eaky things > thus I barely can see the point of having it (or maybe I must train the cats - in fact I'm doing exactly that these days [windows 7 - the older the better]).
Given the opportunity: happens that some top data retrieval gurus here and there are good friends (don't ask why). Well ... they are not that crazy with SSD since they claim that they are very prone to failures due to current fluctuations (unless you use some top dog UPS). Moral: stick to good old ("slow") stuff.…
d fly with a Porsche flat six).
2. Added a double (nested) Anemone thing (and the Mateusz version) and some comments.
3. Added a stupid "arm maker" cluster ... primitive/ugly/pointless - see one prototype attached about how to do it (you'll need a top feature driven CAD app for this - notice the Teflon low friction ring).
4. In order to "adapt" the cluster arm you need some "stretch" capability (orient, scale et all are the 1st step). Of course putting the cluster into the 2*loop is the art of pointless (Mateusz misinterpreted my bitter comments as regards the "slow" thing, I had absolutely no intension to recreate "live" the arm).
be the Force (the dark option) with you all.…
in App store.
2. Modelo now supports VR! check out this video:
3. We've added a specular option in the rendering settings. So now you can have your design rendered a little bit shinny-er.
4. There is also a "filters" option in this panel, with which you can get some interesting image post processing effects. We are expanding this filter library, if you have any suggestions, please let us know.
5. This one is very important and has been requested by our customers for a long time. Now when you upload a model, you can grab the reviews(3d comments, screenshots,sketches) from your previously uploaded model! This works really conveniently if you use Modelo for your design review/presentation, cause you don't have to recreate the same 3d anchor views every time you made some changes to your design.
6. Also, our developer API is almost ready, which means if anyone is interested in developing a grasshopper plugin that works with Modelo, they can!
There are some many other updates and bug fixes happened. I don't want to list all of them here. Definitely stay subscribed with our newsletter. Modelo is thrived to grow into a more comprehensive platform! If you have any good ideas about our platform, please do not hesitate to let me know!
Here is our Youtube channel: https://www.youtube.com/channel/UCufBShhLtUQepsit9ilI-AA
Cheers
Qi…
Added by Suqi to Modelo at 1:24pm on October 18, 2016
basis).
2. Rhino does not have a proper object display capability (objects per layer per view basis and/or per "collections" per view).
3. TSplines does NOT have any on-the-fly coordinate system definition capability (making "edit" a pointless waste of time). A small example about what this means as regards view navigation matters: imagine "hoovering" along a myriad of 3d objects: if you choose/opt for it: the moment that you touch an element (that could define a vector): this instantly becomes the working plane Z axis (very common capability in top MCAD apps). Not the same as a SpaceNavigator controller mind (far from it).
If these 3 were available > rebuilding anything with TSplines could be a joy (and very fast: about 2 minutes for your mesh)
Get this as well - Load Rhino file first attached in my previous reply (just for fun: not for your case, but we could do an extra WOW MERO spaceframe out of this paranoid M mesh).
BTW: Exo W is "tricky"…
file. A TSpline made thing in fact.
2. This atroci ... er ... hmm ... I mean unspeakable beauty uses an exo-skeletal load bearing structure hence is THAT big (BTW: Apparently nobody knows what thermal bridge is nor thermal expansion nor vapor condensation ... but these are "minor" details these holly blob days, he he).
3. 2 means that some nodes of that "grid" MUST "meet" floors in order to support them and (hopefully) withstand some seismic forces. BTW: A Richter scale 9 (for an hour) is all what this building actually needs (that's acid "humor").
4. The "smarter" way to do this is to spread "some" (i.e a lot) random points (Note: David's algo yields "evenly-spaced-points" within the limits of the possible) on the guide blob (a polysurface in fact).
5. Then ... you need some algo that tests proximity AND "adjusts" the Z in order to have some node points "co-planar" (Z) with the floors.
6. Then you triangulate all that stuff (the points, that is) using some decent Ball Pivot Algorithm (NOT Delauney) and you get a triangulated mesh that "engulfs" the guide blob. If you want some quads (as shown) this is also possible.
7. So you have edges ... i.e poly lines (per mesh face) and if you offset them ... you have "drilling" profiles that you must use against a second guide "thickened" blob for creating a continuously smooth exo-skeletal LBS (as shown). Of course Rhino (being a surface modeller) could require years to do this solid difference opp (or an eternity).
8. Rounding the "lips" of that LBS Brep is out of question with Rhino or GH (but it can been done very easily using other apps). Then you must "split" the Brep (in modules? in nodes + "rodes"? you tell me) in order to make it in real-life (what about forgetting all that?, he he).
9. Then, there's the glazing thingy that is made via quads meaning planarity. This is achievable with Kangaroo2 but is a bit tricky.
Moral: WHAT a gigantic pile of worms is this thread of yours...
more soon.
…
next level.
