# Matlab, scatter plot

I have two vectors of real values and estimated values with the same length. I want to see dependence between 2 variables. It seems scatter plot is suitable for this purpose. So, I have two questions:

1. What is the best method to represent the dependence between my vectors?
2. How to find the trend line or the best fit line?

I use `scatter(A,B)` but how to find the trend line or the best fit line?

Thanks.

-
If `A` and `B` are vectors of equal length, I would simply use `plot(A,B,'.')` to get the cloud of points –  Luis Mendo Aug 15 '13 at 10:28
@Thanks but I want to find the best fit line or trend line. –  Fatime Aug 15 '13 at 11:15
For fitting a (stright) line, have you taken a look at `polyfit`? (with a polynomial of order 1) –  Luis Mendo Aug 15 '13 at 11:53
@LuisMendo Yes, but I'm not sure about the results. –  Fatime Aug 15 '13 at 12:30

The best way to compare two different groups is using analysis of variance. Analysis of variance (ANOVA) is a collection of statistical models used to analyze the differences between group means and their associated procedures (such as "variation" among and between groups). You should use ANOVA. also there are some functions included in MATLAB like: anova1, ...

``````p = anova1(X,group)
``````

The standard ANOVA table divides the variability of the data into two parts:

1- Variability due to the differences among the column means (variability between groups) 2- Variability due to the differences between the data in each column and the column mean (variability within groups)

Example 1 (from mathworks) Create X with columns that are constants plus random normal disturbances with mean zero and standard deviation one:

``````X = meshgrid(1:5)
X =
1   2   3   4   5
1   2   3   4   5
1   2   3   4   5
1   2   3   4   5
1   2   3   4   5

X = X + normrnd(0,1,5,5)
X =
1.3550    2.0662    2.4688    5.9447    5.4897
2.0693    1.7611    1.4864    4.8826    6.3222
2.1919    0.7276    3.1905    4.8768    4.6841
2.7620    1.8179    3.9506    4.4678    4.9291
-0.3626    1.1685    3.5742    2.1945    5.9465
``````

Perform one-way ANOVA:

``````p = anova1(X)
p =
7.9370e-006
``````

You can see the anova table:

and also a box-plot related to the analysis:

There are of course more function in MATLAB that you can check.

Actually I don't get the meaning of your image, you can easily add the line after plotting the scatter. using 'hold on' command.