fault materials...6 RAD materials are loaded1. 2. Downloading OpenStudioMasterTemplate.idf to c:\ladybug\3. Loading EP construction library4. 206 material found in c:\ladybug\OpenStudioMasterTemplate.idf5. 30 windowmaterial found in c:\ladybug\OpenStudioMasterTemplate.idf6. 284 construction found in c:\ladybug\OpenStudioMasterTemplate.idf7. Loading EP schedules...8. The ScheduleTypeLimits: Fraction is already existed in the libaray.You need to rename this ScheduleTypeLimits.9. The ScheduleTypeLimits: Temperature 7 is already existed in the libaray.You need to rename this ScheduleTypeLimits.10. 21 scheduletypelimits found in c:\ladybug\OpenStudioMasterTemplate.idf11. 1370 schedule found in c:\ladybug\OpenStudioMasterTemplate.idf12. 13. 14. Hooohooho...Flying!!Vviiiiiiizzz...…
large sets of data (~3months, with 1 vector per hour). I have the solar vectors and i would like to add them on a given point, but only if:
the lines connecting the sun position to the center of the model do not intersect any given geometry. That is, i need to select from the group of lines, only the ones that do not intersect (BBX+CLX components) the brep. How can i do that?
Given this rule i also dont see how can i add several vectors, since i've only seen 2 vectors adding via the mathematical addition tool. Do i need to set them to one point?
[edit] i've solved this issue using mass addition tool for the 3 components (x,y,z) and feeding it with the flattened vector list.
Thanks in advance for any suggestion…
analisi ambientale (solare, termica, acustica) e simulazione fisica. Saranno approfonditi i plug-ins WEAVERBIRD, KANGAROO e GECO/ECOTECT. Verranno acquisiti nuovi strumenti operativi e di simulazione al fine di costruire modelli parametrici ottimizzati in grado di adattarsi a diverse condizioni di contesto. Il workshop e rivolto a studenti e professionisti con conoscenze base di modellazione algoritmica con Grasshopper.
Main tutor: Arturo Tedeschi, Authorized Rhino Trainer, autore del primo manuale su Grasshopper “Architettura Parametrica”, di AAD_Algorithms Aided Design e co-director della AA Rome Visiting School (AA School London).
Tariffa EarlyBird entro 20 Febbraio 2015
>scarica il pdf con tutte le informazioni: AAD GRASSHOPPER WORKSHOP SERIES…
Target group The workshop is fully funded and is addressed to students of architecture and civil engineering faculties at master level from Estonia (11 seats), Latvia (3 seats), Lithuania (3 seats) and Sweden (3 seats). The selected students will have full scholarship that will include travel, board and lodging in Tallinn for 10 days (arrival on Sunday 03.07.2016 departure on Wednesday 13.07.2016). The workshop is funded by the NORDPLUS programme of the Nordic Council of Ministers (NCM) - Higher Education objective.
Description The use of digital and computational design tools is increasingly important for the activity of design and research for architects and engineers. It permits to integrate environmental and energy aspects from the very early stages of the design and planning process to achieve more performative, efficient and integrated buildings and urban environments. The workshop attendants will broaden their design and technical knowledge with solar design, daylighting and energy efficiency topics and will learn how to integrate environmental analysis and building performance analysis tools with parametric and generative methodologies in architecture and planning.
Location
Tallinn University of Technology – Departments of Structural Design and Environmental Engineering
Dates
From 04 to 12 July 2016
Workshop blog
For detailed program, info and registration visit the blog at ceedtut.blogspot.com
In the weeks just before the workshop the blog will present also materials and tutorials to get a basic knowledge of the topics prior to the beginning of the workshop.
