#61 Vermont-B (10-2)

avg: 1286.54  •  sd: 117.22  •  top 16/20: 0%

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# Opponent Result Game Rating Status Date Event
161 Skidmore** Win 9-3 1105.55 Ignored Mar 25th Garden State1
199 College of New Jersey** Win 8-3 687.34 Ignored Mar 25th Garden State1
185 Messiah** Win 13-3 863.48 Ignored Mar 25th Garden State1
- SUNY-Albany** Win 13-0 447.34 Ignored Mar 26th Garden State1
63 Haverford/Bryn Mawr Loss 6-9 857.7 Mar 26th Garden State1
113 Ithaca Win 8-5 1358.87 Mar 26th Garden State1
151 Rutgers** Win 12-1 1205.51 Ignored Apr 1st Shady Encounters
111 Lehigh Win 6-5 1043.2 Apr 1st Shady Encounters
59 Penn State Win 7-4 1797.4 Apr 1st Shady Encounters
59 Penn State Loss 7-9 1021.91 Apr 2nd Shady Encounters
139 Wesleyan Win 13-3 1300.24 Apr 2nd Shady Encounters
95 Temple Win 12-2 1629.11 Apr 2nd Shady Encounters
**Blowout Eligible


The uncertainty of the mean is equal to the standard deviation of the set of game ratings, divided by the square root of the number of games. We treated a team’s ranking as a normally distributed random variable, with the USAU ranking as the mean and the uncertainty of the ranking as the standard deviation
  1. Calculate uncertainy for USAU ranking averge
  2. Model ranking as a normal distribution around USAU averge with standard deviation equal to uncertainty
  3. Simulate seasons by drawing a rank for each team from their distribution. Note the teams in the top 16 (club) or top 20 (college)
  4. Sum the fractions for each region for how often each of it's teams appeared in the top 16 (club) or top 20 (college)
  5. Subtract one from each fraction for "autobids"
  6. Award remainings bids to the regions with the highest remaining fraction, subtracting one from the fraction each time a bid is awarded
There is an article on Ulitworld written by Scott Dunham and I that gives a little more context (though it probably was the thing that linked you here)