Experience curve effects


In industry, models of the learning or experience curve effect express the relationship between experience producing a good and efficiency of production, ie. efficiency gains that follow investment in the effort. The effect has large implications for effect of market share, which can increasing competitive advantage over time due to experience curve effects.

History: from psychological learning curves to the learning curve effect

An early empirical demonstration of learning curves was produced in 1885 by the German psychologist Hermann Ebbinghaus. Ebbinghaus was investigating the difficulty of memorizing verbal stimuli. He found that performance increased in proportion to experience on memorising the word set.

Wright's law and the discovery of the learning curve effect

Work in human memory was found later to generalize - the more times a task has been performed, the less time is required on each subsequent iteration. This relationship was probably first quantified in the industrial setting in 1936 by Theodore Paul Wright, an engineer at Curtiss-Wright in the United States,. Wright found that every time total aircraft production doubled, the required labour time for new craft fell by 20%. Subsequent studies in other industries have yielded different values ranging from only a couple of percent up to 30%, but in most cases, the value in each industry was a constant percentage and did not vary at different scales of operation. The learning curve model posits that for each doubling of the total quantity of items produced, costs decrease by a fixed proportion. Generally, the production of any good or service shows the learning curve or experience curve effect. Each time cumulative volume doubles, value added costs fall by a constant percentage.
The phrase experience curve was proposed by Bruce D. Henderson and the Boston Consulting Group based on analyses of overall cost behavior in the 1960s. While accepting that the learning curve formed an attractive explanation, he used the name experience curve, suggesting that "the two are related, but quite different." In 1968, Henderson and BCG began to emphasize the implications of the experience curve for strategy. Research by BCG in the 1960s and 70s observed experience curve effects for various industries that ranged from 10 to 25%.

Unit curve

Mathematically, Wright's law takes the form of a power function. Empirical research has validated the following mathematical form for the unit cost of producing unit-number x , starting with unit P1 for a wide variety of different products and services:
where 1-b is the proportion reduction in the unit cost with each doubling in the cumulative production. To see this, note the following:
The exponent b is a statistical parameter and thus does not exactly predict the unit cost of producing any future unit. However, it has been found to be useful in many contexts. Across numerous industries, estimates of b range from 0.75 to 0.9.
The unit curve was expressed in slightly different nomenclature by Henderson:
where:
These effects are often expressed graphically. The curve is plotted with the cumulative units produced on the horizontal axis and unit cost on the vertical axis. The BCG group used the value of b to name a given industry curve. Thus a curve showing a 15% cost reduction for every doubling of output was called an “85% experience curve”.

Reasons for the effect


Examples
NASA quotes the following experience curves:
  • Aerospace: 85%
  • Shipbuilding: 80-85%
  • Complex machine tools for new models: 75–85%
  • Repetitive electronics manufacturing: 90–95%
  • Repetitive machining or punch-press operations: 90–95%
  • Repetitive electrical operations: 75–85%
  • Repetitive welding operations: 90%
  • Raw materials: 93–96%
  • Purchased parts: 85–88%

The primary reason for why experience and learning curve effects apply is the complex processes of learning involved. As discussed in the main article, learning generally begins with making successively larger finds and then successively smaller ones. The equations for these effects come from the usefulness of mathematical models for certain somewhat predictable aspects of those generally non-deterministic processes.
They include:
The experience curve effect can on occasion come to an abrupt stop. Graphically, the curve is truncated. Existing processes become obsolete and the firm must upgrade to remain competitive. The upgrade will mean the old experience curve will be replaced by a new one. This occurs when:
BCG founder Henderson published on the development of the experience curve. According to Henderson, its first "attempt to explain cost behavior over time in a process industry" began in 1966. The datum he focussed on was the striking correlation between competitive profitability and market share. Using price data in the semiconductor industry supplied by the Electronic Industries Association, he suggested that not one but two patterns emerged.
"In one pattern, prices, in current dollars, remained constant for long periods and then began a relatively steep and long continued decline in constant dollars. In the other pattern, prices, in constant dollars, declined steadily at a constant rate of about 25 percent each time accumulated experience doubled. That was the experience curve."

The suggestion was that failure of production to show the learning curve effect was a risk indicator. The BCG strategists examined the consequences of the experience effect for businesses. They concluded that because relatively low cost of operations is a very powerful strategic advantage, firms should invest in maximising these learning and experience effects and that market share is underestimated as an enabler of this investment. The reasoning is increased activity leads to increased learning, which leads to lower costs, which can lead to lower prices, which can lead to increased market share, which can lead to increased profitability and market dominance. This was particularly true when a firm had an early leadership in market share. It was suggested that if a company cannot get enough market share to be competitive, it should exit that business and concentrate resources where it was possible to take advantage of experience effects and gain market share. The BCG strategists developed product portfolio techniques like the BCG Matrix to manage this strategy.
One consequence of experience curve strategy is that it predicts that cost savings should be passed on as price decreases rather than kept as profit margin increases. The BCG strategists felt that maintaining a relatively high price, although very profitable in the short run, spelled disaster for the strategy in the long run. High profits would encourage competitors to enter the market, triggering a steep price decline and a competitive shakeout. If prices were reduced as unit costs fell, then competitive entry would be discouraged while market share increases should increase overall profitability.

Criticisms

Ernst R. Berndt claims that in most organizations, experience effects are so closely intertwined with economies of scale that it is impossible to separate the two. In practice, this view suggests, economies of scale coincide with experience effects. The approach, however, accepts the existence of both as underlying causes. Economies of scale afford experience and experience may afford economies of scale.
Approaches such as Porter's generic strategies based on product differentiation and focused market segmentation have been proposed as alternative strategies for leadership that do not rely on lower unit costs.
Attempts to use the learning curve effect to improve competitive advantage, for instance by pre-emptively expanding production have been criticised, with factors such as bounded rationality and durable products cited as reasons for this.
The well travelled road effect may lead people to overestimate the effect of the experience curve.