he TOF and TSRF indices. They show, how "distant" is your _PV_SWHsurface from the optimal _PV_SWHsurface surface in terms of tilt and azimuth angles.However, in your case we are not interested in TOF and TSRF indices. We would just like to know what are the _PV_SWHsurface optimal tilt and azimuth angles, regardless of the supplied _PV_SWHsurface.
So the circular surface supplied to the "TOF" component's _PV_SWHsurface input is irrelevant. It can be of any area, and any tilt/azimuth angle.The PV_SWHsurfacesArea output of the "PV SWH system size" component depends on a couple of factors:moduleActiveAreaPercent_ (leave it at 90%).
moduleEfficiency_,
systemSize_.Calculation of systemSize_ depends on your electricity demand, cost of the PV system, type of the object, country, local regulations etc. This is something that an engineer needs to determine.For example, in USA for a residential house in the Sunbelt, depending on finances, a household would try to cover 100% of its annual electricity needs with their PV system. Which means that the systemSize_ you chose needs to cover the annual electricity consumption. You can perform EnergyPlus simulation or use any other way to get the annual electricity consumption.
Ladybug "Photovoltaics Performance" component can calculate the optimal systemSize_ by given the annual electricity consumption.However the component is made to address fixed tilt and azimuth PV systems only.An approximate way to overcome this is to calculate the optimal systemSize_ for fixed tilt and azimuth PV system, and then multiply it with the "difference in %s" panel at the very right of the fixed_vs_tracker_PV2.gh file. Again, this is not what Ladybug "Photovoltaics Performance" component is made to do, but it will probably get you in a ball park.
Inputted 32 degrees for north_ direction is actually 328 degrees.This is due to Ladybug Photovoltaics being based on NREL model which uses clockwise angles convention. This convention is also most commonly used in solar radiation analysis.
Dubai weather data files are uploaded in here.
…
GH, same as using sweep2 command in Rhino.
The one on the right is what I got so far (the output smooth our the kink of the original rails). Basically I am just following the methods provided by sdk sample: http://wiki.mcneel.com/developer/sdksamples/sweep2 .
The following is the function I copy and use directly from the SDK sample. By using this function, I can generate the sweep surface at right. But I want to have is the one in the middle with the kink edges. Can anyone show me how and where to modify he settings? I guess some sweep arguments need to be changed? I have try couples, such m_simplify, m_bSimpleSweep, m_bSameHeight, m_rebuild_count... but still cannot find a right combination for this function to output the sweep surface I want. Any suggestions or helps are very appreciated. Thanks for your help and time on this.
'Sweep2 function'----------------
Sub Sweep2( ByVal Rail1 As IOnCurve, _
ByVal Rail2 As IOnCurve, _
ByVal sCurves As List(Of IOnCurve), _
ByRef Sweep2_Breps As List(Of OnBrep))
'Define a new class that contains sweep2 arguments
Dim args As New MArgsRhinoSweep2
'Set the 2 rails
Dim Edge1 As New MRhinoPolyEdge
Dim Edge2 As New MRhinoPolyEdge
Edge1.Append(Rail1.DuplicateCurve())
Edge2.Append(Rail2.DuplicateCurve())
'Add rails to sweep arguments
args.m_rail_curves(0) = Edge1
args.m_rail_curves(1) = Edge2
args.m_bClosed = False
Dim section_curves As New List(Of OnCurve)
'Loop through sections to set parameters
For Each Section As IOnCurve In sCurves
Dim sCurve As OnCurve = Section.DuplicateCurve()
section_curves.Add(sCurve)
Dim t0 As Double = 0
If Not Edge1.GetClosestPoint(sCurve.PointAtStart(), t0) Then
If Not Edge1.GetClosestPoint(sCurve.PointAtEnd(), t0) Then
Dim s As Double = 0
sCurve.GetNormalizedArcLengthPoint(0.5, s)
Edge1.GetClosestPoint(sCurve.PointAt(s), t0)
End If
End If
args.m_rail_params(0).Append(t0)
Dim t1 As Double = 0
If Not Edge2.GetClosestPoint(sCurve.PointAtStart(), t1) Then
