igitais de forma criativa e rigorosa, para a concepção de modelos 3D– Familiarizar-se com as lógicas de criação de geometrias tridimensionais NURBS.- Desenvolver técnicas de criação de imagens fotorealistas com o motor de render V-Ray- Introduzir as lógicas paramétricas e associativas processo criativo.- Introduzir novas lógicas de BIM no processo estrutural (Building Information Modeling).# INFORMAÇÕES E INSCRIÇÕESinfo@rhino3dportugal.comAna Fonseca: 917140716 Mais informações disponíveis no site: www.rhino3dportugal.com# FORMADORES Brimet Silva ( Authorized Rhino Trainer )
...................................................
Curso de Rhino3D Nível I
6, 7 e 9 de Julho9h-13h e 14h-18h (sessões diárias de 8h).....................................................Curso de Vray-Nível I
12 e 14 de Julho9h-13h e 14h-18h (sessões diárias de 8h).................................................Curso de Grasshopper Nível I
16 e 18 de Julho9h-13h e 14h-18h (sessões diárias de 8h).................................................
VisualARQ e Rhino BIM- Nível I
21 e 23 de Julho9h-13h e 14h-18h (sessões diárias de 8h)
…
onsidered period.
Even if the end of July for the mediterranean climate is not the best period to perform an adaptive comfort analysis (it's just a pretest to define a LB model) I want to refine the Adaptive comfort Chart (AC) by changing the external air temperature data imported from the .epw file with that of monitored data as reported here below:
Where the monitored ext air temperature are in this form (green panel below):
I have used the comfortPar component to set the following parameters:
Adaptive chart as defined by EN 15251
90% of occupants comfortable
the prevailing outdoor temperature from a weighted running mean of the last week
fully conditioned space (even if it is not properly in line with AC as already discussed)
The question is this: the AC component could correctly apply the code below if there is only a list of external temperature data for a restricted period (without indication about the limits of this period) and not for an entire year?
else: #Calculate a running mean temperature. alpha = 0.8 divisor = 1 + alpha + math.pow(alpha,2) + math.pow(alpha,3) + math.pow(alpha,4) + math.pow(alpha,5) dividend = (sum(_prevailingOutdoorTemp[-24:-1] + [_prevailingOutdoorTemp[-1]])/24) + (alpha*(sum(_prevailingOutdoorTemp[-48:-24])/24)) + (math.pow(alpha,2)*(sum(_prevailingOutdoorTemp[-72:-48])/24)) + (math.pow(alpha,3)*(sum(_prevailingOutdoorTemp[-96:-72])/24)) + (math.pow(alpha,4)*(sum(_prevailingOutdoorTemp[-120:-96])/24)) + (math.pow(alpha,5)*(sum(_prevailingOutdoorTemp[-144:-120])/24)) startingTemp = dividend/divisor if startingTemp < 10: coldTimes.append(0) outdoorTemp = _prevailingOutdoorTemp[7:] startingMean = sum(outdoorTemp[:24])/24 dailyRunMeans = [startingTemp] dailyMeans = [startingMean] prevailTemp.extend(duplicateData([startingTemp], 24)) startHour = 24
…
para poder parametrizarla - Entender cómo se gestionan los datos con Grasshopper - Asociar formulaciones matemáticas a modelos paramétricos - Panelizar y triangular superficies - Parametrizar estructuras sencillas - Saber deformar modelos tridimensionales paramétricamente - Elaboración de algoritmos simples y aplicarlos a modelos tridimensionales - Exportar e importar tablas de datos
El curso será impartido por dos Authorized Rhino Trainers.
También te informamos de que hemos renovado el temario del curso, preparado específica y exclusivamente por nosotros, y que es revisado y ampliado continuamente, gracias a la experiencia de cursos anteriores. El curso tiene un formato intensivo de 18 horas, cuyo horario es: - viernes, de 16 a 20; - sábado, de 10 a 14 y de 16 a 20; - domingo, de 11 a 14 y de 16 a 19.
Si estás interesado en apuntarte, contáctanos en: cursos@frikearq.com…
diantes en la teoría, concepto y practica de los métodos del diseño paramétrico, a través del manejo de herramientas computacionales, para la producción de lógicas algorítmicas e inteligentes, que permitan la generación y testeo rápido de prototipos que transmitan la idea de un proyecto de avanzada. Introducir a los estudiantes en la transición de los métodos avanzados de diseño, hacia los diferentes procesos de fabricación digital de una forma integrada, fabricando modelos a escala real, a partir de datos virtuales, centrando su desarrollo en la selección de una variedad de materiales, que harían posible la transición del modelo por computadora a la realidad física. Los estudiantes serán introducidos en los diferentes procesos de fabricación digital disponibles en el mercado, a través del estudio de casos concretos de diseño y arquitectura de pequeña y gran escala...