This Parametric Design course will provide the participants with the necessary knowledge and ability to use Grasshopper, a free visual programming plugin in Rhinoceros; you will be guided through a series of hands-on exercises that highlight NURBS modeling and its concepts. We will introduce Grasshopper as a graphical algorithm editor tightly integrated with Rhino’s 3D modeling tools. You will also learn how Rhino is used to render models for visualization, translate 3D models for prototyping, and export 3D models into 2D CAD or graphics programs.
English is the course main language.
Location: Düsseldorf city center
Registration and buying Tickets
www.digitalparametrics.eventbrite.de
Course Calendar:
4 Days 6 hours each
Total duration 24h
2 weekends
Date:
Sat. 17 - Sun. 18 June
Sat. 24 - Sun. 25 June
10:00 - 17:00
Getting Started in Rhino. 2 days (17 - 18 June)
Getting Started in Grasshopper. 2 days (24 - 25 June)
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Participants will be given a certificate of participation at the end of the course.
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Course fees:
Professionals: 600€ (excl. MwSt.) Students: 500€ (excl. MwSt.) Students need to provide: Copy of current student ID or proof of student enrollment at University/School.
Group discounts:
Group of 3 professionals: 3x500 = 1500€ (excl. MwSt.)
Group of 3 Students: 3x400 = 1200€ (excl. MwSt.)
Participants are kindly asked to bring their own laptops and have pre-installed Rhino + Grasshopper.
Useful Resources:
Rhinoceros Installation (90 days full version trial available): http://www.rhino3d.com/download
Rhinoceros for Mac (includes Grasshopper) http://www.rhino3d.com/download/rhino-for-mac/5/wip
Grasshopper Free Installation: http://www.grasshopper3d.com/page/download-1
Grasshopper Free Plugins: http://www.food4rhino.com/app/lunchbox http://www.giuliopiacentino.com/weaverbird
Main Tutor:
Rihan
M.A. Dipl.Ing. Architect
Architect at RKW Architektur + Düsseldorf
For any questions about the course, please email: info@immersive-studio.com…
milar real-life AEC things that in fact are complex assemblies ... then your next (actually the first) step should be top-dog MCAD apps (but try Microstation + Generative components as well).
But given the opportunity there's 2 kind of "parametric" things out there:
1. The Topology (an abstract collection mostly of coordinate systems) that can been handled via graphical editors like GH. If there's some logic behind ... then ... maybe ... we can talk about algorithmic stuff (but who cares about names? not me anyway).
2. The real-life 3d things that are designed via dimension driven design, history based modeling, feature modelling etc etc (using exclusively high end solid modeling apps NOT surface modellers like Rhino). Basically you design these "by hand" (by mouse in fact) and then you "export" their "events" that "matter" to the app that does the 1 > then either you change them (clash/cost/structural/aesthetic reasons etc) or you change the topology. If these are ready parts from the market (kinda like the Norsman cable tensioners used) then ... you just keep them in RDBMS controlled repositories and use them accordingly. But if the project is really bespoke you can design them too as well (blame client's vanity).
So you have 2 kinds of "parametric": the theory and the reality ... whilst the "ideal" solution is some kind of equilibrium between "I want" and "I can".
On the other hand doing FEA on real-life bespoke complex parts ... well .... as I said months ago > what about some other Project? he, he.
But ... hope dies last ... there's a "middle" solution as well: wait for the 4 horsemen (the 4 C# that in fact are 5).
You'll be surprised…
that "all-in-one" thing. Some people believe that this is not a big deal (I guess that they have no real-life experience from AEC studies). GC is s l o w, has more bugs than Sahara has grains of sand, and Robert Aish - the equivalent of David Rutten - had escaped to Autodesk (did the Dynamo since). GC is either stand-alone (+ Microstation) or a MS add-on. GC has a very steep learning curve. GC works on a "sequential" mode that is far better suited for engineering purposes. Microtation includes the best solid (NOT surface) engine known to mankind (same as Siemens/NX). Microstation also includes the best rendering engine (straight from the US movie industry: the notorious Nexus engine). Microstation has a lot of bugs.
GH: fast, vibrant community, fast becoming the standard for entry-level parametric adventures (not AEC), evolving 10 times faster than GC. But ... Rhino is NOT an AEC app nor it would ever be not to mention that surface modelling thingy, the non existent feature modelling capabilities and ... er... hmm ... MIA assembly/component capabilities as well.
For some MS+GC+... normal (and abnormal) adventures: https://www.behance.net/peterfotiadis
PS: post some real-life case (GH <> AECOSim) in MS native format (.dgn).…
(http://www.food4rhino.com/app/quelea-agent-based-design-grasshopper) take like 40 seconds when the toggle activates to go from one end of the ramp to another.
With proximity 3d i'm analyzing each instance the agents are closer than x units. In picture 3 we can see that in 212 instances the agent are closer than those x units.
Finally all the genes that controll the ramps are connected to the G of octopus component and one of the conflicting objectives connected to the O of octopus component is the number of instance quelea agents get close.
So the thing I need is to iterate the ramps controling the genes with octopus but activating the boolean toggle (quelea run) each time the ramps are modified so the agents take 40 seconds to perambulate the environment, analyze the instance they get close and let octopus iterate again searching for a optimized environment.
…