Illuminants like "A" or "D65" are spectral power distributions that are defined (as per CIE S 014-2/E:2006) for wavelengths ranging from 300nm to 830nm.
For example, CIE Illuminants A,B and C are defined as :
And D65 is defined as :
For illuminance and luminance calculations, the radiation from such illuminants are converted to Lux or Candela/sq.m by weighing them against the Photopic Luminous Efficiency function (also called as V-lambda):
The equation (1) used for this purpose is
Where y corresponds to the V-lambda function and J corresponds to an illuminant like "D65" or "A".
So, why is all this relevant? Honeybee/Radiance also use a similar method for calculation of luminous flux, illuminance and luminance. However, in the case of Honeybee/Radiance the lighting calculations are limited only 3 (R,G,B) channels (and not the 300nm to 830nm). So the equation (1) from above becomes something like:
F = 47.4*R+120*G+11.6*B
Where (R,G,B) refers to the spectral power of the radiation and the numbers (47.4,120,11.6) relate to the V-lambda function. So, the bottom line is that an accurate representation of CIE illuminants is not possible inside Radiance/Honeybee as the spectral information is severely restricted. Some studies have proposed using Radiance with more than 3 channels. For example: http://link.springer.com/article/10.3758%2FBRM.40.1.304 . However, such attempts have been limited. What is possible with Radiance/Honeybee is to create a fairly accurate representation of brightness of the sky. Although, I can explain that too, I would suggest that you try this link first: http://www.bozzograo.net/radiance/index.php?module=FAQ&func=dis...
By the way, which CIE document are you referring to for CIE sky definitions ?…
would require to use archsim in grasshopper but it seems to be giving me a ton of errors. Some negligible but others are quite adamant.
Anyone know how to use archsim and is willing to help out? I've attached the 3dm and gh, I've been pulling my hair out for the past three days figuring everything out!
SCHOOLS.3dm
SCHOOLS.gh
If need be, I'll gladly talk to anyone who can help me with my current predicament. This is the error i get on one of the buildings
1. Program Version,EnergyPlus, Version 8.2.0-0ba4142206, YMD=2015.10.25 21:32,IDD_Version 8.2.0
** Warning ** CheckUsedConstructions: There are 1 nominally unused constructions in input. ** ~~~ ** Each Unused construction is shown. ************* Construction=DEFAULTCONSTRUCTION_FLIPPED ** Warning ** GetPurchasedAir: ZoneHVAC:IdealLoadsAirSystem="UNNAMEDZONE_0 IDEAL LOADS AIR missing data ** ~~~ ** UNNAMEDZONE_0_OUTDOORINLET does not appear in an OutdoorAir:NodeList or as an OutdoorAir:Node. ** ~~~ ** Adding OutdoorAir:Node=UNNAMEDZONE_0_OUTDOORINLET ************* Testing Individual Branch Integrity ************* All Branches passed integrity testing ************* Testing Individual Supply Air Path Integrity ************* All Supply Air Paths passed integrity testing ************* Testing Individual Return Air Path Integrity ************* All Return Air Paths passed integrity testing ************* No node connection errors were found. ************* Beginning Simulation ************* Simulation Error Summary ************* ** Warning ** The following schedule names are "Unused Schedules". These schedules are in the idf ** ~~~ ** file but are never obtained by the simulation and therefore are NOT used. ************* Schedule:Year or Schedule:Compact or Schedule:File or Schedule:Constant=OFF ** Warning ** The following week schedule names are "Unused Schedules". These schedules are in the idf ** ~~~ ** file but are never obtained by the simulation and therefore are NOT used. ************* Schedule:Week:Daily or Schedule:Week:Compact=OFF_wk_ ** Warning ** The following day schedule names are "Unused Schedules". These schedules are in the idf ** ~~~ ** file but are never obtained by the simulation and therefore are NOT used. ************* Schedule:Day:Hourly or Schedule:Day:Interval or Schedule:Day:List=OFF_dy_ ************* ************* ===== Final Error Summary ===== ************* The following error categories occurred. Consider correcting or noting. ************* Nominally Unused Constructions ************* ..The nominally unused constructions warning is provided to alert you to potential conditions that can cause ************* ..extra time during simulation. Each construction is calculated by the algorithm indicated in the HeatBalanceAlgorithm ************* ..object. You may remove the constructions indicated (when you use the DisplayExtraWarnings option). ************* ************* EnergyPlus Warmup Error Summary. During Warmup: 0 Warning; 0 Severe Errors. ************* EnergyPlus Sizing Error Summary. During Sizing: 0 Warning; 0 Severe Errors. ************* EnergyPlus Completed Successfully-- 5 Warning; 0 Severe Errors; Elapsed Time=00hr 00min 5.00sec
Let me know if you can help!
