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…
corner, solid surface, reflectance 0.18, when there is NO direct sunlight on the sensor (illuminance<10000 lux).
Shading Group 1 State 2: curtains along the glass, trans surface, transmittance 0.2, when there is direct sunlight on the sensor (illuminance>=10000 lux).
After the run I checked the ill files in the folder and the shading schedule in the intgain.csv file and found some inconsistency, taking Jan 1st as an example
In the intgain.csv, the shading schedule shows the curtain only covers the glass (state 2) at 9.5,11.5,13.5.
But in the ILL file with no dynamic shading, the sensor point (first column after hour) illuminance is above 10000 lux from 10 to 15. So the shading schedule should be 1 from 9.5 to 14.5, right? Or am I missing something here?
I'm trying to get the lux hours/accumulated illuminance for the test point, but there is no ILL file that actually combined the ill, state-1 ill, and state-2 ill together based on the shading schedule? (My understanding is the "read annual result I" visualizes the Daylight Autonomy based on the advanced shading schedule but didn't generate another ill file?)
I was doing it in Excel and found the difference between shading schedule and the sensor reading. Please let me know if I made any mistakes in the simulation setting! Any comments on a better data processing method would be much appreciated!
Best,
XF
…
value=WINTERDESIGNDAY, in SIZINGPERIOD:DESIGNDAY=SINGAPORE ANN HTG 99.6% CONDNS DB ************* IDF Context for following error/warning message: ************* Note -- lines truncated at 300 characters, if necessary... ************* 53 SizingPeriod:DesignDay, ************* indicated Name=SINGAPORE Ann Htg 99% Condns DB ************* Only last 10 lines before error line shown..... ************* 57 23.5, !- Humidity Indicating Conditions at Maximum Dry-Bulb ************* 58 101133., !- Barometric Pressure {Pa} ************* 59 2, !- Wind Speed {m/s} design conditions vs. traditional 6.71 m/s (15 mph) ************* 60 320, !- Wind Direction {Degrees; N=0, S=180} ************* 61 0.00, !- Clearness {0.0 to 1.1} ************* 62 0, !- Rain {0-no,1-yes} ************* 63 0, !- Snow on ground {0-no,1-yes} ************* 64 21, !- Day of Month ************* 65 12, !- Month ************* 66 WinterDesignDay,!- Day Type
The relevant lines in the IDF file is shown below:
SizingPeriod:DesignDay, SINGAPORE Ann Htg 99.6% Condns DB, !- Name 23, !- Maximum Dry-Bulb Temperature {C} 0.0, !- Daily Temp Range {C} 23, !- Humidity Indicating Conditions at Maximum Dry-Bulb 101133., !- Barometric Pressure {Pa} 2, !- Wind Speed {m/s} design conditions vs. traditional 6.71 m/s (15 mph) 320, !- Wind Direction {Degrees; N=0, S=180} 0.00, !- Clearness {0.0 to 1.1} 0, !- Rain {0-no,1-yes} 0, !- Snow on ground {0-no,1-yes} 21, !- Day of Month 12, !- Month WinterDesignDay,!- Day Type 0, !- Daylight Savings Time Indicator WetBulb; !- Humidity Indicating Type ! SINGAPORE_SGP Annual Heating 99%, MaxDB=23.5°C SizingPeriod:DesignDay, SINGAPORE Ann Htg 99% Condns DB, !- Name 23.5, !- Maximum Dry-Bulb Temperature {C} 0.0, !- Daily Temp Range {C} 23.5, !- Humidity Indicating Conditions at Maximum Dry-Bulb 101133., !- Barometric Pressure {Pa} 2, !- Wind Speed {m/s} design conditions vs. traditional 6.71 m/s (15 mph) 320, !- Wind Direction {Degrees; N=0, S=180} 0.00, !- Clearness {0.0 to 1.1} 0, !- Rain {0-no,1-yes} 0, !- Snow on ground {0-no,1-yes} 21, !- Day of Month 12, !- Month WinterDesignDay,!- Day Type 0, !- Daylight Savings Time Indicator WetBulb; !- Humidity Indicating Type
It seems that there is an empty line after the line for "!- Humidity Indicating Type" field, and nothing is specified for "! SINGAPORE_SGP Annual Heating 99%, MaxDB=23.5°C" field.
