7 -18.2
8 5.02
9 12.4
10 18.1
11 7.01
12 5.11
13 2.35
this data is waveform data.
i want to pick out only climax(for example in upper data, number 1 and 10) from this data.
i have this problem...that is, i do not know to do what.
i think my English is strange...so you are difficult to understanding my question.…
hat position you would like in order:
1.
2.
3.
4.
5.
6.
7.
8.
9.
10.
11.
12.
You still must show up on time and you still must stay and work on your project during the duration of class.
See you all next week, I hope I won't still have this cough!
-Joseph Iwaskiw…
erations, is not it?
This is what I finally want and how I plan to do it:
In the starting tree, points are listed accordingly to the (11) 4-side-panels they belong to. I need to do a tree where each of the 11 lists contains not the points composing the panels but the points code of the points composing the panels. the point code is the number in the flattened list that refers to the points (like, panel 1 is made of points n 0,1,4,18, and so on). To do this, I suppose that I will use my tree of 11 lists of 33 true-false values, and apply it to cull 11 times a series of numbers from 0 to 32. I ll post it if it works!…
ge on top) of Sameer's definition he used:
{A;B} (i) > {A} (i)
Let's suppose that you have 5 curves selected in your definition. So you will have:
- Data with 5 Branches
- N=11 (as default value from Divide Curve)
- data structure (0;0) (0;1).....(0;4)
Here the question: WHY?? the points coming out from this Path Mapper belong to the fifth curve (and not the fourth, the third...etc.)?
Thanks a lot!…
ample.
1.) Generate a series of 11 values.
2.) Multiply series by 30 degrees.
3.) Convert to Radians
4.) Rotate Point A about Point B 11 x 30
PI is available from the Maths Tab Utility Section or alternatively double click on the canvas and type PI hit enter.
If you haven't seen the Icons view with Fancy Wires before then these are available from the View Menu and are optional depending on your personal preference. Fancy Wires display the contents of a data stream in a graphical way. single wire = single data, double wire = multiple data on a single branch, double dashed wire = multiple data on multiple branches.
In the example below there are now two pivot points each generating a different 11 points in a circle.
…
them into one solid).
By the reversed order of the Loft Curves, the SolidDifference is still not working when I trim the surface by a box1 which is scaled over the z axis. But it does work around the problem of the deleting curve number 13 or 11 or 5 or 4 or 0. Strange, strange strange..... Maybe something for David?
Is there an explanation why the reversed order of the lofting curves is working better?
Cheers,
Bas…