asing availability and usability of tools for daylight and energy simulation into parametric and generative design software facilitates the integration of environmental factors into the design process from the very early stages, improving the efficiency of the design processes and the performance of the buildings, giving to the designer new methodologies of work to create environmentally-aware and performative architectural and spatial design. The workshop will focus on the new methodologies of integration of daylight and energy simulations into architectural design processes by parametric and generative computational tools.
Dates: 21-22-23 August 2013
Tutor: Francesco De Luca, Tallinn University of Technology
Place: Tallinn University of Technology, Ehitajate tee 5, Tallinn, Estonia Software: Rhinoceros 5 + Grasshopper + environmental analysis plug-ins Fees: professionals (6 places) 150 Euro – students (6 places) free (The students places will be assigned on the principle of the higher level of study and earlier registrations) Deadline for registration: 31 July Language: English
Full programme: http://www.balticenergy.info/web/page.aspx?refid=34 Information and registration: Liina Henning, TUT: liina.henning@ttu.ee Francesco De Luca, TUT: francesco.deluca@ttu.ee …
ple and/or easy.
I use GH/Rhino (really GH almost exclusively) for design. I find the parametric capabilities of GH simply spectacular. The Autocad apps are all quite good (and free) so I would have no problem recommending any of them. Meshmixer is a common starter for people new to 3D printing; it is targeted at more "free form"/artistic designs that is Tinkercad, which is more oriented for geometric/engineering/architectural designs. Sketchup is also a good place to start with 3D design; it used to be owned by Google but is now owned by a 3rd party company.
For slicers I've tried them all and have settled on Craftware. It's free and available at https://www.craftunique.com/craftware. For backup to that (it is still a beta product) I use Simplify3D (very seldom) but it costs $150.
If anyone cares I have uploaded an updated version of the Stepwell GH file; I tweaked it a bit to make it a little simpler and to make the base thicker so it would be more robust when printed. The dimensions of the part are large so it has to be scaled down to fit a particular printer. This is easily done with any slicer. The STL file from Rhino still has to be fixed; as exported it would print with no bottom - and I haven't figured out why that happens.…
Added by Birk Binnard at 12:36pm on February 14, 2016
.0004. [1 of 7] Writing simulation parameters...5. [2 of 6] No context surfaces...6. [3 of 6] Writing geometry...7. [4 of 6] Writing materials and constructions...8. [5 of 7] Writing schedules...9. [6 of 7] Writing loads and ideal air system...10. [7 of 7] Writing outputs...11. ...... idf file is successfully written to : c:\ladybug\unnamed\EnergyPlus\unnamed.idf12. 13. Analysis is running!...14. c:\ladybug\unnamed\EnergyPlus\eplusout.csv15. ......
Done! Read below for errors and warnings:
16. 17. Program Version,EnergyPlus, Version 8.2.7-777c1f8d79, YMD=2015.02.28 16:09,IDD_Version 8.2.718. 19. ** Warning ** IP: Note -- Some missing fields have been filled with defaults. See the audit output file for details.20. 21. ** Warning ** Version: in IDF="'8.2.7'" not the same as expected="8.2"22. 23. ** Warning ** ManageSizing: For a zone sizing run, there must be at least 1 Sizing:Zone input object. SimulationControl Zone Sizing option ignored.24. 25. ** Warning ** ManageSizing: For a plant sizing run, there must be at least 1 Sizing:Plant object input. SimulationControl Plant Sizing option ignored.26. 27. ** Severe ** GetHTSubSurfaceData: Surface Openings have too much area for base surface=F73533B3C6894C67936B_GLZP_1228. 