question. Why are you using Win 8 or Win 10, instead of staying with Win7 ?The 102 page long EULA from Microsoft asks you to accept, prior to the install, should give any thinking person pause, and to think carefully before he or she is accepts the consequences of installing Win 8 or Win 10.No IT profession would allow any company to install Windows 8 or 10 on their companies computer networks. Imagine for a moment your Doctor installed Windows 10, and now all his daily clients details are shared with Microsoft. Or imagine for a moment your Lawyer installed Windows 10, and now all his daily clients details are shared with Microsoft.Win 8 or 10 is an open apps shared OS that lacks any sense of network security.... stay with Win 7!…
which almost works...
I have 5 integer values in one string:
- When my input is the string "(25,0,0,0,175)" it is not assigned at all
- when my input is the string "25,0,0,0,175" it is assigned as 25000175 :)
- when my input is the string "25|0|0|0|175" it is assigned as 191 which is completely confusing :)
Can anyone point me into correct syntax of input string to be correctly parsed as a set of integers? I'm accessing Rhino+GH from external app so I can format the input in any appropriate way, yet I cannot directly modify the GH script that uses these Integer Parameters as a way to handle input.
Regards,
Boris…
ain AutoDesk products).
See this? A 2400 seat WIP Opera Project. Imagine an outer envelope kinda a "shell" made by custom MERO members (a bit stupid engineering solution I confess) ... and various interior "shells" (concrete) that define the in-topology : audience/stage/workshops/activities/etc. About 70 heavily nested 3d files compose the total solution (in Final Level Study, meaning nuts and bolts Level of Detail).
On first (a bit Academic) consideration the envelope could be "easily" made by Grasshopper and/or Generative Components (patterning of some sort) by arranging MERO nodes and truss members across some V/U derived bezier curves ....the only problem is that the solution should...er...be a real-life arrangement of real-life nodes and truss members (not to mention real-life milling axis etc etc).
What about interoperability between the Architectural and the Structural Design team? What if the Structural Analysis/Feasibility study/etc indicates that the solution is not viable?
All that ... before designing some real-life skin support system (final skin: custom metal panels + 100mm Foamglass + membranes + custom alu support system + VM Zink).
All that...having in mind that some specialized manufacturer (like Donges AG) could receive structured 3D data that could/should comply with the way that MCAD apps - the likes of NX/CATIA - do business.
And that's the CATCH 22 these days: no non MCAD app supports any kind of meaningful assembly-component entity management. See for instance how naif Microstation is on that matter...not to mention Rhino (Rhino can't even manage different collection of entities on a per View basis - not to mention Dynamic Clips etc etc etc).
So the 1M question is : what serve power without control?
He He…
ll-Facade using Rhino and Grasshopper Participants will learn; Rhinoceros Grasshopper Advanced Parametric Design Brick Formations and Explorations Shadow-Design Relationship
Session 2: Advanced Digital Modeling for Additive Manufacturing (3D Printing) Participants will learn; How to prepare a 3D design to 3D Printing process in Rhinoceros Advanced Methods for 3D Print optimisation for time and cost effective production 3D Printing software education Cura
INFO
Date Saturday, 28 September 2019 Schedule 9:30am – 2:30pm (Session 1) | 2:45pm – 7:00pm (Session2) Venue (TBC) Pada Labs, Istanbul Language English/Turkish Softwares Rhinoceros Grasshopper 3D Cura Participants will need to bring their own laptops with software installed; other plugins will be distributed at the workshop. Prerequisites All tutorials are open to beginner level. No previous knowledge of Cura and Grasshopper needed. Basic knowledge of Rhinoceros recommended. Participation The workshop is limited to the first 20 applicants. Each student will receive a certificate of participation. Prices for each session: (You can pick one and attend one) Special Early registration (Deadline 1 August ) Students 310 TL Professionals 400 TL Regular registration Students 390 TL Professionals 480 TL Prices for Session 1&2 Combined: (Full Day) Special Early registration (Deadline 1 August ) Students 540 TL Professionals 690 TL Regular registration Students 620 TL Professionals 790 TL DISCOUNTS Group registration of 3 or more people will get a 15% discount. * Previous Pada workshop students will get a 10% discount. DIRECTOR Begum Aydinoglu, M.Arch AA DRL will be instructing and directing the following workshops. REGISTRATION: Email to pada.workshops@gmail.com for registration instructions. Please note that we have limited seats and there won't be any exceptions. …
n fact) according a vast variety of "modes" PLUS the required clash detection (ALWAYS via trigonometry). In plain English: outline any collection of Breps and "apply" a truss that is topologically sound (planarization in case of quads etc is an added constrain). PLUS outline/solve what comes "next" after that truss (like the planar glazing "add-on" brackets of yours [ the ones that need redesign, he he], or some roofing/facade skin system [secondary supports, corrugated sheet metal, insulation, final cladding, dogs and cats])
2. Imaging doing this in real life (nothing to do with "abstract" formations of "lines" or "shapes" or whatever). This means primarily adopting a BIM umbrella: in plain English AECOSim, Revit or Allplan (I'm a Bentley man so I use AECOSim + Generative Components). This also means using "in-parallel" a top MCAD app for 1:1 details, FEA/FIM and the vast paraphernalia required for real-life studies destined for real-life projects (made with real-life money by real-life people). My choice: CATIA/Siemens NX.
