algorithmic modeling for Rhino

Search Results - vr金星15分彩计划软件手机版式『1TBH·COM』福彩2017324开奖2023年3月19日5时51分39秒.H5c2a3.l3lldvl9l

Comment on: Topic 'Finding an optimal size of PV panel in given array.': nderstand each other quite well. I will pick one piece of the PVsurface at the bottom row: So the label "1" represents the PVsurface for which the shading diagram will be created. Label "2" is the back facade (made of glass or opaque elements, does not matter).Label "3" represents the row of PVsurfaces above. Now take a look at how the shading diagram would look like for the mentioned PVsurface. I made some of its parts a bit incorrect on purpose, so that I could clearly the differences a bit easier: Label "1" would be first type of self-shading. It's the shading which prevents the PVsurface to "see" anything behind its back.Label "2" would be shading from the facade wall to which the PV surfaces are attached to. I deliberately colored it blue, to distinguish it from other two types of the shading. Otherwise it would look black.Label "3" is the second type of self-shading: the shading from the above row of PV surfaces.In literature, you won't find the terms: first and second type of self-shading. I invented them.To my knowledge, when self-shading is mention, this will probably be related with label "3" (second type of self-shading). It's the shading from the adjacent rows of PV modules in front, or like in this case above.So when I said: You do not have to supply the surfaces additionally to the context_ input. The component will "under the hood" add them to the context_ input to account for self shading. Last year this hasn't been the case, but after the suggestion by Chris Mackey, I changed this feature. This was related to the first type of self shading (label "1"). And when I said: However, as we are using the PV SWH System size component, there will be no self-shading. The PV SWH System size component positions the PV rows in such a way, that no self shading will appear for the given minimalSpacingPeriod_ criteria. This was related to the second type of self shading (label "3"). I should also mention that I made the upper photo a bit incorrect. If you would do the shading analysis, the label "3" would be almost non-existent. Here is how the shading diagram would actually look like: As mentioned this is because PV SWH System size component will position each PVsurface row in such a way, so that there would be no second type of self shading for the chosen minimalSpacingPeriod_ criteria. In our case, as the minimalSpacingPeriod_ criteria we chose the summer solstice in the Northern Hemisphere from 10 to 14 hours. We should have taken from 9 to 15, but we took from 10 to 14 to as on option of lowering the distance between the PV rows.This means that there will be no second type self-shading all year round from 10 to 14 hours. Let me know if all of this helps in any way.…; Added by djordje to Ladybug Tools at 12:10pm on May 28, 2016

Event: NEXUS workshop - grasshopper advanced: main attention is set on easy to handle interface , which should be used at a early stage of conceptual design to respond to external and internal influences in a intelligent and sustainable way. Participants will use the software Grasshopper as a parametric modeling plug-in for Rhino. The usage of this graphical algorithm editor tightly integrated with Rhino’s 3-D modeling tools open up the possibility to construct highly parametrical complex models. To generate this complexity we will use live linkages to several programs listed below: • Autodesk Ecotect Analysis and Radiance via GECO • Processing, Excel or Open Office via gHowl • FEA software GSA via SSI In this 3 intense days, the participants should learn the workflow of the plug-ins with the help of examples and get an overview of the different software’s, there possibilities for evaluating the performance of a design or the usage of additional tools to be not chained to a single system . (e.g. parametrical accentuation, parametrical formation, parametrical reaction) TIME AND LOCATION 27th – 29th September 2010Leopold-Franzens university innsbruck/austria Technik Campus | ICT - building Technikerstraße 21a A - 6020 Innsbruck | Austria 47°15’50.71”N 11°20’43.45”E detailed program as pdf-version FOR WHOM All levels are welcome (students & professionals) The only requirement is knowledge of Rhino and Basic Grasshopper. You will need a level which corresponds to the Grasshopper Primer course outline. FEES 21 hours professionals: 395€ students (bachelor/master): 250€. REGISTRATION please send a email to to.from.uto@gmail.com attached with following information : Last Name First Name Date of Birth Nationality Email Address Current Address Profession or proof of student status After submitting you will receive an email with a PayPal link to complete registration.…; Added by to] at 11:30am on August 25, 2010

Event: Parametric & Generative Architecture & Design Grasshopper Workshop: mbre de 9:00 am a 8:00 pm Este taller está dirigido principalmente a arquitectos y diseñadores interesados en el aprendizaje del diseño paramétrico y generativo aplicados a la generación y racionalización de geometrías complejas para su implementación en diferentes procesos de diseño. En el curso se abordarán los conceptos básicos y metodología para hacer frente a diversas problemáticas del diseño mediante el desarrollo de herramientas algorítmicas a través de un lenguaje de programación visual y el desarrollo de esquemas de fabricación digital. No se requieren conocimientos previos de Rhinoceros 3D ni de programación, conocimientos previos de CAD deseables. Estudiantes: 2,500 MXN Profesionales: 3,000 MXN CONCURSO DE RENDERS - BECA DEL 100% - Parametric & Generative Architecture & Design Grasshopper Workshop. - Publica tu render en www.facebook.com/3dmetrica - El render con más likes será el ganador. - Fecha límite de votaciones 15 de septiembre del 2012. Informes e Inscripciones: workshop@3dmetrica.com 04455 28790084 www.3dmetrica.com www.facebook.com/3dmetrica …; Added by Angel Quintana at 12:28pm on September 5, 2012