If Not Edge2.GetClosestPoint(sCurve.PointAtEnd(), t1) Then
Dim s As Double = 0
sCurve.GetNormalizedArcLengthPoint(0.5, s)
Edge2.GetClosestPoint(sCurve.PointAt(s), t1)
End If
End If
args.m_rail_params(1).Append(t1)
Next
'Set shapes
args.m_shape_curves = section_curves.ToArray
'Set the rest of parameters
args.m_simplify = 0
args.m_bSimpleSweep = False
args.m_bSameHeight = False
args.m_rebuild_count = -1 'Sample point count for rebuilding shapes
args.m_refit_tolerance = RMA.Rhino.RhUtil.RhinoApp.ActiveDoc.AbsoluteTolerance()
args.m_sweep_tolerance = RMA.Rhino.RhUtil.RhinoApp.ActiveDoc.AbsoluteTolerance()
args.m_angle_tolerance = RMA.Rhino.RhUtil.RhinoApp.ActiveDoc.AngleToleranceRadians()
Dim sBreps() As OnBrep = Nothing
If (RhUtil.RhinoSweep2(args, sBreps)) Then
For Each b As OnBrep In sBreps
Sweep2_Breps.Add(b)
Next
End If
Return
End Sub
…
been written about it and I manage to get both of them started with this:
(VB.NET)
Public Class Form1
Private Sub Button1_Click(sender As Object, e As EventArgs) Handles Button1.Click Dim doc1 As String = "C:\Users\Xavier\Desktop\Test_GH\Test à changer.gh" Dim type As Type = Type.GetTypeFromProgID("Rhino5x64.Application", True)
'Start Rhino
Dim rhinocomobj As Object = Activator.CreateInstance(type) rhinocomobj.visible = True While rhinocomobj.IsInitialized() = 0 Threading.Thread.Sleep(100) End While
'Start GH and open a file
rhinocomobj.RunScript("_Grasshopper", 0) Dim gh As Object = rhinocomobj.GetPlugInObject("b45a29b1-4343-4035-989e-044e8580d9cf", "00000000-0000-0000-0000-000000000000") gh.OpenDocument(doc1)
From what I understood, this creates a separated COM object, but I don't know how I can manipulate it. For example, how can I get the RhinoDoc, the GH Document and so on?
I tried :
Dim RhinoDocument as RhinoDoc = RhinoDoc.ActiveDoc
but this throws an exception "System.dllNotFoundException" about RhinoCommon.dll, despite RhinoCommon.dll has been set as a Reference of the Project.
I tried as well to build a new class which sits inside GH (DLL as a reference + GHA inside GH library) as per David's suggestion: http://www.grasshopper3d.com/forum/topics/call-gh-from-c-code, and to access properties but I still get the same "DLL Not Found" exception whenever I use GH commands through this tailor made class.
At last, I tried using RhinoScript Interface through commands like :
gh.AssignDataToParameter, but this doesn't change the value, this doesn't throw any exception neither.
I would like to get full access in order to change parameters from a GH document, output geometries and DWG files, and so on.
I don't know if I am being really clear but any help would be really appreciated.
Thanks!
…
s levels of detail by subdividing a 6 sided cube mesh and projecting its vertices according to a referenced height map. This is one of the standard conventions for building full sizes planets. At the lowest level (0) the mesh planet is made of 6 pieces(each 32x32 resolution). The next level down (1) is made of 24 pieces... 6 divided by 4 = 24. Level (2) is 96 quads etc etc. The script will generate each quad at its sub-division level and compare edge vertices to neighboring quads. It will then make sure any shared vertices are in fact at the same projected vector. This ensures a planet quad with edge vertices that match.
The problems comes in texturing each quad.
If I build the quad as a nurb surface from points I can place the texture easily because each surface UV maps squarely to my texture map (which is also square).
If I build the quad as a mesh I cannot just apply the square texture to the mesh UVs. This is because when you unwrap the UVs from a mesh they will not unwrap like a nurb surface's UVs. Therefore to get the correct mapping I would have to manipulate each UV back to an evenly aligned array (which is 1024 points in a 32x32 resolution UV). Maya and blender have 'relax uv' and 'align UV' functions but they don't do the trick and manual corrections are out of the question. So why not skip the mesh method and use the nurb method?