29. ** ~~~ ** Opening Surface creating error=F73533B3C6894C67936B_GLZP_12_GLZ_1230. 31. ** Severe ** GetHTSubSurfaceData: Surface Openings have too much area for base surface=F73533B3C6894C67936B_GLZP_2532. 33. ** ~~~ ** Opening Surface creating error=F73533B3C6894C67936B_GLZP_25_GLZ_2534. 35. ** Severe ** GetHTSubSurfaceData: Surface Openings have too much area for base surface=F73533B3C6894C67936B_GLZP_2836. 37. ** ~~~ ** Opening Surface creating error=F73533B3C6894C67936B_GLZP_28_GLZ_2838. 39. ** Severe ** GetHTSubSurfaceData: Surface Openings have too much area for base surface=4BDFD67E6D0E486796CC_GLZP_940. 41. ** ~~~ ** Opening Surface creating error=4BDFD67E6D0E486796CC_GLZP_9_GLZ_942. 43. ** Severe ** GetHTSubSurfaceData: Surface Openings have too much area for base surface=4BDFD67E6D0E486796CC_GLZP_1044. 45. ** ~~~ ** Opening Surface creating error=4BDFD67E6D0E486796CC_GLZP_10_GLZ_1046. 47. ** Severe ** GetHTSubSurfaceData: Surface Openings have too much area for base surface=4BDFD67E6D0E486796CC_GLZP_1148. 49. ** ~~~ ** Opening Surface creating error=4BDFD67E6D0E486796CC_GLZP_11_GLZ_1150. 51. ** Severe ** GetHTSubSurfaceData: Surface Openings have too much area for base surface=4BDFD67E6D0E486796CC_GLZP_1552. 53. ** ~~~ ** Opening Surface creating error=4BDFD67E6D0E486796CC_GLZP_15_GLZ_1554. 55. ** Severe ** GetHTSubSurfaceData: Surface Openings have too much area for base surface=4BDFD67E6D0E486796CC_GLZP_2456. 57. ** ~~~ ** Opening Surface creating error=4BDFD67E6D0E486796CC_GLZP_24_GLZ_2458. 59. ** Severe ** GetHTSubSurfaceData: Surface Openings have too much area for base surface=4BDFD67E6D0E486796CC_GLZP_2560. 61. ** ~~~ ** Opening Surface creating error=4BDFD67E6D0E486796CC_GLZP_25_GLZ_2562. 63. ** Severe ** GetHTSubSurfaceData: Surface Openings have too much area for base surface=4BDFD67E6D0E486796CC_GLZP_3064. 65. ** ~~~ ** Opening Surface creating error=4BDFD67E6D0E486796CC_GLZP_30_GLZ_3066. 67. ** Severe ** GetHTSubSurfaceData: Surface Openings have too much area for base surface=4BDFD67E6D0E486796CC_GLZP_3268. 69. ** ~~~ ** Opening Surface creating error=4BDFD67E6D0E486796CC_GLZP_32_GLZ_3270. 71. ** Severe ** GetHTSubSurfaceData: Surface Openings have too much area for base surface=4BDFD67E6D0E486796CC_GLZP_3472. 73. ** ~~~ ** Opening Surface creating error=4BDFD67E6D0E486796CC_GLZP_34_GLZ_3474. 75. ** Warning ** GetSurfaceData: Very small surface area[2.94495E-004], Surface=F73533B3C6894C67936B_GLZP_076. 77. ** Warning ** GetSurfaceData: Very small surface area[3.84753E-004], Surface=F73533B3C6894C67936B_GLZP_178. 79. ** Warning ** GetSurfaceData: Very small surface area[9.16905E-004], Surface=F73533B3C6894C67936B_GLZP_380. 81. ** Warning ** GetSurfaceData: Very small surface area[4.96186E-004], Surface=F73533B3C6894C67936B_GLZP_482. 83. ** Warning ** GetSurfaceData: Very small surface area[2.37373E-005], Surface=F73533B3C6894C67936B_GLZP_684. 85. ** Warning ** GetSurfaceData: Very small surface area[6.35824E-004], Surface=F73533B3C6894C67936B_GLZP_786. 87. ** Warning ** GetSurfaceData: Very small surface area[5.86549E-004], Surface=F73533B3C6894C67936B_GLZP_888. 89. ** Warning ** GetSurfaceData: Very small surface area[7.63765E-004], Surface=F73533B3C6894C67936B_GLZP_1090. 91. ** Severe ** GetSurfaceData: Zero or negative surface area[-8.09566E-004], Surface=F73533B3C6894C67936B_GLZP_1292. 93. ** Warning ** GetSurfaceData: Very small surface area[1.51701E-004], Surface=F73533B3C6894C67936B_GLZP_1394. 95. ** Warning ** GetSurfaceData: Very small surface area[9.29917E-004], Surface=F73533B3C6894C67936B_GLZP_1596. 97. ** Warning ** GetSurfaceData: Very small surface area[2.94451E-004], Surface=F73533B3C6894C67936B_GLZP_1698. 99. ** Warning ** GetSurfaceData: Very small surface area[8.03294E-004], Surface=F73533B3C6894C67936B_GLZP_17100. 