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…
hole new realm?
This Parametric Design Workshop will provide you with the necessary knowledge and ability to use Grasshopper, a free visual programming plugin in Rhinoceros. The workshop will also include a hands on parametric project.
If you already know Grasshopper and would like to uplift your parametric knowledge, then you can choose option 2.
Option 1: General Workshop for Beginners - 16 hours: Start 04.03.2017
Option 2: Intensive Workshop for Intermediates - 8 hours: Start 18.03.2017 Kindly reserve your Tickets here: https://www.eventbrite.de/e/parametric-design-workshop-rhino-grasshopper-fablab-berlin-tickets-41814390969…
ole new realm?
This Parametric Design Workshop will provide you with the necessary knowledge and ability to use Grasshopper, a free visual programming plugin in Rhinoceros. The workshop will also include a hands on parametric project.
If you already know Grasshopper and would like to uplift your parametric knowledge, then you can choose option 2.
Option 1: General Workshop for Beginners - 16 hours: Start 04.03.2017
Option 2: Intensive Workshop for Intermediates - 8 hours: Start 18.03.2017Kindly reserve your Tickets here:
https://billetto.eu/en/e/parametric-design-workshop-rhino-grasshopper-fablab-berlin-tickets-271310https://www.eventbrite.de/e/parametric-design-workshop-rhino-grasshopper-fablab-berlin-tickets-44292214205…
hole new realm?
This Parametric Design Workshop will provide you with the necessary knowledge and ability to use Grasshopper, a free visual programming plugin in Rhinoceros. The workshop will also include a hands on parametric project.
If you already know Grasshopper and would like to uplift your parametric knowledge, then you can choose option 2.
Option 1: General Workshop for Beginners - 16 hours: Start 17.11.2018
Option 2: Intensive Workshop for Intermediates - 8 hours: Start 24.11.2018
Kindly reserve your Tickets here:
https://billetto.eu/en/e/parametric-design-workshop-rhino-grasshopper-lava-berlin-tickets-309905…
control point edit from a sphere.
Since it is the first time I try Exoskeleton, I checked the lists of input geometry in the exemple and got the same in my definition, but the component turned red, giving this error message:
1. Solution exception:Index was outside the bounds of the array.
For the Radius at Start and End values, I tried using the same principle applied inside the Exo-vase exemple, which links the radius to the Z values, remapping them from .3 to 8.
Is there the problem or elsewhere?
Could someone give me a hint about what I am missing ? Many thanks!!!
Below a screenshot., and I attach the definition.
…
ace Syntax." eCAADe 2013 18 (2013): 357.
http://www.sss9.or.kr/paperpdf/mmd/sss9_2013_ref048_p.pdf
The measure Entropy is newer. I hereby explain it (from my PhD dissertation):
Entropy values, as described in (Hillier & Hanson, The Social Logic of Space, 1984) and specified in (Turner A. , “Depthmap: A Program to Perform Visibility Graph Analysis, 2007), intuitively describe the difficulty of getting to other spaces from a certain space. In other words, the higher the entropy value, the more difficult it is to reach other spaces from that space and vice-versa. We compute the spatial entropy of the node as using the point depth set:
(11)
“The term is the maximum depth from vertex and is the frequency of point depth *d* from the vertex” (ibid). Technically, we compute it using the function below, which itself uses some outputs and by-products from previous calculations:
Algorithm 4: Entropy Computation
Given the graph (adjacency lists), Depths as List of List of integer, DepthMap as Dictionary of integer
Initialize Entropies as List(double)
For node as integer in range [0, |V|)
integer How_Many_of_D=0
double S_node=0
For depth as integer in range [1, Depths[node].Max()]
How_Many_of_D=DepthMap.Branch[(node,depth)].Count
double frequency= How_Many_of_D/|V|
S_node = S_node - frequency * Math.Log(frequency, 2)
Next
Entropies [node] = S_node
Next
…
where originally where the polysurface edges (pink in the attached picture) because they are intersecting with the cells as well.
who can help me with an idea how i can prevent from getting the intersection with those edges?
i have used a simple form for demonstration but my real polysurface has alot of sharp edges because initially it was created from mesh.
maybe i can manipulate the initial mesh somehow?
thank a lot for all the rightchess people
…
ate):
1) go to: https://github.com/mostaphaRoudsari/ladybug/2) click on "clone or download"/Download ZIP
3) Download and extract the folder wherever you want on your machine
4) Open the folder and open "userObjects"
5) you'll see something like this
6) open Grasshopper/File/Special Folders/User Object Folder
7) Select and delete all Ladybug components
8) Drag all components of the point 5) into the canvas of Grasshopper wherever you want or inside the "User Object Folder"... it is the same thing.
And it should be fine.
Let me know if it works.
Best
Antonello
…
will cover one of the latest and greatest topics from recent development. Although the webinars will be happening each Thursday around 12:30 Eastern Standard Time, registration will give you indefinite access to recordings of the webinars so that you can reference them when the time comes to apply them on your work!
The grand list of workshops is as follows:
1 - High-Quality Graphics, Visualizations and Animations with LadybugMarch 9th, 12:30 PM EST
2 - Brute Force Parametric Energy Modeling and Sensitivity Analyses in Early DesignMarch 23rd, 12:30 PM EST
3 - Wintertime Indoor Thermal Comfort Visualization - Eliminating Perimeter Heat with High-Performing FacadesMarch 30th, 12:30 PM EST
4 - Summertime Indoor Thermal Comfort Visualization - Setpoints and Blinds Up with Right Shade + ControlsApril 6th, 12:30 PM EST
5 - Condensation Modeling with HoneybeeApril 20th, 12:30 PM EST
6 - Urban Heat Island Modeling with DragonflyApril 27th, 12:30 PM EST
7 - Expanding Your Climate Data Sources with DragonflyMay 4th, 12:30 PM EST
8 - CFD Simulation with OpenFOAM, Rhino/Grasshopper and Butterfly (Advanced)May 11th, 12:30 PM EST
This series will have a similar arc as the one in the Fall, starting with basic topics and moving to advanced ones as we progress down the list. The first one will be accessible to all users regardless of prior experience and all of the workshops listed here will cover topics for which there is currently no tutorial video content. Hope that you can attend!…
s para resolver problemas que hoy se presentan en el diseño y fabricación digital de formas complejas, que en conjunto, son las tendencias e instrucciones mas utilizadas por las oficinas de arquitectura del mundo.
Tomando como plataforma Rhinoceros de McNeel Associates, se optimiza el diseño y fabricación usando Grasshopper, RhinoNest y RhinoCAM.
Se realizará en Lima, Perú el 12 y 13 Setiembre, de 8:00 AM a 6:00 PM., con un total de 16 horas.
Cupo máximo: 20 alumnos.
Inversión. (no incluye impuestos)
S/.900.00 Incluye Licencia Rhino
S/.750.00 NO incluye Licencia Rhino
Ambas incluyen certificado de McNeel Miami.
Instructor:
Andres Gonzalez, CEO McNeel Miami, desarrollador desde 1980. www.rhino3d.com
Organización
McNeel Miami, Pablo C. Herrera,
Pedro Arteaga y MGP Nuevas Artes www.mgp-peru.com
Contacto en Lima, Perú
Claudia Aller / contacto@mgp-peru.com
Contacto en Miami, USA
Jackie Nasser / jackie@mcneel.com…