I did this and there is a trade off. The nurb will accept the material texture I want with no other work on my end but when I export the object as an .obj rhino creates its own mesh to describe the nurb(with various unsatisfactory setting options). This works great up to a point because at some level the interpreted mesh will have vertices that do no match at the edges, ie .. creating visible seams in the mesh. The picture below is the nearly seamless planet at LOD(1) made of 24 quads, each with 32x32 vertice resolution and a 512x512 jpg texture running in Unity3d 5. It works but at close level there are seams. This will be resolved simply by having the next LOD(x) instantiate before getting close enough to see the seam but at core nerd level I want the seamless mesh.
So, I can make the seamless mesh but I can not realistically texture map it. I can also make the nurb surface from points and texture it at the expense of the edge vertices matching. I am at the split in the road but I want to have my cake and eat it too. Thoughts, comments, trolls...?
Thanks for reading =)
Footnote: For you pros I am not using seamless noise across the map I am using grasshopper to sew up my otherwise non perfect edges.
Other programs in the pipeline:
-WorldMachine 2
-Wilbur
-Photoshop
-Unity3d…
ive collaborative environment.
TYPE : Course module and Workshop
The event is open for anybody interested from all the fields of design, including: architecture, interior design, furniture design, product design, fashion design, scenography, and engineering.
1. COURSE MODULE (20-23 April 2014) - optional
+ type: 3 days intensive course regarding basic knowledge in parametric design (LEVEL 1)
+ software: Rhinoceros & Grasshopper
+ plugins: Kangaroo, Weaver Bird, Lunch box, Ghowl, Geco
+ achievements:
- acquainting to the components & the concept of Generative Design
- understanding the strategies in Algorithmic Design
- how to easily insert simple mathematical equation into the project to gain more control
- how to utilize proper plugins with respect to their nature of the project
- interacting with different analysis platforms such as Ecotect & remote controller
- solving several exercises with different scales( 2D- 3D ) during each phase of the workshop
2. WORKSHOP (23-27 April 2014)
A 5 day Design-Based Research Workshop exploring new techniques in Digital Architecture/Fabrication, with a specific focus on the use of generative systems and parametric modeling as tools for creative expression.
Our ultimate goal is to increasing the efficiency of utilizing digital tools in parallel with geometric performance of the primitive design agent.
+ + CONCEPT
Fashion and Architecture are both based on basic life necessities – clothing and shelter.
However, they are also forms of self-expression – for both creators and consumers.
Both fashion and architecture affect our emotional being in many ways.
The agenda of this workshop is to investigate on the overlap between these two areas of design, art & fashion.
Fashion and architecture express ideas of personal, social and cultural identity, reflecting the concerns of the user and the ambition of the age. Their relationship is a symbiotic one and throughout history, clothing and buildings have echoed each other in form and appearance. This only seems natural as they not only share the primary function of providing shelter and protection for the body, but also because they both create space and volume out of flat, two-dimensional materials.
While they have much in common, they are also intrinsically different – address the human scale, but the proportions, sizes and shapes differ enormously.
+ + + OBJECTIVES
So far, Architects have been using techniques such as folding, bending etc. to create space, structural roofs or different other structural shapes.
The agenda of this workshop goes further with the investigation of algorithmic thinking through generative tools Integrated in design.
The challenge is creating a bridge that connects these two areas of design, architecture and fashion that perform at two opposite scales.
+ + + + TECHNICAL BRIEF
In the early stages physical models and low-tech strategies will be used, allowing the participants to gain a greater understanding of materials, fabrication and assembly methods as well as simple, yet pragmatic structural solutions.
Later in the workshop these strategies will be digitalized and elaborated using software visualizing tools such as Rhinoceros and the algorithmic plug-in Grasshopper.…
o Common - just like C#. But Rhino Python has a "Scripting Language Wrapper" which breaks commonly used taks down to simpler functions.
Here's a general Example:
Take a look at the code on this website http://wiki.mcneel.com/developer/rhinocommonsamples/addline). Generally it's Rhino Common code in three language to create a line. They look equally difficult.
But if you use Rhino Python Scripting you can use an simplified syntax to get the same result. It's very similar to Rhino Script.
The code would be:
import rhinoscriptsyntax as rsstart_point = rs.GetPoint("Get start point")end_point = rs.GetPoint("Get end point")line_id = rs.AddLine(start_point, end_point)
OK - No Error Tracking here, but still you can see that the syntax is much simpler. (And in the end you just have less lines of code you have to debug.