101. ** Warning ** GetSurfaceData: Very small surface area[6.83026E-004], Surface=F73533B3C6894C67936B_GLZP_18102. 103. ** Warning ** GetSurfaceData: Very small surface area[9.29917E-004], Surface=F73533B3C6894C67936B_GLZP_20104. 105. ** Warning ** GetSurfaceData: Very small surface area[3.19851E-005], Surface=F73533B3C6894C67936B_GLZP_21106. 107. ** Warning ** GetSurfaceData: Very small surface area[7.63765E-004], Surface=F73533B3C6894C67936B_GLZP_23108. 109. ** Severe ** GetSurfaceData: Zero or negative surface area[-4.05899E-004], Surface=F73533B3C6894C67936B_GLZP_25110. 111. ** Warning ** GetSurfaceData: Very small surface area[6.35824E-004], Surface=F73533B3C6894C67936B_GLZP_27112. 113. ** Severe ** GetSurfaceData: Zero or negative surface area[-9.91146E-004], Surface=F73533B3C6894C67936B_GLZP_28114. 115. ** Warning ** GetSurfaceData: Very small surface area[2.70158E-004], Surface=F73533B3C6894C67936B_GLZP_29116. 117. ** Warning ** GetSurfaceData: Very small surface area[3.22781E-004], Surface=F73533B3C6894C67936B_GLZP_30118. 119. ** Warning ** GetSurfaceData: Very small surface area[4.67821E-004], Surface=F73533B3C6894C67936B_GLZP_33120. 121. ** Warning ** GetSurfaceData: Very small surface area[3.22737E-004], Surface=F73533B3C6894C67936B_GLZP_34122. 123. ** Warning ** GetSurfaceData: Very small surface area[2.65634E-004], Surface=4BDFD67E6D0E486796CC_GLZP_0124. 125. ** Warning ** GetSurfaceData: Very small surface area[4.70736E-004], Surface=4BDFD67E6D0E486796CC_GLZP_1126. 127. ** Warning ** GetSurfaceData: Very small surface area[3.42507E-004], Surface=4BDFD67E6D0E486796CC_GLZP_3128. 129. ** Warning ** GetSurfaceData: Very small surface area[5.89276E-004], Surface=4BDFD67E6D0E486796CC_GLZP_4130. 131. ** Warning ** GetSurfaceData: Very small surface area[1.91146E-004], Surface=4BDFD67E6D0E486796CC_GLZP_6132. 133. ** Warning ** GetSurfaceData: Very small surface area[9.71205E-004], Surface=4BDFD67E6D0E486796CC_GLZP_7134. 135. ** Warning ** GetSurfaceData: Very small surface area[4.34494E-004], Surface=4BDFD67E6D0E486796CC_GLZP_8136. 137. ** Severe ** GetSurfaceData: Zero or negative surface area[-3.60159E-004], Surface=4BDFD67E6D0E486796CC_GLZP_9138. 139. ** Severe ** GetSurfaceData: Zero or negative surface area[-1.11946E-004], Surface=4BDFD67E6D0E486796CC_GLZP_10140. 141. ** Severe ** GetSurfaceData: Zero or negative surface area[-3.41257E-004], Surface=4BDFD67E6D0E486796CC_GLZP_11142. 143. ** Severe ** GetSurfaceData: Zero or negative surface area[-8.21483E-005], Surface=4BDFD67E6D0E486796CC_GLZP_15144. 145. ** Warning ** GetSurfaceData: Very small surface area[2.65716E-004], Surface=4BDFD67E6D0E486796CC_GLZP_16146. 147. ** Warning ** GetSurfaceData: Very small surface area[4.84044E-004], Surface=4BDFD67E6D0E486796CC_GLZP_17148. 149. ** Warning ** GetSurfaceData: Very small surface area[7.12297E-004], Surface=4BDFD67E6D0E486796CC_GLZP_19150. 151. ** Warning ** GetSurfaceData: Very small surface area[6.14324E-004], Surface=4BDFD67E6D0E486796CC_GLZP_22152. 153. ** Warning ** GetSurfaceData: Very small surface area[8.88887E-004], Surface=4BDFD67E6D0E486796CC_GLZP_23154. 155. ** Severe ** GetSurfaceData: Zero or negative surface area[-9.89060E-004], Surface=4BDFD67E6D0E486796CC_GLZP_24156. 157. ** Severe ** GetSurfaceData: Zero or negative surface area[-1.14849E-003], Surface=4BDFD67E6D0E486796CC_GLZP_25158. 159. ** Warning ** GetSurfaceData: Very small surface area[4.00479E-004], Surface=4BDFD67E6D0E486796CC_GLZP_27160. 161. ** Warning ** GetSurfaceData: Very small surface area[6.63061E-005], Surface=4BDFD67E6D0E486796CC_GLZP_28162. 163. ** Warning ** GetSurfaceData: Very small surface area[1.09018E-004], Surface=4BDFD67E6D0E486796CC_GLZP_29164. 165. ** Severe ** GetSurfaceData: Zero or negative surface area[-2.49326E-005], Surface=4BDFD67E6D0E486796CC_GLZP_30166. 