Our school had a candy guessing contest for Hallowe’en. There were three Jars of Unusual Shape, and various sizes.
Jar 1: 108 Candies
Jar 2: 141 Candies
Jar 3: 259 Candies
The spirit of Francis Galton demanded that I look at the data. Candy guessing, like measuring temperature, is a classic case where averaging multiple readings from different sensors is expected to do very well. Was the crowd wise? Yes.
The unweighted average beat:
67% of guessers on Jar 1
78% of guessers on Jar 2
97% of guessers on Jar 3, and
97% of guessers overall
The median beat:
89% of guessers on Jar 1
83% of guessers on Jar 2
78% of guessers on Jar 3, and
97% of guessers overall
Only one person beat the unweighted average, and two others were close. There were 36 people who guessed all three jars (and one anonymous blogger who guessed only one jar and was excluded from the analysis). The top guesser had an overall error of 9%, while the unweighted average had an overall error of 11%. Two other guessers came close, with an average error of 12%. The worst guessers had overall error rates greater than 100%, with the worst being 193% too high.
The unweighted average was never the best on a single jar — though on Jar 3 it was only off by 1. (The guesser on Jar 3 was exactly correct.)
The measure I used was the overall Average Absolute %Error. The individual rankings change slightly If instead we use Absolute Average %Error, but the main result holds.
For the flu forecasting challenge (https://scicast.org/flu) participants are required to predict several flu season characteristics, at national and at regional levels (10 HHS regions). For some of the required quantities — such as peak percentage influenza-like illness (ILI), and total seasonal ILI count — one may argue that national level values have some relationship with the regional level ones. Or, in other words participants may be led to believe that national level statistics can be obtained from regional level ones.
SciCasters represent a variety of communities – academics, professionals, enthusiasts, even students. Find out how one professor built SciCast into her curriculum – and led students by example.
Meet SciCaster Julie J.C.H. Ryan, Associate Professor, Engineering Management and Systems Engineering, George Washington University.
Q: Why SciCast in the classroom?
I was intrigued by the potential and explored several alternatives with the George Mason folks. I decided to use SciCast as a practical learning exercise for a tech forecasting course that I was teaching in the spring. I provide opportunities for students to learn through guided experiences. I integrate a lot of exercises in my classes so that students are engaged in active learning through incremental explorations of the material.
SciCasters are following the ESA’s International Rosetta Mission and counting down the days of the much-anticipated landing of the Philae on a periodic comet known as Comet 67P/Churyumov-Gerasimenko. The latest news from ESA states that it will deploy the Philae to the comet on November 12.http://bit.ly/1DQEAcy