First thank-you for the thorough data provided, that is always very helpful for our analysis! I will try to provide feedback for all the different questions, although some of them may be linked.
@Isarvation wrote:
The devices IAQ value has a very high deviation, hence low accuracy. The standard deviation of the 15 tested sensors is around 50 on multiple occasions. See e.g. tags a and b in the screenshot. The devices where located very close to each other. See image in the attached zip. How can this be? Or in other words: Who can a better accuracy over devices be reached?
graph 1
graph 2
graph 3
Thanks to the logs provided and some processing (in particular to re-align timestamp for analysis), I could already comment on a few points:
We specify a sensor-to-sensor for the standard IAQ to IAQ±15%. Note that is can only be expected for stabilized sensors sharing the same history. In lab environment, we estimated that reliable detection of air quality changes are reached already after a day, while lowest sensor-to-sensor deviation is reach in the worst-case scenario after ~2 weeks.
It seems that almost all the devices were reset at the same time at the very beginning of graph 1, while BSEC was already running previously for some. Operating the devices in different operating modes and/or different location prior to the plot could also have an impact on the overall accuracy shown here.
From your data, we can see that BSEC was reset just over a day prior to marker a, thus we can see that the sensors react to the same events, but lowest sensor-to-sensor may not have been achieved.
More-over at marker b, we can see that sensor-182e32 was reset during the afternoon of Jan. 5th, therefore at least the purple peak in graph 1 can be expected.
As indication, it seems that sensor-182e4d and sensor-30451c are typ. the two other outliers, and at least for sensor-182e4d we can see in the raw gas data that the device reacted slightly differently than the other, which could be due to several conditions (e.g. from prior history as mentioned above to slightly different local conditions, ...).
For reference, we tried to overlay the mean and ±15% to the IAQ outputs in the graph below which seems quite as expected:
@Isarvation wrote:
The IAQ values repeatedly peak to “unhealthy” up to “very unhealthy” levels when someone is cooking e.g. only a soup around 10m away from the desk the devices are located on. This seems way to extreme and would render all results useless. Can you help finding a solution on this?
From the wording used in your post, it seems that you may referring to some terms from the 'AQI' definition rather than BSEC's 'IAQ' definition. BSEC provides an indication of the trend of total-VOC concentration in the air. It is not an absolute sensor (e.g. in ppm), but will run a self-calibration process in the background, so that the standard IAQ output will display an IAQ value of 25 in typ. good air, and an IAQ value of 250 in typ. bad air (both index based on the VOC concentration observed during BSEC's history window).
@Isarvation wrote:
The IAQ value keeps in the range of 25 to 250, but the official scale is bigger. Can you supply information on this? Why are there no smaller values possible? We only see some rare drops below 25.
Smaller value than 25 are possible to obtain, and would be observed if a significantly low tVOC concentration is detected by BSEC. I believe the fact that the data is mostly with 25 to 250 is due to the self-calibration process described above, but we can see for instance that the sensors detected a significant tVOC peak on Jan. 5th, were almost all sensors broke above 250IAQ.
@Isarvation wrote:
Can you supply us information about the different meaning of “static IAQ” and “IAQ”, please?
Please refer to this post and this Q&A, and let us know if you have any further question.
@Isarvation wrote:
Can you elaborate the exact difference between the 4d and 28d configuration and when to use which?
This means BSEC will use a time-constant of repectively 4days or 28days for its background calibration.
@Isarvation wrote:
Tag e and f show a drastic increase after 2 people enter the apartment. The was no cooking or similar and no human can within 5m of the sensor. But the IAQ value indicates a environment that is “unhealthy for sensitive groups”. This means the sensor tells us that apparently this apartment becomes an unhealthy place only when 2 people are somewhat in the same air. This renders every room unhealthy as soon as a human is close by.
graph 5
graph 6
I believe this was already somewhat answered above, but it seems that both were actual events detected by the BME680s and indicated as lightly polluted by BSEC.
@Isarvation wrote:
Tag g shows another extrem peak. All sensors saturate arround 250 after there was a soup cooked in the kitchen arround 10m distance. The IAQ value indicates "very unhealthy" air according to the official scale. This obviously is way to drastic.
graph 7
Similarly to the above, I believe BSEC is successfully reporting a peak in VOC concentration it has detected, worse than events at markers e and f, but quite similar to the peak observed the day before. If the smell of the cooking soup could be detected by humans, I believe the recommendation to refresh the air is coherent, and it would most likely be appreciated if such a smell/VOC concentration was not maintained for extended durations.
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