167. ** Severe ** GetSurfaceData: Zero or negative surface area[-3.17446E-004], Surface=4BDFD67E6D0E486796CC_GLZP_32168. 169. ** Warning ** GetSurfaceData: Very small surface area[8.60686E-004], Surface=4BDFD67E6D0E486796CC_GLZP_33170. 171. ** Severe ** GetSurfaceData: Zero or negative surface area[-2.48515E-005], Surface=4BDFD67E6D0E486796CC_GLZP_34172. 173. ** Fatal ** GetSurfaceData: Errors discovered, program terminates.174. 175. ...Summary of Errors that led to program termination:176. 177. ..... Reference severe error count=24178. 179. ..... Last severe error=GetSurfaceData: Zero or negative surface area[-2.48515E-005], Surface=4BDFD67E6D0E486796CC_GLZP_34180. 181. ************* Warning: Node connection errors not checked - most system input has not been read (see previous warning).182. 183. ************* Fatal error -- final processing. Program exited before simulations began. See previous error messages.184. 185. ************* EnergyPlus Warmup Error Summary. During Warmup: 0 Warning; 0 Severe Errors.186. 187. ************* EnergyPlus Sizing Error Summary. During Sizing: 2 Warning; 0 Severe Errors.188. 189. ************* EnergyPlus Terminated--Fatal Error Detected. 41 Warning; 24 Severe Errors; Elapsed Time=00hr 00min 1.51sec190.…
tation to join the second of the new type of rese arch events in Bratislava, Slovakia. Starting this spring, rese arch establishes an exchange platform for exceptional researchers in the field of digital design, fabrication, emerging technology and makers. The experts spend two weeks in Bratislava, developing their research project and at the end of their residency we invite eager and interested people – fellows – to form a think-tank and take part in the pinnacle of the project. The event will be highly experimental and no specific result is guaranteed. The event will be accessible also to people who want to observe and learn, however the purpose of the gathering is not to teach, but rather to experiment, consult, make and network. The rese arch LAB is not a tutorial workshop, it’s a platform for a common development. Research project Materials are the core of the built environment, to understand them it is to understand the built environment. The research project focuses on material behavior by precise (de)formation, by KUKA Robot, and kinematic hardening. By hacking physical properties of material and redefining its elasticity, strength, fatigue limit, creep we will review a potential use for architecture or product design. Is hardening an elastic material reversible? Can we reprogram the material and receive the initial material? How does the precise deformation enhance the investigated process? Call for fellows The think-tank gathers around a well-defined and developed research project lead by the project leader. The fellows will join the last 4 days and become part of the project, consult the current state, come up with new ideas and help verify and test the outputs. Even though between the project leader and the fellows is not meant to be a teaching-learning relationship, the rese arch LAB vitally contains also lectures, short tutorial workshops and catching-up sessions. The fellows will learn new knowledge and will gain hands-on experience, however they are required to be able to contribute to the research project. Therefore the position is not open to everyone and the fellows are being invited or called for through a portfolio and CV selection process. The exceptional individuals who can both, benefit from and contribute to the project will be selected by the project leaders and Jan Pernecky. Application Despite its academic ambition, the rese arch LAB event should keep an informal nature. Therefore there is no specific application form nor a strict