Kind regards,
Kevin…
would require to use archsim in grasshopper but it seems to be giving me a ton of errors. Some negligible but others are quite adamant.
Anyone know how to use archsim and is willing to help out? I've attached the 3dm and gh, I've been pulling my hair out for the past three days figuring everything out!
SCHOOLS.3dm
SCHOOLS.gh
If need be, I'll gladly talk to anyone who can help me with my current predicament. This is the error i get on one of the buildings
1. Program Version,EnergyPlus, Version 8.2.0-0ba4142206, YMD=2015.10.25 21:32,IDD_Version 8.2.0
** Warning ** CheckUsedConstructions: There are 1 nominally unused constructions in input.** ~~~ ** Each Unused construction is shown.************* Construction=DEFAULTCONSTRUCTION_FLIPPED** Warning ** GetPurchasedAir: ZoneHVAC:IdealLoadsAirSystem="UNNAMEDZONE_0 IDEAL LOADS AIR missing data** ~~~ ** UNNAMEDZONE_0_OUTDOORINLET does not appear in an OutdoorAir:NodeList or as an OutdoorAir:Node.** ~~~ ** Adding OutdoorAir:Node=UNNAMEDZONE_0_OUTDOORINLET************* Testing Individual Branch Integrity************* All Branches passed integrity testing************* Testing Individual Supply Air Path Integrity************* All Supply Air Paths passed integrity testing************* Testing Individual Return Air Path Integrity************* All Return Air Paths passed integrity testing************* No node connection errors were found.************* Beginning Simulation************* Simulation Error Summary *************** Warning ** The following schedule names are "Unused Schedules". These schedules are in the idf** ~~~ ** file but are never obtained by the simulation and therefore are NOT used.************* Schedule:Year or Schedule:Compact or Schedule:File or Schedule:Constant=OFF** Warning ** The following week schedule names are "Unused Schedules". These schedules are in the idf** ~~~ ** file but are never obtained by the simulation and therefore are NOT used.************* Schedule:Week:Daily or Schedule:Week:Compact=OFF_wk_** Warning ** The following day schedule names are "Unused Schedules". These schedules are in the idf** ~~~ ** file but are never obtained by the simulation and therefore are NOT used.************* Schedule:Day:Hourly or Schedule:Day:Interval or Schedule:Day:List=OFF_dy_************************** ===== Final Error Summary =====************* The following error categories occurred. Consider correcting or noting.************* Nominally Unused Constructions************* ..The nominally unused constructions warning is provided to alert you to potential conditions that can cause************* ..extra time during simulation. Each construction is calculated by the algorithm indicated in the HeatBalanceAlgorithm************* ..object. You may remove the constructions indicated (when you use the DisplayExtraWarnings option).************************** EnergyPlus Warmup Error Summary. During Warmup: 0 Warning; 0 Severe Errors.************* EnergyPlus Sizing Error Summary. During Sizing: 0 Warning; 0 Severe Errors.************* EnergyPlus Completed Successfully-- 5 Warning; 0 Severe Errors; Elapsed Time=00hr 00min 5.00sec
Let me know if you can help!