May I ask why this happens and how to correct the error?
Thank you very much!…
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.
…
Rhinoceros y Grasshopper los participantes puedan desarrollar mediante un flujo de trabajo digital las técnicas de Diseño Paramétrico, mediante métodos algorítmicos generativos, para su implementación en procesos de diseño y representación de los mismos, a través de:
Proliferación en topologías complejas mediante Definiciones visualizados Estrategias de Mapeo y Análisis evolutivos en Tiempo Real Técnicas avanzadas de modelación 3D e imágenes foto realistas Vinculaciones entre criterios Predefinidos paramétricamente y Morfologías resultantes
Detalles: ∙ Instructores / Matías Casciotta y Salomón Escobar / Integrantes Ha-11 ∙ Todos los niveles de experiencias son bienvenidos ∙ Recursos: Interfaces Rhino + Grasshopper / Manuales PDF / Definiciones GH Preparadas ∙ Los participantes deberán traer su propia laptop con todo el software y actualizaciones (originales o versiones de demostración) previamente instaladas. (Se fijara una fecha unos días antes para revisar que todos los equipos estén en orden y listos para trabajar).
Fecha y Lugar ∙ 3 semanas a partir del 15 de Marzo del 2012 - Lunes y Jueves de 19:00hs a 21:00hs - ∙ El taller se dictara dentro del ámbito de cursos del Arquitecto Alejandro Correa.
INFORMES: Ha11 en Facebook ha.11.arquitectos@gmail.com…
supplied _values of _keys" notice.I tried running the "OSM 3D" component first with groundTerrain_ input. As I did not get the upper notice message, I closed down the whole Rhino so that I cut the waiting time. Then I tried running it without the groundTerrain_ input, and in some 15 minutes I got the following buildings:
I think I may understand what was causing the problem: when one takes large radii, it covers large areas, and with this area comes large number of information (keys and values). You can get hundreds of keys (or thousands). What can happen is that: these hundreds of keys, can exceed shapefile's capacity to story keys. So basically in case of radius 750 meters your "height" or "buildings:levels" keys somehow slipped beyond this allowable capacity. In case of 800 meters they were somehow allowed to enter (a bit bad term sorry) before the allowable capacity is reached. This depends on the number of keys named with letters which precede the "h" and "b".The best way to solve this issue is to know which data do you actually need, and use the "OSM Keys" component to generate the list of needed keys. In this way, only those keys that you need will be used, others will be disregarded.You do not even have to use the "OSM Keys" component if you know which specific keys you exactly need. Check the attached file below. I grouped the "OSM Keys" solution as "a" and a custom defined list of keys as "b".
2) The component running time might now be cut with picked "requiredKeys_" input I mentioned at the end the previous 1) part.
3) "OSM 3D" component's "randomHeightRange_" input is suppose to do exactly that: to randomly create 3d buildings (or 3d trees) when there are no valid "height" or "buildings:levels" tags.I have just changed one line the "OSM shapes" component code.I wonder if it would make any problem on your PC.Please let me know if LocationGrabber03_Gismo2.gh file works.…
Added by djordje to Gismo at 2:34pm on February 11, 2017
de modelación en 3D y aprovechen las ventajas que plantean, como mejorar su proceso de diseño y explorar múltiples alternativas para un proyecto en lapsos de tiempo muy reducidos en comparación de los métodos tradicionales.
En consecuencia, los alumnos tendrán la posibilidad de disminuir sus tiempos de trabajo, con resultados iguales o incluso mejores a los que obtenían con anterioridad; mejorar la calidad de sus presentaciones y, lo que es más importante, ampliar la fundamentación de sus proyectos en el aspecto funcional y formal, dependiendo de las características del proyecto.
Para lograr estos objetivos, se contemplan dos temarios y un ejercicio práctico.
