
"On December 9th, 1968, a research project funded by the US Department of Defense launched a revolution. The focus was not a Cold War adversary or even a resource rich banana republic, but rather to “augment human intellect” and the man driving it was not a general, but a mild mannered engineer named Douglas Engelbart.
His presentation that day would be so consequential that it is now called The Mother of All Demos. Two of those in attendance, Bob Taylor and Alan Kay would go on to develop Engelbart’s ideas into the Alto, the first truly personal computer. Later, Steve Jobs would take many elements of the Alto to create the Macintosh.
So who deserves credit? Engelbart for coming up with the idea? Taylor and Kay for engineering solutions around it? Jobs for turning it all into a marketable product that created an impact on the world? Strong arguments can be made for each, as well as for many others not mentioned here. The truth is that there are many paths to innovation. Here are nine of them.
Rule 1: Innovation Is Never A Single Event
Alexander Fleming discovered penicillin in 1928, but it wasn’t until 15 years later, in 1943, that the miracle drug came into widespread use. Alan Turing came up with the idea of a universal computer in 1936, but it wasn’t until 1946 that one was actually built and not until the 1990’s that computers began to impact productivity statistics.
We tend to think of innovation as arising from a single brilliant flash of insight, but the truth is that it is a drawn out process involving the discovery of an insight, the engineering a solution and then the transformation of an industry or field. That’s almost never achieved by one person or even within one organization.
Rule 2: Innovation Is Combination
The reason that Fleming was unable to bring Penicillin to market was that, as a biologist, he lacked many of the requisite skills. It wasn’t until a decade later that two chemists, Howard Florey and Ernst Boris Chain, picked up the problem and were able to synthesize penicillin. Even then, it took people with additional expertise in fermentation and manufacturing to turn it into the miracle cure we know today.
This isn’t the exception, but the norm. Darwin’s theory of natural selection borrowed ideas from Thomas Malthus, an economist and Charles Lyell, a geologist. Watson and Crick’s discovery of DNA was not achieved by simply plowing away at the lab, but by incorporating discoveries in biology, chemistry and x-ray diffraction to inform their model building.
Great innovation almost never occurs within one field of expertise, but is almost invariably the product of synthesis across domains.
Rule 3: First, Ask The Right Questions
Too often, we treat innovation as a monolith, as if every problem was the same, but that’s clearly not the case. In laboratories and factory floors, universities and coffee shops, or even over a beer after work, people are sussing out better ways to do things. There is no monopoly on creative thought.
But that leads us to a problem: How should we go about innovation? Should we hand it over to the guys with white lab coats? An external partner? A specialist in the field? Crowdsource it? What we need is a clear framework for making decisions.
As I wrote in Harvard Business Review, the best way to start is by asking the right questions: (1) How well is the problem defined? and (2) How well is the domain defined? Once you’ve asked those framing questions, you can start defining a sensible way to approach the problem using the innovation matrix.
