Monte Carlo Analysis
Monte Carlo Analysis
Dear Andreas, Michael, GreenDelta,
Congratulations on the new version of openLCA 1.6 and also updating the Monte Carlo feature. I can now confirm that the negative results previously encountered with openLCA 1.3/1.4/1.5 are no longer there.
I do have twp separate questions and they pertain to the sampling approach used in openLCA for its MC function:
(1) Can the sampling approach in openLCA be summarized as "partially independent" sampling as is clarified in Suh and Qin 2017? (https://link.springer.com/article/10.10 ... 0171287x)
(2) Is it possible to isolate sampling only for the foreground processes? (i.e. turning off all upstream sampling)
All the best,
Michael
Congratulations on the new version of openLCA 1.6 and also updating the Monte Carlo feature. I can now confirm that the negative results previously encountered with openLCA 1.3/1.4/1.5 are no longer there.
I do have twp separate questions and they pertain to the sampling approach used in openLCA for its MC function:
(1) Can the sampling approach in openLCA be summarized as "partially independent" sampling as is clarified in Suh and Qin 2017? (https://link.springer.com/article/10.10 ... 0171287x)
(2) Is it possible to isolate sampling only for the foreground processes? (i.e. turning off all upstream sampling)
All the best,
Michael
Re: Monte Carlo Analysis
Hi Michael,
thank you for the congrats!
To your questions:
> 1) We perform the simulation in openLCA in a way that would be classified as "fully dependent" in the article you mention: all uncertain data is drawn at the same time, and then a calculation is started. If a process appears in several "branches" of a supply chain several times, uncertain data is drawn for this process only once and then used in the calculation.
> 2)
Best wishes,
Andreas
thank you for the congrats!
To your questions:
> 1) We perform the simulation in openLCA in a way that would be classified as "fully dependent" in the article you mention: all uncertain data is drawn at the same time, and then a calculation is started. If a process appears in several "branches" of a supply chain several times, uncertain data is drawn for this process only once and then used in the calculation.
> 2)
: unfortunately not but I agree this would be a nice feature.is it possible to isolate sampling only for the foreground processes? (i.e. turning off all upstream sampling)
Best wishes,
Andreas
Re: Monte Carlo Analysis
Hi Andreas,
Thank you for the prompt reply and clarification. This is very good to know about the dependent sampling.
Perhaps in the future, we can all look forward to an added feature with isolated sampling (e.g. foreground versus background sampling).
One additional question, are the means and standard deviations always estimated under the assumptions of a specific distribution (i.e. does openLCA assume that all impacts are normally or lognormally distributed)?
All the best,
Michael
Thank you for the prompt reply and clarification. This is very good to know about the dependent sampling.
Perhaps in the future, we can all look forward to an added feature with isolated sampling (e.g. foreground versus background sampling).
One additional question, are the means and standard deviations always estimated under the assumptions of a specific distribution (i.e. does openLCA assume that all impacts are normally or lognormally distributed)?
All the best,
Michael
Re: Monte Carlo Analysis
Hi Michael,
the distribution is used as specified by the database or user (of course, I would say  taking always the same distribution would be quite plain).
And I agree to your suggestion, to look for possibilities to implement background vs. foreground sampling.
Best wishes
Andreas
the distribution is used as specified by the database or user (of course, I would say  taking always the same distribution would be quite plain).
And I agree to your suggestion, to look for possibilities to implement background vs. foreground sampling.
Best wishes
Andreas
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Re: Monte Carlo Analysis
Dear Andreas,
My apologies, I didn't make clear my question. Defining the inventory distributions is clear for me. But I am wondering how openLCA calculates the mean and standard deviation for the resulting impacts (i.e. after the impacts are calculated for each Monte Carlo simulation, is the mean and standard deviation calculated assuming the simulations are normal distributed, or are the mean and standard deviations calculated assuming lognormally distributed impact results)?
Best,
Michael
My apologies, I didn't make clear my question. Defining the inventory distributions is clear for me. But I am wondering how openLCA calculates the mean and standard deviation for the resulting impacts (i.e. after the impacts are calculated for each Monte Carlo simulation, is the mean and standard deviation calculated assuming the simulations are normal distributed, or are the mean and standard deviations calculated assuming lognormally distributed impact results)?
Best,
Michael
Re: Monte Carlo Analysis
Ah  well the mean of the MC simulation result is calculated as arithmetical mean of the various items in the result. There is no assumption about distribution needed (which is one of the strengths of the Monte Carlo simulation). That was your question?
Re: Monte Carlo Analysis
Dear Andreas,
Thanks for the reply.
So, the final mean and standard deviation for each impact category are reported as arithmetic means and standard deviations, correct?
This is problematic for skewed data, no? For instance, if the histogram of 10,000 MC outputs follows a lognormal best fit, it would be incorrect to report the impacts with an arithmetic mean and standard deviation.
Best,
Michael
Thanks for the reply.
So, the final mean and standard deviation for each impact category are reported as arithmetic means and standard deviations, correct?
This is problematic for skewed data, no? For instance, if the histogram of 10,000 MC outputs follows a lognormal best fit, it would be incorrect to report the impacts with an arithmetic mean and standard deviation.
Best,
Michael
Re: Monte Carlo Analysis
well,
Cheers
Andreas
I agree, this is a common issue in data analysis, the mean is sensitive to outliers (or, asymetric distributions more generally) and therefore it makes sense to also calculate the median, which we do. It is also possible in openLCA to export all simulation data and perform more analyses, e.g. related to an assumed distribution, with this data. I do not think, though, that there is a right or wrong, correct or incorrect, here, as often in data analysis, but of course the arithmetical mean is not perfect, as other indicators too.This is problematic for skewed data
Cheers
Andreas
Re: Monte Carlo Analysis
Dear Andreas,
Correct, I have already exported all the data and made the appropriate estimations of the logtransformed data.
For me, I was just curious whether openLCA might include an option to automatically report logtransformed statistics, given that inventory data and thus results may commonly follow lognormal distributions? No need to respond to that, just a suggestedfeature to add from a dedicated user :)
All the best,
Michael
Correct, I have already exported all the data and made the appropriate estimations of the logtransformed data.
For me, I was just curious whether openLCA might include an option to automatically report logtransformed statistics, given that inventory data and thus results may commonly follow lognormal distributions? No need to respond to that, just a suggestedfeature to add from a dedicated user :)
All the best,
Michael
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