Hi @Mathiassn,
could you provide a citation for what you said here about the difference between DA and sDA?
Best,
Federico
Hi @Mathiassn,
could you provide a citation for what you said here about the difference between DA and sDA?
Best,
Federico
Unfortunately a lot of people cheat with their LEED daylight points unknowingly that the sDA they document is actually just a DA.
In the sDA, every hour where more than 2% of the simulation points (per zone) receive >1000 lux from direct sun, that zone should be simulated as if the blinds were down. This causes rooms close to the facade to trigger blinds that will affect zones deeper into the building volume.
It’s described in LM-83, which the official LEED documentation is also referring to.
Find it here:
https://www.techstreet.com/standards/ies-lm-83-12?product_id=1853773
It can be discussed whether the LM 83 study was tested on enough cases before it became industry standard because of LEED and LEED has also been criticized for it.
Christoph Reinhardt raises concerns about if the 1000 lux threshold is too low here: http://journals.sagepub.com/doi/abs/10.1177/1477153515587613?journalCode=lrtd
Remember that normal daysim calculated ASE may cause too many points to receive “direct” sun as that is calculated by a few sky patches instead of the real sun position. The HB (and also DIVA) ASE calculations use real sun position. Read more here:
In recent LEED documentation it was also opened a possibility to have ASE above 20% instead of 10% if shade control is well implemented (still doesn’t change blinds schedule and the sDA):
All the best,
Mathias Sønderskov Nielsen
This is a nice and concise description of the background and drawbacks of ASE. ASE has it’s basis in the PIER daylighting study that was led by Lisa Heschong from the Heschong Mahone Group. The full 300+ page report can be found here: http://www.energy.ca.gov/2012publications/CEC-500-2012-053/CEC-500-2012-053.pdf
Thank you Devang, I’ll work on it according to your suggestion.
Thank you Mathiassn, for highlighting and clarifying it.
Thanks very much @Mathiassn,
indeed I need to purchase the IES document as soon as possible.
In my understanding DA and sDA differs because in the DA you need just to set an illuminance threshold, while in the sDA you need the illuminance and also the percentage of hours thresholds.
Just to be clear, the difference you are saying here is that the DA is a calculation as the ASE, that you do without shadings, while in the sDA, as per LEED, you need to include shadings. Is this that most people do and they are wrong?
Thanks for sharing your knowledge!
Best,
Federico
Hi Federico,
Similarities and difference on LEED sDA and a regular DA
are simulations for every working hour of the year, and in the end, each point will get a percentage of the working hours that it is well lit (usually x % of the office hours are above 300 lux). When every point in a simulation grid is calculated you can check how many of them are well lit in more than half of the office ours. This will show an area of your floor that is described as well lit. This is same method in DA and sDA.
So both matrices usually count how much of the floor has 300 lux in more than half of the working hours. So far, so good:
spatial Daylight Autonomy (sDA), or as in LEED sDA(300lux,50% of time)
and
Daylight Autonomy (DA), also usually 300lux for 50% of the time.
spatial Daylight Autonomy
However, the sDA is much more complex than that. The LM 83 states that for each room, one has to run the ASE and check every hour if there is more than 2% of the floor that receives direct light (0 bounces) in more than 2% of the simulation points.
After that, two other simulations are done as DA with x bounces (i usually do 3 to 7 depending on complexity and time). One of them is run without any glare curtains and the other is done with glare curtains*.
Then the ASE creates a schedule, hour for hour, to describe for each hour if the sDA should look at the DA_blinds or the DA_noblinds.
In the end the sDA is a combination of the DA_blinds and the DA_noblinds, controlled by the ASE. The resulting sDA(300,50%) is always than a DA(300,50%)!
*blinds: There are standard roller blinds configurations, but one can also use trans materials. If an external automatic shading is used, one can also input the schedule for this.
This is highly theoretical, and there exists many public or private workflows to this!
Suggestions on workflows:
Hope this cleared up a little, and probably also confused a lot.
Mathias Sønderskov Nielsen
In the sDA output, it is already set as default sDA(300lux, 50% of time). I see where you are able to change the lux threshold, but is there a place where I can change the % of time? Thanks!
Try _targetDA_
input.
hi @Mathiassn
I’m very interested in using Cpython, pandas, numpy and dask to calculate annual metrics on heavy cases more efficiently. I wonder if it is ok for you to share the way you did so with Mahmoud’s GH_CPython?
Best,
Olivier
Hi @OlivierDambron !
I don’t have access to that script right now, but I have a CPython/Numpy/Pandas examples in grasshopper for peak radiation here:
you may be able to to change it to do your annual statistics. (Numpy is quite easy to select all rows above a certain value (lets say 300 lux) and do a count on that. it runs really fast.)
hi @Mathiassn
I kept it simple with GH CPython and pandas to calculate DA of big files with chunks.
DA_Pandas.gh (8.8 KB)
Hope this helps
hi. you mean that when we optimize to gain sda (300,50%) in honeybee, the result is not the one which is needed for leed?
If your simulation is not taking account for blinds in hours when more than 2% of the simulation points receive more than 1000lux (in an additional “-ad 0” simulation), then that’s exactly what I mean!
It’s all well described in the LM-83 document that the LEED guide refers to. It can be bought for $5 I think.
Hey! Thanks for your explanation, but I am a bit confused with sDA calculation. Can you explain what we should do step by step? Actually I don’t know how exactly I should define the blinds and how the result of sDA with and without blind should be combined
Just to follow up on my own old comment - the -ab 0 simulation on daysim is quite off, as you will get too many points in direct sun (the “sun” is larger in daysim. 2-3 closest sky patches will irradiate).
The LBT and HB[+] approaches should have a precise sun, otherwise use the ASE component to check these points.
Hello! I had some problem similar to this topic and would appreciate some feedback!
https://discourse.ladybug.tools/t/ase-and-sda-calculations-null-results/13564
Hello! I am having a problem similar to this and would love some feedback!
https://discourse.ladybug.tools/t/ase-and-sda-calculations-null-results/13564