application process. We would appreciate if you could send an email at the address of Ján Pernecký (lab@rese-arch.org) clearly stating your interest to participate in the rese arch LAB as a fellow. Please, mention also your accommodation requirements and any other remarks you might have. As this is a small project, we will arrange the details of your arrival, stay, participation and payment individually over email. The deadline for the submissions is Friday, 29 May 2015 at noon 12pm, however keep in mind that only a limited number of fellows will be admitted. Costs The participation fee is set to the absolute minimum of 150€ for the fellows and 200€ for the trainees, however generous extra donations are also welcome. This covers only the participation at the rese arch LAB event.…
d of interpenetrating surfaces somewhere:
Now all links (except a possible single ball on the very end of odd numbered ball series) are four balls long, including the jostled ones. Without that step, those items simply don't appear in the output, leaving way too big of gaps to ignore, eventually leaving huge gaps at later stages of segment doubling:
So if I turn the jostling multiplication factor way down it should work imperceptibly:
Ta-dah! The jostling strategy WORKS! Granted, only in this special case where I know I'm dealing with adjacent pairs of worms along a curve, not generic objects arranged in space by some artist.
Now I just need to wrap the multiple Python script components I'm stringing together into one script.
How long does the full 2400 balls take, finally? It took 12 Python scripts that merge pairs, to achieve this breakdown: 2400 -> 1200 -> 600 -> 300 -> 150 -> 75 -> 38 -> 19 -> 9 -> 5 -> 3 -> 2 -> 1. Time was 2 minutes 50 seconds, so there is some extra struggle for 2X as many balls as 1200 that took 1 minute 20 seconds, but only ten more seconds.
…
Added by Nik Willmore at 9:06pm on February 17, 2016
minativo (15, 16 y 17 de julio)
- MÓDULO 3. Curso de scripting con Grasshopper, Processing y Arduino: modelado iterativo, interacción y sensorización (22, 23 y 24 de julio)
Más información y reserva de plazas.
¡Consulta los descuentos para estudiantes de grado y posgrado y para más de un miembro del mismo estudio!
Los cursos serán impartidos en Madrid por dos Authorized Rhino Trainers.…
e my surface!
But now I cant create lines between points like in the begining of the process, with the pattern with points 1, 2, 3, 4. What I have to do?
??????????
Bye!!!…
he field of digital design, fabrication, emerging technology and makers. the experts spend two weeks in bratislava, developing their research project and at the end of their residency we invite eager and interested people – fellows – to form a think-tank and take part in the pinnacle of the project.the event will be highly experimental and no specific result is guaranteed. the event will be accessible also to people who want to observe and learn, however the purpose of the gathering is not to teach, but rather to experiment, consult, make and network. the rese arch lab is not a tutorial workshop, it’s a platform for common development.
download a pdf
research project
the project questions the current condition of the large scale 3d printing capabilities. while small scale, desktop 3d printers emerge each day with better and better quality of the output, large scale printing is based mostly on low fidelity concrete printing, or in few cases not-so-high-quality metal printing.we will try to develop new solutions for large scale, rapid 3d printing by merging different technologies. those will constitute the main structure of the designed output, while the 3d printing will be seen only as the solidifying agent.we will utilize the kuka robot with an attached abs/pla extruder as the main production tool.
