Ladybug + Honeybee:
(Follow steps 0-4 for basic functionality and 0-9 for full functionality)
0. If you have an old version of LB+HB, download the file here (https://app.box.com/s/ds96em9l6stxpcw8kgtf)
and open it in Grasshopper to remove your old Ladybug and Honeybee version.
1. Make sure that you have a working copy of both Rhino and Grasshopper installed.
2. Open Rhino and type "Grasshopper" into the command line (without quotations). Wait for grasshopper to load.
3. Install GHPython 0.6.0.3 by downloading the file at this link (http://www.food4rhino.com/project/ghpython?ufh) and
drag the .gha file onto the Grasshopper canvas.
4. Select and drag all of the userObject files (downloaded with this instructions file) onto your Grasshopper canvas.
You should see Ladybug and Honeybee appear as tabs on the grasshopper tool bar.
(If you are reading this instruction on github you can download them from http://www.food4rhino.com/project/ladybug-honeybee)
5. Restart Rhino and Grasshopper. You now have a fully-functioning Ladybug. For Honeybee, continue to the following:
6. Install Radiance to C:\Radiance by downloading it from this link (https://github.com/NREL/Radiance/releases/download/4.2.2/radiance-4.2.2-win32.exe) and running the exe.
7. Install Daysim 4.0 for Windows to C:\DAYSIM by downloading it at this link (http://daysim.ning.com/page/download) and running the exe.
8. Install EnergyPlus 8.1 to C:\EnergyPlusV8-1-0 by going to the DOE website (http://apps1.eere.energy.gov/buildings/energyplus/energyplus_download.cfm), making an account, going to "download older
versions of EnergyPlus, selecting 8.1 and running the exe.
9. Copy falsecolor2.exe (http://pyrat.googlecode.com/files/falsecolor2.exe) and evalglare.exe (http://www.ise.fraunhofer.de/en/downloads-englisch/software/evalglare_windows.zip/at_download/file) to C:\Radiance\bin
10. You now have a fully-working version of Ladybug + Honeybee. Get started visualizing weather data with these video tutorials (https://www.youtube.com/playlist?list=PLruLh1AdY-Sj_XGz3kzHUoWmpWDXNep1O).
After I've done all the above I followed this video
https://vimeo.com/96155674
And everything works well.
…
e actual method.
Below, I descibe how they work:
1) drag "scheduleDay" onto the canvas
2) drag some Gene Pool lists onto the canvas and connect a number slider - from 0 to 3.
3) connect the Gene Pool list to _genePool input. The component change some important features of the Gene Pool list automatically. Now you have LB_GenePool!!
4) choose the template that it's suitable for you.
5) disconnect LB_GenePool and if templates are not good, you can change them manually
6) drag "Ladybug annual schedule" onto the canvas
7) Connect LB_GenePools to inputs for the days of the week, Epw file and if you want to "_holiday" (in this way you consider holidays). Now you have your simple schedule.
8) a small workflow to visualize it into Rhino..
9) Connect "Ladybug annual schedule" to "Honeybee_Create CSV Schedule" to make your csv Schedule
You could make a schedule more complex than the one in the example above.
You can do that with _analysisPeriod input.
Bests
Antonello…
nted" in space (at instance definition creation phase): indicates the obvious fact that if garbage in > garbage out (try it).
2. Load the GH thing. Task for you: Using Named Views locate the points of interest as described further and make a suitable view. That way you can navigate rather easily around (hope dies last).
3. Your attractors are controlled from here:
The slider in blue picks some attractor to play with. You can use this while the K2 is running.
4. Don't change anything here (think of it as a black box: who cares how it works? nobody actually):
5. Enable the other "black box": job done your real-life stuff is placed:
6. Enable the solver: your "real-life" things start to bounce around:
7. Go there are play with the slider. A different attractor yields an other solution:
8. With real-life things in place if you disable the C# ... they are instantly deleted and you are back in lines/points and the likes:
9. Either with instance definitions or Lines/points change ... er ... hmm ... these "simple" parameters and discover the truth out there:
10. Since these are a "few" and they affect the simulation with a variety of ways ... we need a "self calibrating" system: some mini big Brother that does the job for us. Kinda like applying safely the brakes when it rains (I hate ABS mind).
NOTE: the rod with springs requires some additional code ,more (that deals with NESTED instance definitions) in order to (b) bounce as a whole and at the same time (b) elongates or shrinks a bit.
More soon.
