Analyzing sevens is not easy. Sevens lacks the familiar structure imposed by fifteens set piece and phase play. Matches are fast paced and chaotic. Listening to a team break down a sevens match often sounds like the disjointed recollections of crime scene witnesses.
This post introduces a notational system for tracking sevens performance that uses ball possession as the fundamental unit of analysis. A possession is a scoring opportunity. It begins when a team takes ownership of the ball and ends with either a score, a turn over, or a referee’s stoppage due to time expiring. Possessions alternate between teams through the course of the match providing a convenient structure for notating sevens play.
Continue reading Simple 7s Performance Analysis
This blog post summarizes the technical details of how the data and graphics in Analyzing time of Possession in 7s were generated. Writing that blog post was an educational exercise to get familiar with the Python statistical programming ecosystem. Up until this point, most of the analysis work at Starting 7s was conducted in the R programming language. Inspired by the words of educational technologist Seymour Papert*, who famously said “You can’t think seriously about thinking without thinking about thinking about something,” this analysis and blog post were conducted in a similar spirit. You can’t seriously learn to use a new tool without learning to use the new tool to do something.
The remainder of this blog post describes the tools and techniques used to conduct the possession analysis in Python.
* Perhaps not coincidentally, it is worth noting that Seymour Papert was South African, and occasionally used rugby examples to animate his thought experiments.
Continue reading Time of Possession: technical aspects
World Rugby tracks time of possession for all World Rugby Sevens Series matches. Starting 7s recently published an analysis of time of possession data from the 2014-2015 series in order to understand its impact on 7s gameplay. The analysis considered:
- The relationship between possession and scoring
- The relationship between possession and winning
- The impact of possession in matches including non-core teams
This blog post discusses the article’s findings and shares some directions for future analysis.
Continue reading Analyzing time of Possession in 7s
Rhino Rugby makes high quality rugby training gear and apparel including a wide range of hit shield and tackle bags. The tackle ring is available in both youth and senior sizes. And, by the look of the promotional video, it is intentionally marketed to American football players.
Rhino rugby lists the tackle ring’s many advantages over static tackle bags including:
Continue reading Rhino Rugby tackle ring
The 7 Habits of Highly Effective People, first published in 1989, is a popular self help book. It presents an approach to attaining goals by following a few universal principles centered around character and ethics. This post is the first in a series to introduce 7 habits for highly effective 7s. Like Covey’s habits, these habits are universally practiced by effective 7s players regardless of body type, position, team tactics, or strategy.
The first habit is leg drive. Effective 7s players drive their legs in contact with short, sharp steps. As the following video clips demonstrate, strong leg drive generates turnovers on defense and scoring opportunities on attack.
Continue reading 7 Habits for Highly Effective 7s — Part one: Leg drive
Sports coaches are not always interested in the statistics, graphs, and charts that their analysts produce. However, in my experience, rugby and American football coaches are always interested in tackle data. One on one tackling is the cornerstone of team defense in both sports. Missed tackles lead to big plays. They are usually the difference between a good and bad defense. So it is easy to understand why coaches are so interested in tackle data. But assessing tackle performance is notoriously difficult.
Starting 7s recently published an article on Rpubs describing an approach to visualizing tackle data. It categorizes tackle attempts by the clock face number that corresponds to the tackler’s tracking angle relative to the ball carrier. We plot the data using polar coordinate charts that map tackles to their corresponding clock face numbers. Using this approach coaches can quickly see where the majority of their team’s — or their opponent’s — tackle attempts are made and missed.
Continue reading Visualizing directional tackle data