Kind regards,
Kevin…
l coarse mesh
Subdividing this mesh into strips of thin quads
Relaxing/Planarizing this mesh
Splitting and Unrolling
In this post I deal with the first 2 of these stages.
You can download the example definition here:
developable_strips_tutorial.gh
Drawing the initial mesh
To begin with we need a simple quad mesh. This can be modelled manually in Rhino, and only needs to use enough quads to give the topology and very rough form. No need to worry too much about the exact geometry or dimensions at this point, as we will refine and alter it as we go.
One very important thing that we do need to bear in mind though is that all internal vertices must have even valence (I covered this a bit in the earlier post here).
So for example, this is bad:
(because the highlighted vertex is surrounded by 5 faces)
While this is good (and can still be relaxed to the same shape):
(the top and bottom vertices have valence 8, and the vertices between the arms have valence 4)
With a little practice it should be possible to convert any mesh into one that meets this condition.
The reasons why we need this condition should become more clear in the later steps.
First subdivision
This is where we choose how many strips we want our final model to have, by applying a few rounds of subdivision using the Refine component (you could also use Weaverbird here):
Sorting the face directions
While quad meshes do not carry the same information about u/v directions as a NURBS surface, the individual faces do have a sort of direction given by their vertex ordering. However, these face directions are usually not consistently arranged, especially after subdivision.
The Kangaroo MeshDirection component attempts* to orient all the faces in a mesh so that they match with their neighbours.
For example, before sorting, if we draw a line from the midpoint of the first edge of each face to the midpt of its opposite edge, we might get something like this:
Whereas after sorting, we should get something like this:
*note that I say it attempts to orient the faces consistently. In some cases no valid solution exists, for instance if 3 or 5 faces meet around a vertex, hence the requirement mentioned at the start for even valence vertices.
Directional Subdivision
Now that we have consistent face directions across the mesh, we can apply further subdivision, but this time in one direction only. So we go from roughly square quads to thin rectangles. The idea is that as we apply higher levels of this directional subdivision, the final relaxed result goes towards something semi-discrete. A NURBS surface is fully continuous, and a mesh is fully discrete (made up of separate facets), while this strip model will be smooth in one direction and faceted in the other.
Go to part 2 for the next step of the process
…
y from the Rhino model and having the absorption coefficients of the materials that are entered into Pachyderm, why is it not possible to generate a reverberation time diagram, without the need to start any analysis?
MAPPING METHOD: When for example the mapping of the Strenght Index (G) is generated through the "create map" option, succesively I can´t generate any other energy criterion map, but I have to redo the simulation.
Is it a limitation of the software or am I wrong something?
MAPPING METHOD: I kindly wanted to ask what is the difference between minimum and detailed convergence and why the number of reflections order it takes into account for the simulation is not specified. The mapping method take care only of the Raytracing Method or the Image Source too?
MAPPING METHOD: Why is the mapping value that can be exported to Rhino not generated for all the calculation raster points, but maximal only for 100 values?
MAPPING METHOD: This method hasn't been implemented in Grasshopper yet, has it?
RAYTRACING METHOD (Pach:RT): I did a raytracing through the components of GH, using only the Pach_RT, and I had these curious results in terms of time:
RaysCount: 15.000, IS_Order:1 = 5min
RaysCount: 15.000, IS_Order:2 = 12min
RaysCount: 15.000, IS_Order:3 = 3min
RaysCount: 15.000, IS_Order:4 = 8min
RaysCount: 15.000, IS_Order:5 = 3min
Why a raytracing with only 2 order, is more and more extensive than the 3/4 and 5 order?
ANALYSIS RESULT: Would there be a way to export all the results of a simulation, as is done via Odeon, to a .txt list?
I apologize in advance for asking so many questions, I hope you can find the time to answer,
Yours sincerely from Müller-BBM…
ly this is a Rhino.Python problem and not a Grasshopper issue, but it could apply to both!
