algorithmic modeling for Rhino
Hi Luis,
I'm trying to link some grasshopper sessions on several local computers, but I'm stuck with a connexion error: gHowl does not seem to see any distant IP, but I can ping everybody and I opened the UDP ports on all the firewalls, routers, etc.... so I really dont understand the problem.
Here is the error message: AddressNotAvailable: this address is not a local address that can be monitored.
The selected IP address is not valid in this context.
Did you already managed to do something similar? Or gHowl is restricted to a single-machine use?
Thanks,
TS.
Hello TS,
We have successfully connected to a cloud of computers several times. It is pretty straightforward. Are all of the computers in the same network? What kind of addresses are you using? Send me some screenshots of your setups and I can comment further.
Luis
Ok, thanks Luis.
The computers are on a local network (I only tried between one wired and one wifi for the moment, I did not checked the other wired PCs), so everybody has a local adress (192.168.101-110). For the test I was testing with the 6000 to 6010 UDP ports.Tomorrow I will try on another network (wired).
Here are the definitions I used:
TS.
Hi everybody!
Here you can see one little stuff I've posted on my Vimeo profile.
The link and description:
"Finally I got around to have some practice with gHowl. Before the first release of the tool, I had tried to link my iPhone both with Processing and Grasshopper, unfortunately without success.
This time everythink seems to work pretty fine, even if a little bit slowly!
TouchOSC is a universal iPhone application that lets you send and receive Open Sound Control messages over a Wi-Fi network using the UDP protocol. Together with his relative editor you can to design custom layouts (see Hexler.net’s for more informations and basic code hexler.net/software/touchosc).
The OSC message contains data coming from a customized touch XYpad and the accelerometer (the latter is the triplet of data: x-rot, z-rot, orientation). Once it has been received, gHowl delivers the content of the message to Processing, in order to provide a minimal visualization of any tracked data.
Maybe, as have already seen in my previous explorations, the test-wall shows adaptive behaviour by changing his porosity: the cursor coordinates on the touch XYpad (on the iPhone) are remapped conveniently to the surface's UV domain to define the varying position of an attractor point.
One further control is provided by a sort of 'switch' for the openings of the wall: the point attractor strategy is suddenly lost whenever the orientation (i.e. y-rot) assumes values within the ranges (0.9;1) and (-1;-0.9). That is, the iPhone is nearly horizontal. Only in that position the remote controller closes the entire panels."
Hope you enjoy it!
Ooops: I can't say why, but Vimeo embedding doesn't work properly here...
Let me upload the video...
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