Completing the results of the 2013 Boston marathon

The 2013 Boston marathon was disrupted by two bombs placed near the finish line. The bombs resulted in three deaths and several hundred injuries. Of lesser concern, in the immediate aftermath, was the fact that nearly 6,000 runners failed to finish the race. We were approached by the marathon's...

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Veröffentlicht in:	PloS one 2014-04, Vol.9 (4), p.e93800-e93800
Hauptverfasser:	Hammerling, Dorit, Cefalu, Matthew, Cisewski, Jessi, Dominici, Francesca, Parmigiani, Giovanni, Paulson, Charles, Smith, Richard L
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Sprache:	eng
Schlagworte:	Algorithms Analysis Biology and Life Sciences Bombs Computational mathematics Computer and Information Sciences Data processing Datasets Death of Deoxyribonucleic acid DNA DNA microarrays Error analysis Humans Information theory Marathons Medicine and Health Sciences Methods Missing data Physical Endurance - physiology Physical Sciences Precipitation Public health Race Runners (Sports) Running Running - physiology Social Sciences Sports Statistical analysis
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description	The 2013 Boston marathon was disrupted by two bombs placed near the finish line. The bombs resulted in three deaths and several hundred injuries. Of lesser concern, in the immediate aftermath, was the fact that nearly 6,000 runners failed to finish the race. We were approached by the marathon's organizers, the Boston Athletic Association (BAA), and asked to recommend a procedure for projecting finish times for the runners who could not complete the race. With assistance from the BAA, we created a dataset consisting of all the runners in the 2013 race who reached the halfway point but failed to finish, as well as all runners from the 2010 and 2011 Boston marathons. The data consist of split times from each of the 5 km sections of the course, as well as the final 2.2 km (from 40 km to the finish). The statistical objective is to predict the missing split times for the runners who failed to finish in 2013. We set this problem in the context of the matrix completion problem, examples of which include imputing missing data in DNA microarray experiments, and the Netflix prize problem. We propose five prediction methods and create a validation dataset to measure their performance by mean squared error and other measures. The best method used local regression based on a K-nearest-neighbors algorithm (KNN method), though several other methods produced results of similar quality. We show how the results were used to create projected times for the 2013 runners and discuss potential for future application of the same methodology. We present the whole project as an example of reproducible research, in that we are able to make the full data and all the algorithms we have used publicly available, which may facilitate future research extending the methods or proposing completely different approaches.
doi_str_mv	10.1371/journal.pone.0093800
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The bombs resulted in three deaths and several hundred injuries. Of lesser concern, in the immediate aftermath, was the fact that nearly 6,000 runners failed to finish the race. We were approached by the marathon's organizers, the Boston Athletic Association (BAA), and asked to recommend a procedure for projecting finish times for the runners who could not complete the race. With assistance from the BAA, we created a dataset consisting of all the runners in the 2013 race who reached the halfway point but failed to finish, as well as all runners from the 2010 and 2011 Boston marathons. The data consist of split times from each of the 5 km sections of the course, as well as the final 2.2 km (from 40 km to the finish). The statistical objective is to predict the missing split times for the runners who failed to finish in 2013. We set this problem in the context of the matrix completion problem, examples of which include imputing missing data in DNA microarray experiments, and the Netflix prize problem. We propose five prediction methods and create a validation dataset to measure their performance by mean squared error and other measures. The best method used local regression based on a K-nearest-neighbors algorithm (KNN method), though several other methods produced results of similar quality. We show how the results were used to create projected times for the 2013 runners and discuss potential for future application of the same methodology. 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We present the whole project as an example of reproducible research, in that we are able to make the full data and all the algorithms we have used publicly available, which may facilitate future research extending the methods or proposing completely different approaches.</abstract><cop>United States</cop><pub>Public Library of Science</pub><pmid>24727904</pmid><doi>10.1371/journal.pone.0093800</doi><oa>free_for_read</oa></addata></record>
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subjects	Algorithms Analysis Biology and Life Sciences Bombs Computational mathematics Computer and Information Sciences Data processing Datasets Death of Deoxyribonucleic acid DNA DNA microarrays Error analysis Humans Information theory Marathons Medicine and Health Sciences Methods Missing data Physical Endurance - physiology Physical Sciences Precipitation Public health Race Runners (Sports) Running Running - physiology Social Sciences Sports Statistical analysis
title	Completing the results of the 2013 Boston marathon
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