…
a and we'll stop adding new stuff. At this point the Grasshopper version will be rolled to 1.0 Beta 1 and we'll keep on fixing serious bugs, resulting in Grasshopper 1.0 Beta 2 etc. etc. until the product is stable enough to be treated as a commercially viable product.
This does not mean Grasshopper will no longer be free. Robert McNeel & Associates (who develop and own the copyrights to Grasshopper) haven't decided yet whether or not to sell Grasshopper or whether to keep it as a free plug-in for Rhino customers.
As soon as Grasshopper 1.0 goes into beta, all development (apart from the odd bug-fix) stops and we start typing on Grasshopper 2.0. It will probably be a few months until the first 2.0 WIP version is released but basically the whole process starts over.
What are we looking to accomplish for 1.0 and which things are planned for 2.0 and beyond? The only major feature still missing in 1.0 is the Remote Control Panel. This feature was removed at some point and has been partially rewritten since then. Once it's finished, we consider the 1.0 feature set to be complete.
To be honest we've made very few concrete plans yet concerning 2.0, however it's clear that some things need to be at least seriously considered and researched. Here follows a list in no particular order:
Documentation System. This is one of the things we know we're going to do as we've already started. The Grasshopper help system will need to be rewritten and a lot of help topics need to be typed up. We have a pretty good idea what it is we want to accomplish with the new help and how we're going to go about it.
Vocabulary. Along with new documentation we'll critically analyse the current terminology and vocabulary of Grasshopper. We'll probably come up with glossaries and style sheets. We want to use words that are —at best— self documenting and —at worst— non ambiguous.
SDK and core library cleanup/improvement. Grasshopper was the first large scale product I ever developed and a lot of mistakes were made in the SDK design. A lot of functions and classes have been marked obsolete over time and many operations are not properly bottlenecked. I also want to add a lot more events so it's easier for code to keep close tabs on what's going on at any given moment.
GUI platform. At the moment Grasshopper is pure .NET winforms using GDI+ for all the interface drawing. There are certain performance issues with using large GDI+ surfaces and certain limitations on what we can and cannot draw. We will be investigating other graphics pipelines such as WPF, OpenGL, DirectX, OpenTK and whatever else seems promising.
Multi-threading. It is clear that some components are embarrassingly parallel, and since almost every single laptop and desktop has at least 4 cores these days it would be a shame not to use them. We will investigate what it takes to implement multi-threading as a standard feature.
Large file support. Grasshopper becomes awkward to use when a document contains more than a hundred or so components. We need to both improve the interface to provide methods for layering or grouping sub-algorithms and also add ways to reduce memory and computational overhead.
--
David Rutten
david@mcneel.com
Poprad, Slovakia…
ng/702/30
EDIT: DK2 works, not with positional tracking yet (14/09/15)
Source is here:
https://github.com/provolot/RhinoRift
Steps:
1) Download these files (also attached below):
https://github.com/provolot/oculus-grasshopper/raw/master/oculus-grasshopper_v0.4.ghx
https://github.com/provolot/oculus-grasshopper/raw/master/OpenTrackRiftGrasshopperUDP.ini
https://github.com/provolot/oculus-grasshopper/raw/master/oculus-grasshopper-test_v0.1.3dm
2) Download OpenTrack - http://ananke.laggy.pk/opentrack/, and setup/install. Once installed, double-click to open.
3) In OpenTrack, load the 'OpenTrackRiftGrasshopperUDP.ini' profile. Click the 'Start' button and move your Rift around - make sure that it looks like the Yaw/Pitch/Roll data is being sent. TX/TY/TZ will all be 0, as Oculus doesn't have absolute positioning data.
4) In Rhino, open the test 3dm. You'll notice that there are two viewports - called 'LeftEye' and 'RightEye'. These have been placed to mimic where the screens should be for the Oculus Rift --- but only when Rhino is in fullscreen mode, with the command 'Fullscreen'. The placement needs to be tweaked, but should work.
If you want to use your own model, you can load your own .3dm file in Rhino, then you can right-click on the viewport name, and go to Viewport Layout > Read from File. If you then load my test file, Rhino should open my two viewports, sized correctly, onto your model.
The placement of these viewports need to be tweaked; if you find a better viewport layout, upload an empty Rhino file with your viewports, and we can share eye-layout 'templates'!
5) In Grasshopper, open the .ghx definition. Everything that is multiple-grouped is a value that can be changed. Two things here:
- IPD: Set this and convert it to the proper units for your model.
