordingly, the "continuous"
functions in Matlab accepts a vector of point {x_i} and return a
vector of values {f(x_i)}.
Some functions
sqrt
log
cos/acos/sin/asin etc
exp - exponential
abs
sign
norm
sum
prod - product
17. Plotting
MATLAB will plot one vector vs. another. The first one will be
treated as the abscissa (or x) vector and the second as the
ordinate (or y) vector. The vectors have to be the same length.
MATLAB will also plot a vector vs. its own index. The index will be
treated as the abscissa vector. Given a vector “time” and a
vector “dist” we could say:
>> plot (time, dist) % plotting versus time
>> plot (time + i*dist) % plotting versus time
>> plot (dist) % plotting versus index
Sometime we want to see it with different colorline stile
>> plot (time, dist, line_characteristics)
And sometime we want to plot few functions in graphs
>> plot(…), hold, plot(…)
>> plot(t,d1,l_c1, t,d2, l_c2)
To split page to several axes check use
>> subplot (rows, cols, place)
19. Plotting
There are commands in MATLAB to "annotate" a plot to put
on axis labels, titles, and legends. For example:
To put a label on the axes we would use:
>> xlabel ('X-axis label')
>> ylabel ('Y-axis label')
To put a title on the plot, we would use:
>> title ('Title of my plot')
To distinct between function in the graph use:
>> legend(legend_1, legend_2)
plotting.m
20. Flow control (condition)
An if - elseif - else structure. (Note that elseif is one word)
if expression1
statements1
elseif expression2
statements2
else
statements3
end
An switch-case structure
switch switch_expr
case case_expr
statement, ..., statement
case {case_expr1, case_expr2, case_expr3, ...}
statement, ..., statement
otherwise
statement, ..., statement
end
21. Flow control (loops)
A for loop in MATLAB
for ind = 1:100
b(ind)=sin(ind/10)
end
Alternative (Most of the loops can be avoided!!!):
x=0.1:0.1:10;
b=sin(x);
A while loop in
while x <= 10
% execute these commands
end
22. M-Files
An M-file might be used as a script, i.e. file
consist set of statements
In additional, one use M-files to write function,
in this case the file starts with function
definition like:
function y = f(x)
function [u,v] = f(x,y,z)
File name and the name of function in the file
are usually identical, however while they are
different, MATLAB use file name to call
function.
If you add additional function in same M-file,
it considered sub-function and might be
called from inside the M-file only. Only the first
function might be called from outside.
23. Saving Results
We can save all our results for future reference.
The command
diary ‘FileName'
saves all output to command window into the FileName.txt file
until this option is turned off by the command
diary off
The following commands save & load the entire
workspace into the file 'MyMatFile.mat'
save 'MyMatFile'
load 'MyMatFile'
save 'x.mat' x % save a specific variable
saving in ASCII format:
x = (-1:0.4:1)' ; y = sin(x*pi)
var = [x y] % double-column
save 'my_sin.dat' -ASCII -double var %Save in 16-digit ASCII
format
![Variable Names
Variable names ARE case sensitive
Variable names can contain up to 63 characters (as of MATLAB
6.5 and newer). One can use namelengthmax command to
verify it.
Variable names must start with a letter followed by letters, digits,
and underscores.
MATLAB variables are defined by assignment. There is no need to
declare in advance the variables that we want to use or their
type.
Example
x=1; % Define the scalar variable x
y=[1 2 3] % row vector
z=[1;2;3] % column vector
A=[1 2 3;4 5 6;7 8 9] % 3x3 matrix
whos % List of the variables defined
Note: terminate statement with semicolon (;) to suppress output.](https://image.slidesharecdn.com/matlabintro1234-250505155033-6edd1b20/85/MatlabIntro1234-ppt-7-320.jpg)
![M-Files
An M-file might be used as a script, i.e. file
consist set of statements
In additional, one use M-files to write function,
in this case the file starts with function
definition like:
function y = f(x)
function [u,v] = f(x,y,z)
File name and the name of function in the file
are usually identical, however while they are
different, MATLAB use file name to call
function.
If you add additional function in same M-file,
it considered sub-function and might be
called from inside the M-file only. Only the first
function might be called from outside.](https://image.slidesharecdn.com/matlabintro1234-250505155033-6edd1b20/85/MatlabIntro1234-ppt-22-320.jpg)
![Saving Results
We can save all our results for future reference.
The command
diary ‘FileName'
saves all output to command window into the FileName.txt file
until this option is turned off by the command
diary off
The following commands save & load the entire
workspace into the file 'MyMatFile.mat'
save 'MyMatFile'
load 'MyMatFile'
save 'x.mat' x % save a specific variable
saving in ASCII format:
x = (-1:0.4:1)' ; y = sin(x*pi)
var = [x y] % double-column
save 'my_sin.dat' -ASCII -double var %Save in 16-digit ASCII
format](https://image.slidesharecdn.com/matlabintro1234-250505155033-6edd1b20/85/MatlabIntro1234-ppt-23-320.jpg)
