!This program asks for the filename where your
!pendulum force data has been pasted and saved on.
!It reads the file "MYFILENAME" and creates a
!VECTOR F of 4000 rows to index the Force data.
!Then plots F vs "time", and after a pause, the 2-D Attractor's projection.
!Data are plotted substracting the average AVER to have them always centered at zero.
!You should experiment with different DELAY values
!including Tdom/4 (approx.=8 for these data).
!
!Decide which delay gives a more expanded attractor reconstruction.
!Compare with Figures 7.8 and 7.9 of Addison's textbook.
!Note that this is a "2-D" reconstruction (embedding dimension m=2).
!The program 3M RECONSTRUCTION 3-D does a m=3 reconstruction.
!Compare both representations or "projections" of the attractor.
!
OPEN #1: NAME "MYFILENAME"
!DIM F(4000) creates a vector array where to put your data.
DIM F(4000)
SET WINDOW 0,2500,0.06,.1
SET COLOR "GREEN"
FOR k=0 to 2500 step 100
PLOT k,0;k,1
NEXT k
SET COLOR "BLUE"
DO WHILE MORE #1
INPUT #1:FORCE
LET I=I+1
LET F(I)=FORCE
PLOT I,F(I);
LET SUM=SUM + F(I)
LOOP
!
LET N=I
LET AVER=SUM/N
!
PAUSE 1
CLEAR
PRINT N,AVER
!
!Adjust your WINDOW according to your Force data.
SET WINDOW -0.02,.02,-0.02/1.33,.02/1.33
SET COLOR "GREEN"
PLOT -.1,0;.1,0
PLOT 0,-.1;0,.1
SET COLOR "RED"
LET DELAY=8 !CHANGE DELAY TO EXPAND ATTRACTOR
FOR I=1 to N-DELAY
PLOT F(I)-AVER,F(I+DELAY)-AVER;
NEXT I
!
END