call for fellows
the fellows will join the last 4 days of the research, consult the current state, come up with new ideas and help verify and test the outputs. the fellows are being called for through a portfolio and cv selection process. the exceptional individuals who can both, benefit from and contribute to the project will be selected by mateusz zwierzycki and jan pernecky. no specific number of open positions are available and it is possible that no one will be chosen.
call for trainees
it will be possible to attend the rese arch lab to the people with no expertise or previous experience. they will take a role of observers or trainees. it has to be explicitly stated though, that the event is not meant to teach any specific software or skills and the experiments can fail in achieving an output.
application
to apply send an email at lab@rese-arch.org. the deadline for the submissions is monday, 6 april 2015 at noon 12pm.
costs
the participation fee is fixed 150€ for the fellows and 200€ for the trainees. this covers only the participation at the rese arch lab event. the traveling expenses and accommodation costs need to be covered by the participants themselves.
equipment
various equipment will be available – including 3d printers, 3d scanners, milling machines, laser cutters, vinyl cutters.most of all, rese arch and partners have to their full disposal a robotic arm kuka kr15/2.
the requirements
if you find yourself proficient in: parametric design (viewed as aesthetics), 3d printing, robotics, scripting, architectural geometry, cam technologies or woodworking then the event will be surely interesting for you. at the same time we seek for people with exceptional sense for aesthetics, as the final output will be designed together (not just by the project leader).on the hardware/software side, we need you to bring your own laptop. we will work mainly with rhino/grasshopper.…
dMAC.gh license requesting utility now allows you to generate an automatic email embedding your data.
Robot Library:• New IRB4400(60) robot preset.• New IRB6400Rex(200) robot preset.• New IRB6620(150) robot preset.• New IRBT6004 track preset. • New Track Creator component.
Base Pack:• The Inverse Kinematics Solver now handles inputs for track positioners (linear external axis).• The Inverse Kinematics Solver now handles flip overrides to access alternative configurations of the elbow, of the wrist, or both.• New control in the right-click menu of the Inverse Kinematics Solver allowing to change the threshold for large reorientation analysis.• The Rapid Generator was outputing wrong confdata for axis with a rotation between +270 and +360°, this is solved.• The Rapid Generator was outputing wrong local rotation values for targets when a Work Object was used under certain conditions, this is solved.• The Rapid Generator is now outputing the declaration of the Work Object when it is different than WObj0.• New controls in the right-click menu of the RAPID Generator allowing to set custom precisions for coordinates and rotation values to be used in the code, in order to optimize the size of the program. • New control in the right-click menu of the RAPID Generator allowing to force the formating of the output for multi-robot setups.• New Track Position Solver component.• New External Axis Manager component.• New Signals Manager component.• New Flip Value List component.
Communication Pack:• The HAL To Controller component now allows to manage Digital Outputs (DO) and simulated Digital Inputs (DI) signals in real-time.• The OSC To HAL component is now compatible with remote digital signal management. • The OSC To HAL component is now automatically detecting the device (iPhone or iPad) you are using.• The TouchOSC layout has a new Digital I/Os management menu (2*15 channels on the iPad, 2*6 channels on the iPhone).…
se and compute the SP s in the 3D graph?
3. In the meantime, I made a very heavy model in which I can calculate a limited amount of shortest paths. See the attached image.
This is a beehive design. The combs which are inhabitable on both sides are radially distributed around a central core. There is a corridor around the inner core, as well as a peripheral gallery. Bees can also move above and below the combs. So I need the 3D dimensions in my model, or my mathematical imagination is not capable of thinking this planarly? I used the library from this link https://github.com/danilnagy/gd_tools but my model is very heavy. I made a triangulated mesh in order to define all the paths that the bees can take and defined random 20 points as start and end points to find the SPs. I guess with your system this would be faster. This image represents how I would like to think of the nest spaces and connectivity but in the honeybee nest case- which is a designed one not a natural one-…