…
is an emerging research area that exploits the principles and logic of natural systems in the design of the built environment. Sandworks* investigates the development of a computational design system informed by the sand self-formation behaviour. The knowledge objective is to understand the process of coding the material physical behaviour that follows the geometrical constraints of developable, ruled and hyperbolic surfaces formed by sand. Through physical and digital form-finding exercises, the workshop will explore the relationships between material and its shaping processes in the generation of form in parallel to theoretical lectures and discussion on cutting edge approaches of computational thinking, design and fabrication in architecture and design. Participants will be introduced to ruled based design thinking through digital design and fabrication systems as well as physical modelling and prototyping techniques.. The workshop aim is to provide an understanding framework of how such processes occur in nature and find their translation in the design of the artificial. *This research started at the Architectural Association school of architecture in London exploring the design and fabrication techniques of sand tectonic system and now it is pursued at ENSA Paris-Malaquias focusing on the development of the machinic morphogenetic possibilities of sand self-formation with robotic distribution of material through addition, subtraction and deposition techniques.www.sandworks.org /// Application To apply, please follow this link to fill the application form https://docs.google.com/forms/d/1n_LN2svFTT79kCqndxznKRj4PX8J8__FVNKvjiHTeJU/viewform /// Fees* 1700 EGP for students / 2000 EGP for graduates and young professionals * 20 % discount for early registration and payment before 22 nd of August 2014 more info on the workshop webpage: http://www.encodestudio.net/#!sandworks/c1nn1…
t, but I want to offset them in a series of six values (lets say 8,4,0,4,8,12 to keep it simple). Essentially I want to create a "domain" that goes from 8 to 12 but by going negative down to 0 first before bouncing back up. I don't think I can use the construct domain component to achieve this and I don't know how to do it.
Thanks in advance!
Ben
EDIT: I know I can easily accomplish this by plugging a multiline panel with the given values into the D input of Offset Surface, but I would like to be able to do it computationally so that if I change an input to 3, for example, it would adjust the series of numbers to be 6,3,0,3,6,9 or if I used 2, the adjustment would be 4,2,0,2,4,6. It doesn't have to be exactly this pattern but I am looking for a "bulge" in my offset surfaces with a 0 value in the middle.
…
Integer = 0 To 9
val *= 2
lst.Add(val)
Next
Since val is a ValueType, when we assign it to the list we actually put a copy of val into the list. Thus, the list contains the following memory layout:
[0] = 2
[1] = 4
[2] = 8
[3] = 16
[4] = 32
[5] = 64
[6] = 128
[7] = 256
[8] = 512
[9] = 1024
Now let's assume we do the same, but with OnLines:
Dim ln As New OnLine(A, B)
Dim lst As New List(Of OnLine)
For i As Integer = 0 To 9
ln.Transform(xform)
lst.Add(ln)
Next
When we declare ln on line 1, it is assigned an address in memory, say "24 Bell Ave." Then we modify that one line over and over, and keep on adding the same address to lst. Thus, the memory layout of lst is now:
[0] = "24 Bell Ave."
[1] = "24 Bell Ave."
[2] = "24 Bell Ave."
[3] = "24 Bell Ave."
[4] = "24 Bell Ave."
[5] = "24 Bell Ave."
[6] = "24 Bell Ave."
[7] = "24 Bell Ave."
[8] = "24 Bell Ave."
[9] = "24 Bell Ave."
To do this properly, we need to create a unique line for every element in lst:
Dim lst As New List(Of OnLine)
For i As Integer = 0 To 9
Dim ln As New OnLine(A, B)
ln.Transform(xform)
lst.Add(ln)
Next
Now, ln is constructed not just once, but whenever the loop runs. And every time it is constructed, a new piece of memory is reserved for it and a new address is created. So now the list memory layout is:
[0] = "24 Bell Ave."
[1] = "12 Pike St."
[2] = "377 The Pines"
[3] = "3670 Woodland Park Ave."
[4] = "99 Zoo Ln."
[5] = "13a District Rd."
[6] = "2 Penny Lane"
[7] = "10 Broadway"
[8] = "225 Franklin Ave."
[9] = "420 Paper St."
--
David Rutten
david@mcneel.com
Poprad, Slovakia…
Added by David Rutten at 6:26am on September 9, 2010
the use of digital technologies as architectural design tools. The workshop " Computer Aided Design: parametric design and digital fabrication " aims to do some introductory teaching in the use of some of these tools.