And the good thing about Rhino Python is, that you can mix these approaches. Once you reach a level where Rhino Python Script doesn't get you there, which by the way happens very rarely, you can still use the Rhino Common methods.
Also, in Python Sycripting 99% of what you probably would like to do is available as a "wrapped" script function.
Rhino Python Script is currently also better documented than Rhino Common for C# and VB.Net. If you have used Rhino VB Script before, these functions will be very familar to you.
I'm not sure, why it's currently a separate plug-in. I belive the reason is that Rhino 4 (which is supported by GH) doesn't support Rhino Python. Also it's currently WIP, so it needed to be updated more frequently than GH itself. In the long run (I believe) it might be integrated into GH as a general component
- Martin
P.S.: To use Rhino Python within GH is a little more tricky than my example - but nothing compared to developing C#
P.S.2 Here's the code with Error Tracking:
import rhinoscriptsyntax as rsdef AddLine(): start_point = rs.GetPoint("Get start point") if start_point is None: print "No start point was selected" return end_point = rs.GetPoint("Get end point") if end_point is None: print "No end point was selected" return line_id = rs.AddLine(start_point, end_point) return line_idAddLine()
…
rves/holes. However, the Kangaroo script itself is prone to locking up so it seems like it might take forever. You can even double click stop the timer from the Windows task bar, I hadn't noticed that before:
You have to use that or right click disable the timer since even with the Reset toggle button input set to True the timer itself locks up the script a bit when you are changing things around.
Just setting the min/max numbers both to a desired mesh size gives a uniform mesh:
Oh weird, it's about if the timer is right click set to so small an interval that it gets ahead of Kangaroo! When you see how long each cycle is taking with the Display > Canvas Widgets > Profiler you just set the timer for above that and the interface comes back into being responsive. It only takes a few Kangaroo cycles to do the inflation, so a full second timer interval is even workable.
A finer mesh:
It's funny running it so slow since it overinflates at first, bulging out, before it equilibrates.
You have control over inflation pressure and mesh stiffness, for a variety of effects.
This is a good system once I realized the timer needed to be mellowed out.
What made it work was the fast custom meshing since a normal mesh is awful and MeshMachine wouldn't work with sharp corner holes at all, breaking out of the boundary even if I fixed curves or vertices or did the equivalent with NURBS surfaces instead of a starting mesh.
There is an initiation time for Kangaroo that doesn't show up on its Profiler time that happens even with the timer off.
There are some fine areas that can't inflate with a reasonable mesh setting:
Worth playing with but no match for ArtCAM since it suffers odd delays in between working fast. If I could get better 2D meshes, that were more adaptive it would be better, but MeshMachine is one of the only re-meshers I know and it's broken for even mildly sharp hole features.
Ah, how about a crude mesh that is then subdivided, guaranteeing inner vertices everywhere? Sort of works, but is still too dense. Way too dense to even do anything. The subdivision triangulates the quads, vastly increasing the mesh wire density. Better just to make a finer initial mesh with plenty of quads.…
Added by Nik Willmore at 12:57am on February 21, 2016
ve Intermediate Insight of Computational Design Strategies While Exploring Rangoli Art form in 2 Dimension and 3Dimesion in which Participants will not only be trained to Digitally Design using Parametric software's but they will also be trained to Fabricate them in reality.
This Course will be explored in manner where Participants will understand inter-dependency of Rhinoceros3D & Grasshoper3D through a unique Hybrid Teaching Method While Exploring Rangoli Geometry .
The course will also take participants through Topics such as - Computational Thinking, - Computational / Parametric Design, - Computational Rangoli Exploration, - Digital Fabrication, - 3D Visualization ( Rhino3D 6), - Making Info-graphics & Design Diagrams ( Rhino3d 6 ).
Participants will also be doing a Project at the last Leg of Workshop in which they will implement the skill they gained in first Few Weeks.
{ Tutor } Nitant Pixelkar (Computational Artist / Designer, Mumbai)
Nitant Hirlekar A.k.a. Pixelkar, is a Computational Artist. He graduated from Rachana Sansad school of Interior Design 2011, Mumbai. In Academics He Bagged Two Gold and One Silver Medal on National Level.
