(fwiw: I was assuming the people in pods would already have infected each other or would be about to infect each other anyways (due to sharing a house and lots of airspace), so the intent was something more about how much additional spread would be between pods, outdoors)
Oh yeah that makes sense, I was slightly confused about the pod setup. The approach would’ve been different in that case (still would’ve estimated how many people in each pod were currently infected, but would’ve spent more time on the transmission rate for 30 feet outdoors). Curious what your current prediction for this is? (here is a blank distribution for the question if you want to use that)
I haven’t yet attempted to seriously estimate it. I know of two other people who have risk calculators that I’m going to try to use at some point, and was interested in having a few different estimates to help triangulate things.
Thanks!
(fwiw: I was assuming the people in pods would already have infected each other or would be about to infect each other anyways (due to sharing a house and lots of airspace), so the intent was something more about how much additional spread would be between pods, outdoors)
Oh yeah that makes sense, I was slightly confused about the pod setup. The approach would’ve been different in that case (still would’ve estimated how many people in each pod were currently infected, but would’ve spent more time on the transmission rate for 30 feet outdoors). Curious what your current prediction for this is? (here is a blank distribution for the question if you want to use that)
I haven’t yet attempted to seriously estimate it. I know of two other people who have risk calculators that I’m going to try to use at some point, and was interested in having a few different estimates to help triangulate things.