nside the zone. I would move your comfort evaluation surface to be 1 meter off the ground in order to be representative of typical human height.
Also, you did not intersect the ground with the rest of the zone geometry, resulting in an incorrect energy simulation. After intersection, you also get one surface of the ground zone that is not inside any buildings. I fixed these two things in the attached file ad it works:
I would also recommend breaking the top surface of the ground up into sub-surfaces so that you can capture the variation in ground surface temperature that happens across the outdoors. Second, I would recommend putting some windows on your buildings as the exterior surface temperature of windows can be very different than that of opaque surfaces. Finally, you should keep in mind that the outdoor maps are assuming a very basic outdoor wind profile by default and, to accurately understand outdoor comfort, you really should be incorporating wind patterns after running a CFD. This discussion has some information about importing CFD from other programs to GH:
http://www.grasshopper3d.com/group/ladybug/forum/topics/import-cfd-result-to-honeybee
-Chris…
innovation technologies and academic realms. We believe that this association will allow participants to be part of the art community of the Guggenheim museum and the academic environment of the UPV -more particularly the ETSASS Escuela Tecnica Superior de Arquitectura de San Sebastian. Moreover, the partnership with Tecnalia will enable us to work together with their most advanced media and research and innovation groups.
The program will start with a symposium in June at the Guggemheim in Bilbao and will be followed by a workshop in July at the Alhondiga in Bilbao and ETSASS digital fabrication laboratory in San Sebastian. The works produced at the visiting school will be exhibited from September on at the Alhondiga in Bilbao:
-To introduce the research topic of the visiting school, the workshop will be preceded by a one-day-long symposium. This event will initiate a debate between professionals, theoreticians and scientists from the field, to discuss about alternative and critic methods of environmental adaptability.
-The workshop will investigate new design processes to produce context sensitive environments from a critical perspective. Local ‘materials’ such as user behaviour, social patterns or environmental analysis will inform the design process.
In order to construct this agenda, the workshop will invest on digital design and fabrication strategies by studying data-feed protocols, environmental simulation software and algorithmic design. To work within actual conditions, the site will be proposed by the Bilbao authority as part of the future city and planning intentions.
-A prototype of the best project from the workshop will be fabricated in the Tecnalia installations. To build this prototype, we will take advantage of the robotics and fabrication department in Tecnalia. In September 2012, an exhibition will be held at the Alhondiga comprising the works developed at the visiting school and the prototype produced in collaboration with Tecnalia.…
o find a feasible solution and show the advantage of such methodology.Registration at trainings@parametric.supportTUITION FEE: 400 EUR (Early Bird) till 30.05450 EUR (Regular)OUTLINE:During the workshop you will learn:- difference between calculation by hand and FEM,- study of simple a structure in Karamba,- free form structure,- cross section optimization, - single objective optimizationPROGRAM:Day 1- introduction of some case study,- example of standard calculation by hand and with commercial FEM software as SAP2000 in order to show the difference in term of time and feasibility of Karamba,- understanding of Karamba component with few easy example:- simple supported beam;- multi supported beam;- truss structures with different layout;- curved beam;Day two- Analyzing a free form surface with beam and shell element;- using genetic algorithm to find the solution with minimum displacement;- cross section optimization;TUTOR:Marco Pellegrino, structural Engineer graduated at the University of Pisa, he worked at AEIprogetti, he participated in several conferences such as: Design Modelling Symposium in Copenhagen and AA Summer School. He is interested in applied new media to structural design. He runs Ingegneria Parametrica fanpage.Marco is a currently working at Parametric Support.This event is for Grasshopper advance users.…
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Adaptation (http://agile-iot.eu/adaptation) will be hosted as a satellite event with Tech Open Air, a yearly festival held in Berlin of around ideas of tech, music, art and science. The exhibition will be held in Agora Rollberg, an experimental center for sustainable and artistic practices in the heart of Neukölln.
Schedule: Opening: 11th July 6pm-10pm Exhibition: 12th-14th July, 10am-6pm
Get your free ticket at: https://www.eventbrite.de/e/using-iot-to-create-art-using-art-to-envision-iot-tickets-33497054592
The continuously developing AA Visiting School that takes place successfully on a global scale during the recent years and promotes a cosmopolitan pedagogical approach had visited the city of Chania. Under the theme “Progressions”, IVI has been the output of the intense workshop dealing with generative architectural design and digital fabrication techniques where architectural students and architects participated from Greece and abroad.