In his post academic days, he came across the Emerging Computational Techniques in Design industry in which Algorithm serves as a main Functional part. He uses Algorithms to Deconstruct the Captured images in Pixelated form using the Grid of the Desired Indian Art Forms.
He Heads Collective Group Named "Mutation Lab” which is a multidisciplinary Design & Art Cell. Where they Explore Computational Approach while Designing Various Scales Spatial Installation, Digital Fabrication, Interactive Installations and Computational Consultancy for Various Architects.
He has exhibited his first artwork in Kalaghoda Arts Festival for in 2014 And further in 2016 and 2017.In 2015 he exhibited in Dharavi Biennale” organized by Wellcome Trust,London & Sneha Organisation, Mumbai Which was internationally acclaimed. In 2016 he got Featured on a TV show - The Creative Indian's as an Absolut Creative Indian of the Week.
Academically he is been involved in Many Computational Design Workshops / Elective Studios for School of Interior Design (Rachna Sansad), LS Raheja College of Architecture & Rat-Lab (Delhi).
{ Participants } The Course is aimed at Architecture, Interior Design, Product Design,Furniture Design & Fashion Design Students and Professionals. However we would be thrilled to have any Interdisciplinary Artist / Creator/ Maker to join the Course as well.
{ Level }
Intermediate
{ Timing } Monday To Friday - 6:00 PM to 9:00 PM (15 Hours/ Week = 5 Week X 15 Hours = 75 Hours )
{ Dates } Registration Ends - 24th April 2020 **Subejct to Availablity
{ Workshop Dates } 4th May 2020 To 5th June 2020
{ Venue } Lower Parel,Mumbai ( Details To Be Announced )
{ Schedule }
{Registration Form}…
, Engineer and Researcher from France with broad programming experience. He is the author of the City in 3D Rhinoceros plugin for creation of buildings according to geojson file and with real elevation. Guillaume already created a new component: "Address to Location". It enables getting latitude and longitude values for the given address:
2) Support of Bathymetry data: automatic creation of underwater (sea/river/lake floor) terrain. This feature is now available through new source_ input of the "Terrain generator" component. Here is an example of terrain of the Loihi underwater volcano, of the coast of Hawaii:
3) A new terrain source has been added: ALOS World 3D 30m. ALOS is a Japanese global terrain data. Gismo "Terrain Generator" component has been using SRTM 30m terrain data, which hasn't been global and was limited to -56 to +60 latitude range. With this addition, it is possible to switch between SRTM and ALOS World 3D 30m models with the use of source_ input.
4) 9 new components have been added:
"Address To Location" - finds latitude and longitude coordinates for the given address.
"XY To Location" - finds latitude and longitude coordinates for the given Rhino XY coordinates. "Location To XY" - vice versa from the previous component: finds Rhino XY coordinates for the given latitude longitude coordinates. "Z To Elevation" - finds elevation for particular Rhino point. "Rhino text to number" - convert numeric text from Rhino to grasshopper number. "Rhino unit to meters" - convert Rhino units to meters. "Deconstruct location" - deconstructs .epw location. "New Component Example" - this component explains how to make a new Gismo component, in case you are interested to make one. We welcome new developers, even if you contribute a single component to Gismo! "Support Gismo" - gives some suggestions on how to make Gismo better, how to improve it and support it.
5) Ladybug "Terrain Generator" component now supports all units, not only Meters. So any Gismo example file which uses this component, can now use Rhino units other than Meters as well. Thank you Antonello Di Nunzio for making this happen!!
Basically just forget about this yellow panel:
This panel is not valid anymore, so just use any unit you want.
6) A number of bugs have been fixed, reported in topics for the last couple of weeks. We would like to thank members in the community who invested their time in testing, finding these bugs and reporting them: Rafat Ahmed, Peter Zatko, Mathieu Venot, Abraham Yezioro, Rafael Alonso. Thank you guys!!! Apologies if we forgot to mention someone.
The version 0.0.2 can be downloaded from here:
https://github.com/stgeorges/gismo/zipball/master
And example files from here:
https://github.com/stgeorges/gismo/tree/master/examples
Any new suggestions, testing and bug reports are welcome!!…
Added by djordje to Gismo at 5:13pm on March 1, 2017