Blog Post: YANG : Yet Antother Node Generator: After some rework of a previous script (…; Added by Laurent DELRIEU at 2:56pm on December 9, 2015

Topic: the EP output variables used in calculation of the variables on the Read EP Results component: EP output variables are to calculate outdoorAirEnergy? Thank you very much! Output variables on the Read EP Results component:[1] totalThermalEnergy=cooling+heating[2] thermalEnergyBalance=cooling (-)andheating (+)[3] cooling= Zone Ideal Loads Supply Air Total Cooling Energy [J](Hourly)=Zone Ideal Loads Supply Air Sensible Cooling Energy [J](Hourly)+ Zone Ideal Loads Supply Air Latent Cooling Energy [J](Hourly)[4] heating= Zone Ideal Loads Supply Air Total Heating Energy [J](Hourly)= Zone Ideal Loads Supply Air Sensible Heating Energy [J](Hourly) + Zone Ideal Loads Supply Air Latent Heating Energy [J](Hourly)[5] electricLight=Zone Lights Electric Energy [J](Hourly)[6] electricEquip=Electric Equipment Electric Energy [J](Hourly)[7] peopleGains=Zone People Total Heating Energy [J](Hourly)[8] totalSolarGain=Zone Windows Total Transmitted Solar Radiation Energy[9] infiltrationEnergy=Zone Infiltration Total Heat Gain Energy (+)andZone Infiltration Total Heat Loss Energy (-)[10] outdoorAirEnergy= ???[11] natVentEnergy=Zone Ventilation Total Heat Gain Energy (+)andZone Ventilation Total Heat Loss Energy (-)[12] operativeTemperature=Zone Operative Temperature[13] airTemperature=Zone Mean Air Temperature[14] meanRadTemperature=Zone Mean Radiant Temperature[15] relativeHumidity=Zone Air Relative Humidity[16] airFlowVolume=[infiltrationFlow] Zone Infiltration Standard Density Volume Flow Rate+[natVentFlow] Zone Ventilation Standard Density Volume Flow Rate+[mechSysAirFlow] Zone Mechanical Ventilation Standard Density Volume Flow Rate+[earthTubeFlow] Earth Tube Air Flow Volume[17] airHeatGainRate=[surfaceAirGain] Zone Air Heat Balance Surface Convection Rate+[systemAirGain] Zone Air Heat Balance System Air Transfer Rate Output variables on the Read EP Surface Results component:[1] surfaceIndoorTemp= Surface Inside Face Temperature[2] surfaceOutdoorTemp=Surface Outside Face Temperature[3] surfaceEnergyFlow=[opaqueEnergyFlow] Surface Average Face Conduction Heat Transfer Energy+[glazEnergyFlow] Surface Window Heat Gain Energy[4] opaqueEnergyFlow =Surface Average Face Conduction Heat Transfer Energy[5] glazEnergyFlow= Surface Window Heat Gain Energy[6] windowTotalSolarEnergy=Surface Window Transmitted Solar Radiation Energy[7] windowBeamEnergy=Surface Window Transmitted Beam Solar Radiation Energy[8] windowDiffEnergy=Surface Window Transmitted Diffuse Solar Radiation Energy[9] windowTransmissivity=Surface Window System Solar Transmittance…; Added by Grasshope to Ladybug Tools at 9:40am on October 9, 2015