I was trying to take a simple example of moving a ball around and see how it could be animated through Rhino.Python. The code works great in wire frame with now memory issues at all. However, when I switch the view to Shaded or Rendered, things go south pretty quickly. The RAM usage of Rhino which was steady around 350mb (ish) now grows every frame after a minute or so, it is in the GB's and never drops even after the script has stopped.What gives? Clearly this must be possible because Bongo does something similar when it does animations. Check out my code below and I would love to hear your thoughts.
import time
import rhinoscriptsyntax as rs
import Rhino
height = 100
width = 100
x = 0
y = 0
xspeed = .1
yspeed = .3
start_time = time.time()
end_time = 60
run_time = 0
sphere = rs.AddSphere((x,y,0), 5)
while run_time < end_time:
x = x + xspeed
y = y + yspeed
if x > width/2 or x < -width/2:
xspeed = xspeed * -1
if y > height/2 or y < -height/2:
yspeed = yspeed * -1
rs.MoveObject(sphere, (xspeed, yspeed, 0))
Rhino.RhinoApp.Wait()
run_time = time.time() - start_time…
..
The problem is that using the index, adding a activies, the next activies change the index and then the link is wrong.
example: I need to connect to hotel function with house function, therefore i have 0 and 4 index in my panel.. So i have to extract the index linked to the alphabetical value to be able to draw lines between the points associated to the names of activities. Now if i add a new string between the values, the house activity hasn't the original index 4 but the new index 5. So the link will be not created between hotel and house but hotel e new activity in the index 4.
…
tema della modellazione parametrica con Grasshopper. Questa plug-in di Rhino consente di progettare, confrontandosi con un contesto evolutivo, attraverso la comprensione e l'utilizzo di parametri e componenti che influenzano la rappresentazione e la rendono dinamica componendo algoritmi. Nel corso verranno introdotte le nozioni base di Grasshopper approfondendo le metodologie della progettazione parametrica e le tecniche di modellazione algoritmica per la generazione di forme complesse.
Le informazioni teoriche saranno fornite in maniera accelerata ma organica e contestuale agli argomenti elencati. Per massimizzare i risultati, le lezioni saranno accompagnate da piccole esercitazioni pratiche.Argomenti trattati:- Introduzione alla progettazione parametrica: teoria, esempi, casi studio- Grasshopper: concetti base, logica algoritmica, interfaccia grafica- Nozioni fondamentali: componenti, connessioni, data flow- Funzioni matematiche e logiche, serie, gestione dei dati- Analisi e definizione di curve e superfici- Definizione di griglie e pattern complessi- Trasformazioni geometriche, paneling- Attrattori, image sampler- Data tree: gestione di dati complessiStrutturaIl corso ha una durata di 16 ore programmate nell'arco di 2 giornate con i seguenti orari: i giorni 10/11 e 11/11 dalle 10,00 alle 19,00 con pausa pranzo di un'ora.
PrerequisitiPer affrontare il corso è richiesta una conoscenza di base del software Rhino attraverso esperienze teoriche e pratiche. I partecipanti dovranno venire muniti di proprio laptop e con software Rhinoceros 5 o Rhinocero 4 perfettamente funzionanti.Alla fine del corso, verrà rilasciato l’attestato di partecipazione ad un corso qualificato certificato dalla McNeel, valido anche per l’ottenimento di crediti formativi universitari.
…
e following inputs:
| title: The title of the new Rhino view.
| projection: A basic projection type.
| position: A position.
| floating: true if the view floats; false if it is docked.
| Returns: The newly constructed Rhino view; or null on error.
However when I try to use it python gives an error:
Add() takes exactly 5 arguments (4 given)
I've figured out that it wants me to give it also the "self" argument:
Add(self: ViewTable, title: str, projection: DefinedViewportProjection, position: Rectangle, floating: bool)
However I have no idea what to give as a first argument.
Here is the code if it helps:
import Rhino.DocObjects.Tables as tables
import Rhino
import System
tables.ViewTable.Add("Testi",Rhino.Display.DefinedViewportProjection.Perspective,
System.Drawing.Rectangle(0,0,100, 100),True)
Thanks from your help in advance!