The project was designed and realized in Lektorio studio space in the old city district of Chania. The completed installation was also presented at the exhibition space of Sabbionara Gate of the Centre for Mediterranean Architecture, co-organized by the Municipality of Chania and KEPPEDICH KAM enabling public visits.…
rce of power.
A fortified emplacement for heavy guns.
Synonyms
accumulator
And use component:
com·po·nent
/kəmˈpōnənt/
Noun
A part or element of a larger whole, esp. a part of a machine or vehicle.
Adjective
Constituting part of a larger whole; constituent.
Synonyms
noun.
constituent - element - ingredient - part
adjective.
constituent - constitutive
…
n to finding a concave contour polyline (which is in general what you need). In your case each contour section contains a series of points of which you do not know the order and you need to sort them so that by connecting them you find the contour. This is fairly easy to do when the contour is convex (basically you find the average point then calculate the vectors from the average to the points and sort the vectors by angle - sorting the points by the same angle gives you the right order for the contour), but generally impossible to find uniquely when the contour is concave (PS: convex means that, for ANY 2 points inside the figure, a straight line connecting them doesn't intersect with the border curve - i.e. circles, ellipses, rectangles, triangles - concave shapes are a star, a crescent moon, an arrow, a boomerang, etc.).
The problem goes like this: given a generic list of points:
Each of these configurations for a perimeter equally fits the above:
Laurent already went for another possible solution, the stochastic approach (by subdividing the connecting lines), I slightly adjusted a few things over his solution:
namely, I added a rounding option to adjust for some weird tolerance issues (some points that should be at Y=80 were at Y=79.99998 or something) and a more straightforward solution to group them by section plane using sets logic. This, coupled with alpha shape, gives a quite good approach, still very coarse in terms of results but that depends on the sampling resolution of the field (i.e. number of height sections in which you calculate the metaballs) and sampling length of the connecting lines.
Definition attached.…
Diffraction , I left it, how it is.
For the unusual issues that comes in the image source component, so, is it something strange? But, I still have the same issues when I sets any integer component (single or multiple) in the “reflection order” of the image source component, in the “image source order” in the ray tracing component, and again, when I connect the output “Direct sound data” of Direct Sound component in the Energy Time Curve.
Do I wrong something with the integer component? I used it already in the first parts, for sets “grasshopper layers”, in the “Scene” component, but here it works. Should I start with a new file?
For the multi-object optimization, thank you for all suggestions. Yes, I red PHD thesis work of Tomas Mendez and the article “ EDT, C80 and G Driven Auditorium design” and still others. Thank you to all these articles, I decided where to focus my thesis.
I understand the potential of Multi-object optimization, and problems that I can finding without using it. Actually, in the beginning of my thesis, I tried to jet in contact with the Politecnico di Torino, but was not easy because I’m not a Politecnico student.
Here, in University of Florence (Building engineering), there isn’t a department or someone that is already familiar with these field of study, so, as you can image, for design my thesis, I can confide on online resources. So far, my Professor suggest me to begin with a Nonlinear Global optimization like Galapagos, and only after see the multi-object. In this way, step by step if something doesn’t work is easier to understand way and where something is going wrong: if are problems due to the setting of the programs, because we are not practical about these, or if there is a wrong in the simulations or in the algorithm and ect.
Do you think is a good way for go on?
Thank you very much,
Kind Regards
Giulia
…
ino al suo utilizzo per la risoluzione di tematiche di modellazione complessa di ARCHITETTURA e DESIGN.Durante le lezioni si insegneranno i comandi avanzati del software Rhinoceros ed inoltre i discenti, alla fine del percorso formativo saranno anche in grado di creare modelli attraverso il linguaggio della Plug-in avanzata Grasshopper(http://www.grasshopper3d.com/photo).