- Left/right viewport names. In this case, leave this as-is, since you're using my example file.
6) Turn on the Grasshopper Timer, if it isn't on already.
7) In the GH definition, toggle 'SyncEyes' to be True. Then, in the left viewport, try orbiting around with the mouse. The 'RightEye' viewport should move around as well, pretty much simultaneously.
8) In OpenTrack, click 'Start', then toggle 'ReadUDP' to be True. You should see the 'OpenTrackInfo' panel fill with data that's constantly changing.
9) Move around the landscape with your camera, and when you set on a starting view that's ideal, click the triangle of the Data Dam component to 'store' the data.
10) Finally, toggle 'OculusMove' to be true. If all works correctly, both viewports should move based on the Rift's movement.
Let me know if you have any problems!
Cheers,
Dan…
Added by Dan Taeyoung at 11:47pm on December 10, 2013
three categories, each one corresponding to different shapeType_ input:- polygons (shapeType_ = 0): anything consisted of closed polygons: buildings, grass areas, forests, lakes, etc
- polylines (shapeType_ = 1): non closed polylines as: streets, roads, highways, rivers, canals, train tracks ...- points (shapeType_ = 2): any point features, like: Trees, building entrances, benches, junctions between roads... Store locations: restaurants, bars, pharmacies, post offices...
So basically when you ran the "OSM shapes" component with the shapeType_ = 2, you will get a lot of points. If you would like to get only 3d trees, you run the "OSM 3D" component and it will create 3d trees from only those points which are in fact trees. You can also check which points are trees by looking at the exact location on openstreetmap.org. For example:
Or use the "OSM Search" component which will identify all trees among the points, regardless of whether 3d trees can be created or not.However, when it comes to 3d trees there is a catch:
Sometimes the geometry which Gismo streams from OpenStreetMap.org does not contain a "height" key. Or it does contain it but the value for that key is missing.OpenStreetMap is free editable map database, so anyone with internet access and free registered account on openstreetmap.org can add features (like trees) to the map database. However, regular people sometimes do not have height measuring devices which are needed for specific objects as trees.So "OSM 3D" component will generate 3d trees from only those tree points which contain a valid "height" key.However, a small workaround is to input a domain(range) into the randomHeightRange_ input of "OSM 3D" component (for example the following one: "5 to 10"):
This will result in creation of other 3d trees which do not have defined height, by randomizing their height. randomHeightRange_ input can also be applied to 3d buildings, and it is definitively something I need to write a separate article on.
In the end it may be that nobody mapped the trees in the area you are looking for.
After you map a tree to openstreetmap.org then it will instantly be available to you or any other user of Gismo. I will be adding some tutorials in the future on how this can be done. But probably not in the next couple of weeks.
Let me know if any of this helps, or if I completely misunderstood your issue.…
Added by djordje to Gismo at 3:52am on February 8, 2017
h tubes are redundant so surfaces overlap instead of interpenetrate, so it is not a good system.
Cocoon is the best answer these days unless you can get Exowire/Exoskelton to work. If you want more control over shape, feed your uncapped tubes into Cocoon as meta-surfaces and delete any and all of the inner meshes to just keep the outer single closed one, but this is just duplicate-culled lines used as meta-lines:
Turn down the CS input to 0.005 for this result, from 0.02 used for faster preview. In fact bake the lines and only test Cocoon on a few of them in order to get the result you want before doing the whole thing.
Whole thing at 0.005 cell size takes 5 minutes for Cocoon and 2 minutes for refinement to a smooth and even mesh.
Actually, seems like 0.005 is way too fine, giving a 600MB STL file.
So, 0.01 cell size at less than a minute total:
159MB STL which is still a bit too big for places like Shapeways. Wow. OK then 0.02 cell size, but I have to increase diameter or my two smoothing steps in refine collapse things too much, an in fact I set it to no smoothing, getting more volume and a reasonable 46MB STL file:
Alas, now it's more frail and overly organic rather than mechanical. Increasing diameter just merges it into perforated plates too much. File size is simply an issue with this complexity level, so different 3D printing services will have different file size limits.
Exowire/Exoskeleton would work but your original mesh hasn't been MeshMachine remeshed to be regular, so short segments ruin it. Here is just a corner:
I think that's why more wires fails, at least. Pretty temperamental component.
Switching to MeshMachine is needed, I guess, instead of Cocoon refine, to remesh away so many small triangles along the boring tubes. Crucial for good remeshing was to set Flip to 0 or I failed to get a rough enough mesh.