Al finalizar el curso, los asistentes serán capaces de manejar Rhinoceros y Grasshopper en un nivel medio, con el objetivo que el alumno pueda continuar aprendiendo con alguno de nuestros siguientes workshops o de manera autodidacta.
Además del contenido teórico se incluye un ejercicio práctico, la magnitud del ejercicio y el material que se le destine se definirán con base en el número de asistentes.
El workshop tiene una duración de cinco sesiones:
Sesión 1 – Temario de Rhinoceros
Sesión 2 y 3 – Temario de Grasshopper
Sesión 4 y 5 – Ejercicio práctico
El horario es de 9 am a 4 pm, con una hora de receso para tomar un refrigerio.
No es necesario traer el equipo necesario para trabajar, se cuenta con un equipo para cada persona asi como el material de trabajo para el ejercicio práctico, por lo cual se les recomienda que no traigan portátiles u otro material, únicamente dispositivos de almacenamiento si desean guardar sus trabajos.
El costo del evento es de $3,500 estudiantes y $4,000 profesionales.
(Para poder tener el descuento de estudiante es necesaria una constancia de la universidad de la que proviene, acreditando que el interesado está cursando algún semestre de la carrera. Personas graduadas que estén cursando una maestría o algún grado superior no reciben el descuento).
Para apartar su lugar pueden realizar un depósito de $1,500 y terminar de efectuar el pago antes del 15 de abril si es mediante un depósito bancario o el primer día del evento en efectivo.
El evento se realizará en las oficinas de Vegasot, ubicadas en Circuito Cirujanos No. 23-A
Cd. Satélite, Naucalpan, Edo. de México 53100
http://www.vegasoft.com.mx
Para cualquier duda por favor escriban un correo a luzytextura@gmail.com, por teléfono al 044 55 4381 3302, o en facebook.com/archbernardorivera…
nteraction in the design of an enclosed volume.
Revolutions have occurred through architectural history and vary widely in terms of design methods and fabrication techniques. Focusing on inspiring natural form‐finding techniques, AA Athens VS works towards producing a large‐scale interactive prototype that alters in real‐time the perception of interior space.
Technology and architecture are coupled for the third year in Athens with a novel agenda of transforming an enclosed area and creating internal contrasting city‐life characteristics that transcend the local conditions. In collaboration with the National Technical University of Athens, Cipher City: Revolutions explores participatory design and active engagement modeling and continues building novel prototypes upon horizontal planes.
The toolset includes mainly ‐among others‐ Rhino Grasshopper, Processing and Arduino platforms. With the completion of the Programme participants receive the AA Visiting School Certificate. In 2013, the design agenda of AA Athens will connect with the agenda of AA Greece VS in the city of Patras. Participation in both Programmes will allow for a more extensive learning experience through additional tools like Autodesk Maya, Autodesk 3D Studio Max and more.
Discounts
The AA offers several discount options for participants wishing to apply as a group or participants wishing to apply for both AA Athens and AA Greece Visiting Schools:
1. Standard application
The AA Visiting School requires a fee of £600 per participant, which includes a £60 Visiting Membership. If you are already a member, the total fee will be reduced automatically by £60 by the online payment system. Fees are non-refundable.
2. Group registration
For group applications, there will be a range of discounts depending on the number of people in the group. The discounted fee will be applied to each individual in the group.
1. 3-6 people group: £60 (AA Membership fee) + 540*0.75 = £465 (25 %)
2. 6-15 people group: £60 + 540*0.70 = £438 (30%)
3. more than 15 people group: £60 + 540*0.65 = £411 (35%)
3. Participants attending AA Greece VS and AA Athens VS | 40% discount
For people wishing to attend both AA Greece VS and AA Athens VS, a discount of 40% will be made for each participant. (The participant will pay the £60 membership fee only once.)
£60 (AA Membership fee) + (540*0.60)*2 = £708
Eligibility The workshop is open to architecture and design students and professionals worldwide.
Applications
The deadline for applications is 24 March 2014. A portfolio or CV is not required, only the online application form and payment. The online application can be reached from:
http://www.aaschool.ac.uk/STUDY/VISITING/athens
Contact:
Alexandros.Kallegias@aaschool.ac.uk…