5 Examples Of Disruptive Innovation

5 Examples of Disruptive Innovation

Christian Sandström holds a PhD from Chalmers University of Technology, Sweden. He writes and speaks about disruptive innovation and technological change.

www.disruptiveinnovation.se

Harvard professor Clayton Christensen

coined the term disruptive innovation in

his book ’The innovator’s dilemma’,

published in 1997.

Harvard professor Clayton Christensen

coined the term disruptive innovation in

his book ’The innovator’s dilemma’,

published in 1997.

This presentation gives five illustrative

examples of disruptive innovation.

A disruptive innovation initially offers a lower performance according to what the

mainstream market has historically demanded.

A disruptive innovation initially offers a lower performance according to what the

mainstream market has historically demanded.

At the same time it provides some new performance attributes, which in turn makes it

prosper in a different market.

A disruptive innovation initially offers a lower performance according to what the

mainstream market has historically demanded.

At the same time it provides some new performance attributes, which in turn makes it

prosper in a different market.

As it improves along the traditional performance parameters it eventually displaces

the former technology.

For further detail on this concept, click here:

http://www.slideshare.net/Christiansandstrom/disruptive-technologies-an-introduction

Number 1:

The Transistor Radio

Transistor Radio Analogue Radio Traditional performance New performance

Transistor Radio Analogue Radio Traditional Worse sound performance New performance

Transistor Radio Analogue Radio Traditional Worse sound performance New Portable performance Low Battery consumption

Being portable and offering worse sound quality, the transistor radio was adopted by teenagers who could

bring music to the beach.

As the sound quality improved,

it eventually displaced the analogue, big

furniture radios.

Number 2:

Pocket calculators

Pocket calculator Desktop calculator Traditional performance New performance

Pocket calculator Desktop calculator Traditional Worse computing performance performance New performance

Pocket calculator Desktop calculator Traditional Worse computing performance performance New Portable performance

Over time, the computing performance of these smaller,

simpler calculators was improved.

As they became cheaper and were sold in larger and larger volumes, sales offices lost their value. Calculators started to

be sold in bookstores and large retail stores.

Number 3:

LCD TV versus Cathod Ray Tube (CRT) TV

LCD TV CRT TV Traditional performance New performance

LCD TV CRT TV Traditional Worse image quality performance New performance

LCD TV CRT TV Traditional Worse image quality performance New Low battery consumption performance Low weight

LCD screens initially prospered in various applications where image quality wasn’t important.

In mobile phones, portable video games and cameras, battery consumption and weight were more important.

When the image quality had become good enough, they displaced CRT TVs in the 2000s.

Number 4:

Integrated steel mills VS minimills.

Photo: www.jornmark.se

Minimills Integrated mills Traditional performance New performance

Minimills Integrated mills Traditional Worse steel quality performance New performance

Minimills Integrated mills Traditional Worse steel quality performance New Cheaper, easier to produce performance

The minimill technology used scrap, put it in a furnace and made new steel of it.

The minimill technology used scrap, put it in a furnace and made new steel of it.

Cheap, low quality steel.

The minimill technology used scrap, put it in a furnace and made new steel of it.

Cheap, low quality steel.

The integrated steel companies were more than happy to get rid of this low-margin

business and instead focus on the high-end.

The minimill technology used scrap, put it in a furnace and made new steel of it.

Cheap, low quality steel.

The integrated steel companies were more than happy to get rid of this low-margin

business and instead focus on the high-end.

So they did, but slowly and steadily, the minimill technology offered better steel quality

and captured segment after segment.

Eventually, the integrated steel mills started to suffer, badly.

Number 5:

Mobile phones versus regular phones

Cell phone Old phones Traditional performance New performance

Cell phone Old phones Traditional Worse sound quality performance Expensive New performance

Cell phone Old phones Traditional Worse sound quality performance Expensive New Portable performance

As mobile phones became cheaper, the sound quality improved and new functions were

added, it eventually displaced the analogue phones.

Sources

Christensen, C.M. (1997) The Innovator’s Dilemma, Harvard Business School Press,

Cambridge, Massachusetts.

Find out more:

www.disruptiveinnovation.se