The workshop will focus on the use of computational models of parametric behavior for generating architectural forms. The generative capacity of these models it will be tested in the development of designs defined by repetitive non-standard components, based on the parametric control of its variations and series differentiations. This process will be developed by the use of a three-dimensional modeling software - Rhinoceros, associated with an application for visual programming - Grasshopper.
The last day of the workshop is dedicated to the use of digital manufacturing tools in architecture. Part of the work will take place at the facilities of the Institute of Design of Guimarães (IDEGUI) providing for the use of their laboratories and manufacturing CNC machines (computer numerically controlled).
At the end of the workshop, it is intended the students to understand that the use of digital technologies in architecture can overcome representational functions, and their integration in the design conception, analysis and construction enriches the methodology of project development.
Terms & Participants
The workshop will take place at the School of Architecture of the University of Minho (Campus Azurém, Guimarães) and the Institute of Design of Guimarães (Couros, Guimarães).
The workshop is pointed at students who attend the 3rd year and 4th year from MiArq, EAUM.
The maximum acceptance is 20 students and a minimum of 10 students.
Deadline for entries is April 11 and must be performed by eaum.pac@gmail.com.
Program summary :
Day 23 April 14 -20h
Introduction to 3D modeling in Rhinoceros. Regular geometries, ruled surfaces and NURBS surfaces.
Day 30 April 14 -20h
Parametric design in architecture. Introduction to methods of visual programming.
May 1, 9 -13h 14 -18h
Development of a design idea by the use visual programming processes in Grasshopper.
May 2, 9 -13h 14 -18h
Introduction to methods of digital fabrication. Manufacture physical models of the proposals made.
It is expected that this meeting will take place in the IDEGUI labs.
team:
Bruno Figueiredo ( Lecturer, EAUM )
Paulo Sousa ( PhD candidate , EAUM )
Nuno Cruz ( Invited Lecturer , EAUM )
Cláudia Alvares ( 5th year MiArq student , EAUM )
Javier Bono ( 4th year MiArq student, EAUM )
João Amaro ( 5th year MiArq student, EAUM )…
ipants from 12 countries to attend lectures and technical seminars furthering their understanding of digital design and fabrication in architecture. This year LaN extends the workshop with parallel intro sessions in all LAN ports–Barcelona / Boulder / Brooklyn / Bozeman (Aug 10-12). In 2009, you choose your modules.
Register Online
*please note, participants who have previously attended a LaN workshop automatically get a discount of total price.
Key Dates:
June 1, 2009: Workshop Launch - Applications Open @ 10% off price
June 19, 2009: Workshop Applications Open at 5% off
July 10, 2009: Applications open
August 7, 2009: Applications Closed
August 10-12, 2009: PHASE I - Modules [North America and Barcelona]
August 16-22, 2009: PHASE II - Modules [Barcelona @ IaaC / Institute for advanced architecture of Catalonia ]
August 24-30, 2009: PHASE III - Urban Drifts Workshop [Barcelona @ IaaC / Institute for advanced architecture of Catalonia]
*please note: all Rhino courses will be taught by a Rhino Certified Trainer
PHASE I: Aug 10-12
Phase I will be conducted in parallel in BARCELONA / BOULDER / BROOKLYN / BOZEMAN and are meant to familiarize participants with software and techniques. Phase I registration is inclusive of both module 1 & 2.
1. Rhino Introduction - 12hrs
2. RhinoFab: Rhino + Fabrication - 12hrs
PHASE II: Aug 17 - 22
Phase II modules will take place at the Institute for Advanced Architecture of Catalonia [IaaC] in Barcelona, Spain and will deal with scripting, parametric design and fabrication provided by FabLab BCN.
3. RhinoScript - 20hrs
4. Parametric Modelling in Rhino: Grasshopper - 20hrs
5. Introduction to Digital Fabrication - 20hrs
6. Machining Processes- 20hrs
PHASE III: Aug 24-30 ‘Urban Drifts’ Workshop - 40hrs
Register Online
Contact: bcn2@livearchitecture.net
More Information: http://www.livearchitecture.net…