It's an adaptive mesh so I can retain good detail while roughing out the tubes.
MeshMachine is terribly slow for this whole thing, like 6 minutes, and blows up for this overly rough setting, 20 steps, so less rough, ugh, I'm out of time. I think free Autocad Meshmixer is the way to make a better smaller mesh, after a refined output from Cocoon. MeshMachine is just too slow to tweak and when it blows up, creating massive triangles jutting out, it hangs too when you change settings.
Starting with a Cocoon refined mesh certainly helped Meshmixer. Using triangle budget lets me have full control. Here is 150K triangles instead of 200K:
STL file size down to 40MB. I think Shapeways is 70 or 100MB limit? So it can be even finer. Here is the Cocoon output versus the Meshmixer reduction:
To use Meshmixer, turn on View > Show Wireframe, Command-S to select all and use Edit > Reduce from the palette that appears.
Cocoon can end up making a few inner meshes where things get weird in your uneven original mesh with small holes so fish out the main mesh by adding a List Item node.
The best strategy for Cocoon is indeed to make an overly fine STL so you avoid any need to tweak forever in Grasshopper, but then you can achieve a smaller mesh file size while preserving shape instead of things turning all smearly organic in Grasshopper.…
s for architectural design, has been heralded as the new paradigm in architecture for the last decade. Digital design techniques coupled with rapid prototyping have permeated architectural education and practice at all levels. But, besides the endless rhetoric and baseless forms, what can these methods actually contribute to the field? What is the scope of their use?
This workshop seeks to answer these questions by investigating surfaces, surface mathematics and manipulations, and using this investigation to introduce students to the issues of design and fabrication of artifacts.
The workshop will thus introduce participants to the basic concepts for design utilizing scripting techniques, through the exploration of the Python language for Rhinoceros. Together with the study of syntax, data types and scripting techniques the focus will be put on the understanding of the digital tools in relation with the common practice and the ways to approach problems a designer might encounter while using them.
Examples of a previous similiar workshop can be found here
Details: Instructors: Marina Konstantatou (University College London), Pierluigi D’Acunto (ETH Zurich), Vincenzo Reale(Zaha Hadid Architects + Architectural Association London), Giancarlo Torpiano (Architectural Association London) *At least two tutors will be present during the workshop Language: English Schedule: 15 – 16 – 17 MAY 2013 // 9.00 – 18.00 Organizers: SMD + LaTiendaDelCAD + PeQuod Venue: McNeel Europe Offices, c/ Roger de Flor 32-34, 08018 Barcelona (map)
Software: Rhinoceros 5 Grasshopper 0.9.0014 Python Component for Grasshopper
Every participant should bring his or her own laptop with the software installed. In the class will be also computers in case any participant could not bring a laptop.
Links to the softwares will be facilitated to participants once they get into the registration process.
Registration: Students* : 395€ (+vat) Professionals: 495€ (+vat)
Early bird promo
Registrations made before 22nd April will get a discount over the price:
Early Bird promo Student* : 295€ (+vat) Early Bird promo Professional: 395€ (+vat)
For registry, please visit la TiendaDelCAD website
* Students will have to proof their status with a student ID
The course will be confirmed as soon as the minimum number of participants is reached, and no later than the 29th April. There will be places for a total of 14 participants.
Venue: McNeel Europe Offices, c/ Roger de Flor 32-34, 08018 Barcelona…
_b2 texfunc WoodGrain_tex
6 xgrain_dx ygrain_dx zgrain_dx woodtex.cal -s 0.01
0
1 0.075
WoodGrain_tex plastic WoodGrain_NonColor2
0
0
5 0.364 0.187 0.072 0.006 0.0
This creates the texture (on the table) below:
Is it possible for me to use a multi-modifier material like this in Honeybee ?
Thanks,
Sarith
(Update: I figured out a hack to do this in MSH2RAD but I still don't know if it is possible to add this to the Honeybee Library).…
..
The problem is that using the index, adding a activies, the next activies change the index and then the link is wrong.
example: I need to connect to hotel function with house function, therefore i have 0 and 4 index in my panel.. So i have to extract the index linked to the alphabetical value to be able to draw lines between the points associated to the names of activities. Now if i add a new string between the values, the house activity hasn't the original index 4 but the new index 5. So the link will be not created between hotel and house but hotel e new activity in the index 4.
…