Il workshop si divide in due moduli che possono essere frequentati anche separatamente:
STRUTTURA
mod.1 _MODELLAZIONE BASE con Rhinoceros | Venerdì 14 Dicembre e Sabato 15 Dicembre | dalle 10,00 alle 19,00
Scadenza iscrizione: Lunedì 10 Dicembre
mod.2 _MODELLAZIONE AVANZATA con Rhinoceros e Grasshopper | Domenica 16 Dicembre e Lunedì 17 Dicembre | dalle 10,00 alle 19,00
Scadenza iscrizione: Mercoledì 12 Dicembre
SINTESI
mod.1 _MODELLAZIONE BASE con Rhinoceros
L’obbiettivo del corso è quello di insegnare in tempi brevi, gli strumenti base della modellazione 2D e 3D e la renderizzazione dei modelli creati. Le ore saranno dedicate allo studio dell’interfaccia del software Rhinoceros e all’apprendimento dei comandi base per la gestione del documento di progetto; si approfondiranno i comandi più utilizzati per l’editing e la costruzione del disegno per arrivare alle operazioni booleane semplici e complesse. Inoltre si imparerà a costruire e trasformare curve e superfici free-form. Le nozioni ed i metodi verranno trasmessi trattando temi e problematiche reali di design ed architettura.
mod.2 _MODELLAZIONE AVANZATA con Rhinoceros e Grasshopper
Il secondo modulo tratterà forme complesse implementando la modellazione avanzata di Rhinoceros con le potenzialità espresse dalla plug-in Grasshopper. La plug-in di Rhinoceros permette di disegnare abbandonando l’usuale interfaccia dei software di rappresentazione, consentendo un rapporto più diretto con il linguaggio proprio del computer: la programmazione. Questo cambiamento porta ad una radicale variazione del rapporto che il progettista ha con lo strumento di rappresentazione digitale. I partecipanti saranno orientati verso un nuovo rapporto con le forme create che oltre ad essere frutto di trasformazioni delle entità primitive che Rhinoceros propone, si costruiranno anche in relazione a parametri variabili.
Nel corso si imparerà a comporre algoritmi semplici, di carattere principalmente geometrico, in grado di generare forme e gestire i comportamenti delle stesse se sottoposte a variabili esterne.
In fine si imparerà a confrontarsi con un contesto evolutivo, che influenza i parametri della rappresentazione portando a dei modelli dinamici.
…
alità di Rhino, tra cui i comandi più avanzati per la creazione di superfici.
Struttura Le lezioni tratteranno in maniera sistematica argomenti riguardanti l'interfaccia utente, i comandi, la creazione e modifica di curve, superfici e solidi.
Risultati attesi Dopo questo corso lo studente dovrebbe essere in grado di: • Muoversi comodamente attraverso l’interfaccia di Rhino. • Identificare quando è richiesto modellare in maniera free-form o di precisione. • Creare e modificare curve, superfici e solidi. • Utilizzare ausili di modellazione per la precisione. • Produzione di semplici rendering per la visualizzazione dei modelli di Rhino.
Destinatari Questo corso è rivolto a progettisti e studenti che vogliono imparare in modo efficace i concetti e le caratteristiche del software di modellazione Rhinoceros. Le lezioni saranno ottimizzate ed esposte da un docente ART qualificato dalla McNeel. Alla fine del corso verrà rilasciata l’attestato di partecipazione ad un corso qualificato McNeel.
Prerequisiti Per affrontare il corso sono richieste competenze di Windows, passione e volontà di modellazione; precedenti esperienze di modellazione, anche con altri software, sono utili ma non indispensabili.…
ad informazioni provenienti dall’ambiente.
Il corso parte dalle conoscenze base di Grasshopper per la generazione ed il controllo delle geometrie e ha lobiettivo di arrivare a definizioni utili per concretizzare il modello virtuale in prototipo fisico attraverso tecniche di fabbricazione digitale. tutor: Amleto Picerno Ceraso
nb: è richiesta una conoscenza base di Grasshoppercosto: 250€ + IVAnumero minimo di partecipanti: 3deadline: 17 marzo
Per iscrizioni scrivi a info@medaarch.com specificando nome, cognome, mail, recapito telefonico e il nome del corso al quali sei interessato. In seguito all’invio del modulo di pre-iscrizione, i partecipanti riceveranno una mail contenente tutte le specifiche di pagamento.
Il cluster rientra in un fitto calendario di attività formative organizzate dalla Medaarch per lanno 2013-2014.…