Average Run Rate method

The Average Run Rate (ARR) method was a mathematical formulation designed to calculate the target score for the team batting second in a limited overs cricket match interrupted by weather or other circumstances. Often matches interrupted by weather would use reserve days, bowl outs, or be replayed on another date, but if logistics did not allow these, the ARR method would be used.

The ARR method was used from the start of one-day cricket in the 1950s and 1960s until it was replaced by the Most Productive Overs method in 1991.^[1]

If an interruption means that the team batting second loses some of their overs, their target score is adjusted as follows.^[2]

${\displaystyle {\text{Team 2's new target }}={\text{ (Team 1's Average Run Rate achieved}}\times {\text{Overs available to Team 2)}}+1.}$

This means that Team 2 just has to match the average run rate achieved by Team 1 in the overs it has available. For example, if Team 1 made 250 in their 50 overs, which is an ARR of 5 runs per over, and Team 2’s innings is reduced to 25 overs, Team 2's new target is (5 x 25) + 1 = 126.^[1]

This formula can alternatively be written as:

${\displaystyle {\text{Team 2's new target }}=\left({{\text{Team 1's total}}\times {\frac {\text{Overs available to Team 2}}{\text{Overs used by Team 1}}}}\right)+1.}$

In other words, the target is reduced in proportion to the loss in overs. Using the same example as above, with this formula the new target for Team 2 is (250 x 25/50) + 1 = 126.

The ARR method frequently alters the balance of the match, usually in favour of the team batting second,^[3] because:

• It is easier to maintain a given run rate for a smaller number of overs, as less care needs to be taken to preserve wickets. Therefore, an adjusted target is easier to achieve.
• The method takes no consideration of wickets lost, meaning a team who were 126–9 from 25 overs in reply to a score of 250 from 50 overs would be declared the winner.^[4]
• There is no compensation to the team batting first if they unexpectedly lose some of their final overs which they were expecting to be able to score from.
• If Team 2's innings is interrupted mid-innings, the current match situation is irrelevant in the calculation of the new target. Therefore, the balance of the match will be changed.

• England v Sri Lanka in the 1987 Cricket World Cup. England scored 296 from 50 overs, before rain meant Sri Lanka's innings was reduced to 45 overs, giving a revised target of 267 (296 x 45/50 = 266.4).
• In the third final of the 1988-89 World Series Cup, Australia scored 226 from 38 overs. Chasing 227 to win, West Indies were 47−2 after 6.4 overs when rain stopped play for 85 minutes. At this point they needed 180 more runs from 31.2 overs, a required RR of 5.74. When play restarted, West Indies' innings was reduced to 18 overs, giving a revised target of 108 (226 x 18/38 = 107.1), so they had 61 more runs to score from 11.2 overs (a required RR of 5.38). The West Indies won the match (and the competition) with 4.4 overs remaining and eight wickets in hand.^[5]

This revised target gave the West Indies a major advantage, as it significantly reduced the amount of overs they needed to maintain a given run rate and reduced the required run rate. Australian fans booed this conclusion, and the Average Run Rate was criticised by the media and Australian captain Allan Border, which led to Australia developing the Most Productive Overs method.