-Matti Pirinen…
Added by Matti Pirinen at 3:08pm on December 8, 2015
ion of both Ladybug and Honeybee. Notable among the new components are 51 new Honeybee components for setting up and running energy simulations and 15 new Ladybug components for running detailed comfort analyses. We are also happy to announce the start of comprehensive tutorial series on how to use the components and the first one on getting started with Ladybug can be found here:
https://www.youtube.com/playlist?list=PLruLh1AdY-Sj_XGz3kzHUoWmpWDXNep1O
A second one on how to use the new Ladybug comfort components can be found here:
https://www.youtube.com/playlist?list=PLruLh1AdY-Sho45_D4BV1HKcIz7oVmZ8v
Here is a short list highlighting some of the capabilities of this current Honeybee release:
1) Run EnergyPlus and OpenStudio Simulations - A couple of components to export your HBZones into IDF or OSM files and run energy simulations right from the grasshopper window! Also included are several components for adjusting the parameters of the simulations and requesting a wide range of possible outputs.
2) Assign EnergyPlus Constructions - A set of components that allow you to assign constructions from the OpenStudio library to your Honeybee objects. This also includes components for searching through the OpenStudio construction/material library and components to create your own constructions and materials.
3) Assign EnergyPlus Schedules and Loads - A set of components for assigning schedules and Loads from the Openstudio library to your Honeybee zones. This includes the ability to auto-assign these based on your program or to tweak individual values. You can even create your own schedules from a stream of 8760 values with the new “Create CSV Schedule” component. Lastly, there is a component for converting any E+ schedule to 8760 values, which you can then visualize with the standard Ladybug components
4) Assign HVAC Systems - A set of components for assigning some basic ASHRAE HVAC systems that can be run with the Export to OpenStudio component. You can even adjust the parameters of these systems right in Grasshopper.
Note: The ASHRAE systems are only available for OpenStudio and can’t be used with Honeybee’s EnergyPlus component. Also, only ideal air, VAV and PTHP systems are currently available but more will be on their way soon!
5) Import And Visualize EnergyPlus Results - A set of components to import numerical EnergyPlus simulation results back into grasshopper such that they can be visualized with any of the standard Ladybug components (ie. the 3D chart or Psychrometric chart). Importers are made for zone-level results as well as surface results and surfaces results can be easily separated based on surface type. This also means that E+ results can be analyzed with the new Ladybug comfort calculator components and used in shade or natural ventilation studies. Lastly, there are a set of components for coloring zone/surface geometry with EnergyPlus results and for coloring the shades around zones with shade desirability.
6) Increased Radiance and Daysim Capabilities - Several updates have also been made to the existing Radiance and Daysim components including parallel Radiance Image-based analysis.
7) Visualize HBObject Attributes - A few components have been added to assist with setting up honeybee objects and ensuing the the correct properties have been assigned. These include components to separate surfaces based on boundary condition and components to label surfaces and zones with virtually any of their EnergyPlus or Radiance attributes.
8) WIP Grizzly Bear gbxml Exporter - Lastly, the release includes an WIP version of the Grizzly Bear gbXML exporter, which will continue to be developed over the next few months.
And here’s a list of the new Ladybug capabilities:
1) Comfort Models - Three comfort models that have been translated to python for your use in GH: PMV, Adaptive, and Outdoor (UTCI). Each of these models has a “Comfort Calculator” component for which you can input parameters like temperature and wind speed to get out comfort metrics. These can be used in conjunction with EPW data or EnergyPlus results to calculate comfort for every hour of the year.
2) Ladybug Psychrometric Chart - A new interactive psychrometric chart that was made possible thanks to the releasing of the Berkely Center for the Built Environment Comfort Tool Code (https://github.com/CenterForTheBuiltEnvironment/comfort-tool). The new psychrometric chart allows you to move the comfort polygon around based on PMV comfort metrics, plot EPW or EnergyPlus results on the psych chart, and see how many hours are made comfortable in each case. The component also allows you to plot polygons representing passive building strategies (like internal heat gain or evaporative cooling), which will adjust dynamically with the comfort polygon and are based on the strategies included in Climate Consultant.