Event: Ciclo de Workshops “ADN Methodology” / México 2011: sando las nuevas tecnologías de la información en la arquitectura para la gestión del conocimiento de sistemas que desarrollen estructuras sustentables, desde los procesos de diseño generativos o algorítmicos. Donde se contempla la P.O.O. (programación orientada a objetos) como nuevo lenguaje de expresión para el arquitecto-diseñador en el siglo XXI.Los talleres están pensados para sigan un hilo conductual en el que al mismo tiempo que se enseña se investiga y experimenta. Por primera vez se contará con diversos miembros de SEED como docentes de forma presencial y por video conferencia, logrando de esta forma acercar a los especialistas que se encuentran en Europa a los asistentes de los talleres sin encarecer los costos.+info:http://www.studioseed.net/ adn-methodology/ Los talleres están dirigidos a personas que tengan o quieran conseguir un perfil alto de innovación, creatividad, flexibilidad: profesionales con actividades de dirección, gerencia, proyectistas, investigadores, así como a estudiantes a partir de 5to semestre en adelante. Cada taller abarca perfiles diversos de profesionales, mientras unos están más orientados a directivos y gerencias, otros más a proyectistas. LOS TALLERES:FAB DIG I / ITESM – CEM / Estado de México / 20 hrs / 8 – 11 al de diciembre 2011 (En este taller no se aplican descuentos ni becas)PARAMETRIC GREEN HOUSING / Colegio de Arquitectos del estado de Jalisco (Por confirmar Sede) / Guadalajara / 20h + 5h proyecto / 30 enero 2012 al 4 de diciembre 2012FAB DIG II / ITESM – CEM / Estado de México / 30h + 5h proyecto / 8 a 12 febrero 2012TERCERA REVOLUCIÓN INDUSTRIAL: TIC`s + SOSTENIBILIDAD. Procesos y paradigmas emergentes / Querétaro / 20 hrs / 15 al 18 de febrero 2012INTRODUCCIÓN AL DISEÑO GENERATIVO / UAM-azc / DF / 8hrs / 13, 14 de enero (Costo representativo $650, máximo 40 personas, mínimo 15 personas)INTRODUCCIÓN A: SCRIPTING CON GRASSHOPPER ( Python) Y PLUGINS / Estudio SEED México / Estado de México / 30 hrs / 23, 24, 25 febrero y 1,2, 3 de marzo 2012…; Added by SEED studio at 3:30am on November 24, 2011

Event: Computational Processes in Architecture: rested in specializing in the field of Computational design. The workshop will help understand how Grasshopper facilitates during the design process allowing one to Generate, Automate and Manipulate data. To Register: Mail us at intofablab@gmail.com Workshop Structure: Day 01: 11 February 2019 Introduction to Computational Processes in Architecture Understanding Grasshopper and its relation to Rhino3D Working with fields and Grids (Supplementary readings for Architectural theory) Spatial Concepts using Data Day 02: 12 February 2019 Understanding Data in Grasshopper - LISTS Managing Data in Grasshopper (Supplementary reading) Experimentation on Massing and Architectural Forms Day 03: 13 February 2019 Understanding Data in Grasshopper – Trees Surface Logics (Supplementary reading) Design Exercise and Prototyping Day 04: 14 February 2019 Architectural Skins Day 05: 15 February 2019 MasterClass Project Introduction to various types of Digital Fabrications Prototyping of works during the Workshops Basic knowledge of Rhino 5 is required to be able to take this training. CERTIFICATION: All participants will receive a Workshop certificate from Authorized Rhino Trainer. 3D Printing: Prototyping of works during the Workshops Workshop Tutor: Kavitha M, an Architect and Computational Designer, 3D Printing Specialist is also the co-founder of INTO Design Research, will head the Computational Process in Architecture using Grasshopper workshop. Graduated from Stadelschule Architecture class with Masters in Advanced Architecture Design, has been researching on teaching methodologies on digital tools and their influence on Design thinking.…; Added by kavitha at 11:50pm on January 30, 2019

Topic: How to replace numbers in a list - Python: looking to achieve is to replace every 25 value in a list with 0, 40 with 1, 15 with 2 and 60 with 3. This is what I have so far: listArray = x searchList = y writeList = z for n, i in enumerate(listArray): if i == searchList[0]: listArray[n] = writeList[0] elif i == searchList[1]: listArray[n] = writeList[1] elif i == searchList[2]: listArray[n] = writeList[2] elif i == searchList[3]: listArray[n] = writeList[3] 　 a = listArray Any help appreciated, Cheers, …; Added by Matthew McFetridge at 6:57pm on January 14, 2016

Blog Post: WORKSHOP en Argentina. Grasshopper - RhinoNest - Brazil - RhinoCAM: WORKSHOP

Contenidos:

1. Modelado Avanzado y sus Tecnicas. Aplanado y Desarrollo de Superficies.Anidado y distribución…; Added by Facundo Miri at 10:52am on February 11, 2010

Event: DATA FLOW // Computational design workshop at ENCODE studio ,EGYPT: ation production and consumption that represent our physical world in numbers and complex networks. The advent of computational systems has not only helped in developing data production but also in transmitting data between different disciplines including architecture through fields of numbers/codes. Historically, numbers and proportions played a vital role in architectural production, now; the complex flow of data is opening unexpected territories for architects. Data Flow is an advanced computational design workshop that focuses on capturing, processing and utilizing real time data from the surrounding environment by means of physical computing and parametric design tools, enabling the participants to develop informed design solutions that adapt to the environment. The workshop knowledge objective is to reconsider abstract data as a design opportunity by developing the quantitative flow of data as a qualitative design approach. /// Application To apply, please follow this link to fill the application form https://docs.google.com/forms/d/1xzKn-cZzfvu24ktTNP1ElGBAufdryfLNCXvpheucrS8/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/#!dataflow/cslb…; Added by Ebtissam at 7:59am on August 16, 2014