3. What to send to Microstation (if not using Generative Components, that is) and/or CATIA? In what "state"? To do what exactly? For instance even if you could design this feature driven tensile membrane anchor custom node in Rhino (you can't) it could be 100% useless in CATIA:
4. Imaging masterminding ways to send them nested instance definitions of ... er ... a coordinate system (all what you need). In plain English: since is utterly pointless to send them nested blocks that can't been parametrically controlled (variations/modifications/PLM management/BOM/specs etc etc)... send them simply the "instructions" to place coordinate systems of components that ARE parametrically designed within Microstation and/or CATIA (classic feature driven design approach blah blah). So GH solves topology et all (working on data imported via, say, Excel sheets related with sizes of components etc etc) and sends to Microstation simply this (a myriad of "this" actually):
I do hope that the gist of the "method" (the ONLY way to invite GH to the party) is clear.
best, Peter…
r this or that etc etc).
3. I would strongly advise to use some decent feature/dimension driven CAD app in order to create families of concrete deck/beam(s) profiles "manually" (the good old way PLUS recording history and using parameters for the steps taken). Find a friend who knows, say, AECOSim and ask for a small demo on that matter (specifically ask what DDD is [Dimension Driven Design]). Then you can have these in Rhino/GH, define some topology, do the "solid" and if 1M of decks/beams are required rather use instance definitions and plane to plane transformations (that's what the Orient component does) instead of creating 1M clone objects.…
In the mean time get this that does hollow Breps (shell solids in classic solid modelling CAD apps) using a highly unusual (and not recommended at all) Method - see inside C#. Of course Rhino takes ages to do it ... but that's rather expected (Rhino is a surface modeller). Doing this in many Breps ... well ... I wish you good luck.
NOTE: Obviously the right/proper way to do it is NOT using scale: Instead > get the BrepFaces offset them (inwards ) then use the Brep.CreateSolid (breps)[0] Method ... then ... blah, blah ... but the gist of the approach is rather clear (I do hope).
best, Lord of Darkness…
dings,roads and 600meters radius for the terrain:
Which corresponds to what openstreetmap is offering if you search for your location:
https://www.openstreetmap.org/search?query=33.585289%2C%2051.588740#map=17/33.58750/51.59100
Google Earth is a commercial product, and it can have better data than openstreetmap and opentopography. There are people who are payed to create map content at Google Earth, while openstreetmap relies itself on volunteer work.You can also contribute to openstreetmap - you can draw outlines of each building in Abyaneh village, and assign a number of floors to those outlines - this is a simplified way on how to add height information to openstreetmap buildings. I did this for example for my hometown. Once you do this - this data will be recorded and anyone else using either openstreetmap or Gismo will be able to benefit from it.Here is tutorial on how to add number of levels information:https://github.com/stgeorges/gismo/blob/master/resources/tutorials/How%20to%20tag%20OSM%20geometry.pdfThere is no tutorial on how to draw building outlines, but in the upper tutorial you will see a "Line" button starting from step number 4. It really is that simple, just draw four lines to make one building outline.If you are not interested in mapping the Abyaneh village building outlines, then you would have to use some other plugin, like GHowl. It can import Google Earth meshes.…
Added by djordje to Gismo at 10:54am on January 26, 2022
, presso la sede Manens-Tifs, nei giorni 26,27 e 28 maggio 2016.
Il comfort visivo e la gestione dell’illuminazione naturale in relazione al risparmio energetico diventano sempre più rilevanti per una progettazione innovativa degli edifici. Ad esempio, il nuovo protocollo LEED 4 riconosce crediti per le simulazioni di daylighting e conferma l’importanza degli aspetti progettuali per “collegare gli occupanti con lo spazio esterno, rinforzare i ritmi circadiani, ridurre i consumi di energia elettrica per l’illuminazione artificiale con l’introduzione della luce naturale negli spazi”. Senza strumenti software per la simulazione della luce non è possibile ottenere risultati di qualità. Radiance è un software validato, utilizzato sia a livello di ricerca che dai progettisti ed è tra i più accurati per la simulazione professionale della luce naturale e artificiale. Non ha limiti di complessità geometrica ed è adatto a essere integrato in altri software di calcolo e interfacce grafiche. Queste ultime facilitano le procedure di programmazione. Le principali e più versatili saranno oggetto del corso (DIVA4Rhino e Ladybug+ Honeybee, plug-in per Grasshopper e Rhinoceros 3D).
Il corso è rivolto a progettisti e ricercatori che vogliano acquisire strumenti pratici per la simulazione con Radiance al fine di mettere a punto e verificare le soluzioni più adatte alle proprie esigenze. Sono previste lezioni di teoria e pratica con esempi ed esercitazioni volte a coprire in modo dimostrativo ed interattivo i concetti trattati.
Le domande di iscrizione devono essere presentate entro il 12 maggio 2016.
La brochure con i contenuti del corso e tutte le informazioni sono disponibili su questo link
Il corso è sponsorizzato da Pellinindustrie.…