3) Solar Adjusted MRT and Outdoor Shade Evaluator - A component has been added to allow you to account for shortwave solar radiation in comfort studies by adjusting Mean Radiant Temperature. This adjusted MRT can then be factored into outdoor comfort studies and used with an new Ladybug Comfort Shade Benefit Evaluator to design outdoor shades and awnings.
4) Wind Speed - Two new components for visualizing wind profile curves and calculating wind speed at particular heights. These allow users to translate EPW wind speed from the meteorological station to the terrain type and height above ground for their site. They will also help inform the CFD simulations that will be coming in later releases.
5) Sky Color Visualizer - A component has been added that allows you to visualize a clear sky for any hour of the year in order to get a sense of the sky qualities and understand light conditions in periods before or after sunset.
Ready to Start?
Here is what you will need to do:
Download Honeybee and Ladybug from the same link here. Make sure that you remove any old version of Ladybug and Honeybee if you have one, as mentioned on the Ladybug group page.
You will also need to install RADIANCE, DAYSIM and ENERGYPLUS on your system. We already sent a video about how to get RADIANCE and Daysim installed (link). You can download EnergyPlus 8.1 for Windows from the DOE website (http://apps1.eere.energy.gov/buildings/energyplus/?utm_source=EnergyPlus&utm_medium=redirect&utm_campaign=EnergyPlus%2Bredirect%2B1).
“EnergyPlus is a whole building energy simulation program that engineers, architects, and researchers use to model energy and water use in buildings.”
“OpenStudio is a cross-platform (Windows, Mac, and Linux) collection of software tools to support whole building energy modeling using EnergyPlus and advanced daylight analysis using Radiance.”
Make sure that you install ENERGYPLUS in a folder with no spaces in the file path (e.g. “C:\Program Files” has a space between “Program” and “Files”). A good option for each is C:\EnergyPlusV8-1-0, which is usually the default locations when you run the downloaded installer.
New Example Files!
We have put together a large number of new updated example files and you should use these to get yourself started. You can download them from the link on the group page.
New Developers:
Since the last release, we have had several new members join the Ladybug + Honeybee developer team:
Chien Si Harriman - Chien Si has contributed a large amount of code and new components in the OpenStudio workflow including components to add ASHRAE HVAC systems into your energy models and adjust their parameters. He is also the author of the Grizzly Bear gbxml exporter and will be continuing work on this in the following months.
Trygve Wastvedt - Trygve has contributed a core set of functions that were used to make the new Ladybug Colored Sky Visualizer and have also helped sync the Ladybug Sunpath to give sun positions for the current year of 2014
Abraham Yezioro - Abraham has contributed an awesome new bioclimatic chart for comfort analyses, which, despite its presence in the WIP tab, is nearly complete!
Djordje Spasic - Djordje has contributed a number of core functions that were used to make the new Ladybug Wind Speed Calculator and Wind Profile Visualizer components and will be assisting with workflows to process CFD results in the future. He also has some more outdoor comfort metrics in the works.
Andrew Heumann - Andrew contributed an endlessly useful list item selector, which can adjust based on the input list, and has multiple applications throughout Ladybug and Honeybee. One of the best is for selecting zone-level programs after selecting an overall building program.
Alex Jacobson - Alex also assisted with the coding of the wind speed components.
And, as always, a special thanks goes to all of our awesome users who tested the new components through their several iterations. Special thanks goes to Daniel, Michal, Francisco, and Agus for their continuous support. Thanks again for all the support, great suggestions and comments. We really cannot thank you enough.
Enjoy!,
Ladybug + Honeybee Development Team
PS: If you want to be updated about the news about Ladybug and Honeybee like Ladybug’s Facebook page (https://www.facebook.com/LadyBugforGrasshopper) or follow ladybug’s twitter account (@ladybug_tool).
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