Informacion Ampliada del Workshop
Visitar
http://www.facebook.com/events/627964167220650/…
U Delft)Abstract: There are a few theories that describe and explain the role of spatial arrangement on the social interactions of people in built environments, best known of which is called Space Syntax. The term syntax, taken from linguistics, here refers to the [spatial] structure of the whole, as opposed to morphology, which looks at the qualities of individual items. Using these theories, we can analyze existing spatial configurations and in a way measure their socio-spatial performance. However, theories and methods for systematically generating spatial arrangements of certain properties are rare or not put into practice. Combining analytic theories (mostly based on graph theory) with the generation of geometry is at the core of the workshop. In this workshop, we will introduce computational methodologies that can help in generating spaces with known syntactic properties. Three toolkits and methodologies will be introduced: SpiderWeb, Syntactic and Configurbanist.You can also visit the Workshop Page for further details:http://www.gbl.tuwien.ac.at/Archiv/digital.html?name=AAG2014The workshop will be held as part of the Conference "Advances of Architectural Geometry 2014" at the UCL from 18 - 21 (20,21 workshops) of September. It is possible to register for the Workshops independent of the conference.To do so please follow this link: http://www.architecturalgeometry.org/aag14/?page_id=554Best regardsPirouz NourianRichard Schaffranek…
Il corso ha una durata di 21+3 ore, dove le 3 ore extra rappresentano la prima lezione, già disponibile per coloro che ne faranno richiesta.
Il corso viene fatto in collaborazione con l’Accademia Italiana Inrender
Modalità:
Il corso sarà trasmesso in streaming in diretta nei giorni indicati, ma sarà possibile accedervi anche fuori da determinato orario. La lezione prevede la spiegazione della logica di Grasshopper e esempi pratici di utilizzo. Gli studenti verranno invitati a partecipare ponendo domande e chiedendo chiarimenti su aspetti ritenuti interessanti o non appieno compresi.
Gli esercizi svolgeranno una parte particolarmente rilevante all’interno del percorso di studio: anzichè acquisire solo concetti teorici, gli studenti avranno un approccio più mirato e pratico alla modellazione generativa e parametrica.
Caratteristiche del corso:
- Lezioni in diretta streaming- Riassunto in pdf degli argomenti trattati- Esercizi e correzione esercizi relativi alle tematiche trattate- Contatto diretto con il docente per la durata del corso- Registrazioni e file delle lezioni disponibili sul sito per un anno dal termine del corso.- Certificazione rilascita da un ART (Authorized Rhinoceros Trainer)
Corso Grasshopper online: 21 ore Calendario: ogni martedì e giovedì dalle 18.30 alle 21.30
Grasshopper è un prodotto gratuito sviluppato dalla McNeel per la modellazione di superfici matematiche NURBS attraverso l’uso di relazioni tra algoritmi
Il corso tratterà gli argomenti di base da cui sviluppare un approccio generativo tramite le funzioni dell’applicativo
Per info sul programma e modalità, visita la nostra pagina
http://www.mandarinoblu.com/wp-content/uploads/2017/03/venezia.jpg 450w" sizes="(max-width: 300px) 100vw, 300px" />
http://www.mandarinoblu.com/wp-content/uploads/2011/09/ART.jpg 330w" sizes="(max-width: 300px) 100vw, 300px" />
http://www.mandarinoblu.com/wp-content/uploads/2017/03/serpentine.jpg 350w" sizes="(max-width: 300px) 100vw, 300px" />
Contatti
Contatta il docente e rivolgi a lui tutte le tue domande.…
analisi ambientale e simulazione fisica. Obiettivo fondamentale è la generazione della forma come risultato di tecniche di form-finding e di input ambientali (solari, termici e acustici). Verranno acquisiti nuovi strumenti operativi e di simulazione al fine di costruire modelli parametrici ottimizzati in grado di adattarsi a diverse condizioni di contesto.
TUTORS:
Arturo Tedeschi (Authorized Rhino Trainer) + Maurizio Arturo Degni | Matteo Gobbi
more info…
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.…
plicado íntegramente a joyería. Aprenderás las herramientas más avanzadas para innovar en tus diseños y ser más productivo. Con la experiencia y fiabilidad de SEEDstudio y contando con el desarrollador de Peacock (plugin de joyería generativa para Grasshopper) como uno de los tutores del curso. Todo esto complementado con formación en renderizado e impresión 3d!
http://www.studioseed.net/education/courses/generative-design/joyeria-generativa/
Puedes consultar más información o contactar desde:
http://www.studioseed.net/education/informacion/
Visita también:
http://www.studioseed.net/blog/software-blog/parametric-generative-design-blog/grasshopper/12-razones-por-las-que-un-disenador-de-joyas-deberia-usar-algoritmos/…
mponents. However, they are very close to each other and my inference as to why they are not perfectly equal is that the ddys for ASHRAE/DoE are likely built using all of the collected weather data over the (at least) 18 years that a weather station has been recording data. In contrast, the Energy Simulation components use the same statistical methods but on just the data with in the epw, which is just one year (albeit a 'typical' year statistically).
You should keep in mind that what E+ is trying to do with the ddy file and autosizing of the HVAC is mimic the process that an engineer undergoes to size specify your building's HVAC system and there can be variations in techniques for sizing the HVAC just as there can be differences between the weather in an epw and that which a building actually experiences once it is built. Still, it's probably safe to say that, if an engineer has a ddy file that is issued by ASHRAE, they will probably use that to size the system instead of a ddy file generated just from the epw. As such, it's a good idea to include the ddy file next to the epw if you have it as this is closer to what an engineer might do.
All of this said, in the cases that I tested, the minor differences between the ASHRAE ddy and that generated by the Energy Simulation components had a negligible effect on the resulting heating and cooling values out of E+. I was often able to get the heating energy to match down to the kWh and the cooling energy matched within 1-2%. The cooling sizing is off because the Sky model for radiation used by AHSRAE in the ddy files (ASHRAEtau method) requires some information not contained in the EPW. Instead, I use ASHRAE's simpler ClearSky model at the highest solar intensity. As a result, the function here oversizes the cooling system by small amount (1-2% as mentioned previously).
-Chris…