The disruptive inventions that make people go 'Wow!' tend to come from research in the heart of cities and not in the suburbs, a new study suggests.
Researchers found that, within metro areas, the majority of patents come from innovations created in suburbs - often in the office parks of big tech companies like Microsoft and
But the unconventional, disruptive innovations - the ones that combine research from different technological fields - are more likely to be produced in cities, said
These unconventional patents are ones that, for example, may blend research on acoustics with research on information storage - the basis for digital music players like the iPod. Or patents that cite previous work on 'vacuum cleaning' and 'computing' to produce the Roomba.
'Densely populated cities do not generate more patents than the suburbs, but they tend to generate more unconventional patents,' said Berkes, who did the work as a doctoral student at
'Our findings suggest that cities provide more opportunities for creative people in different fields to interact informally and exchange ideas, which can lead to more disruptive innovation.'
Berkes conducted the study with
Previous research had shown that large metropolitan areas are where patenting activity tends to concentrate, Berkes said, suggesting that population density is an important factor for innovation.
But once Berkes and Gaetani started looking more closely at metro areas, they found that a sizable share of these patents was developed in the suburbs - the least densely populated part.
Nearly three-quarters of patents came from places that had density below 3,650 people per square mile in 2000, about the density of
'If new technology is spurred by population density, we wanted to know why so much is happening in the least dense parts of the metro areas,' Berkes said.
But they were also interested in determining the type of innovations produced - whether they would be considered conventional or unconventional. They did this by analyzing the previous work on which each patent was based.
The researchers tagged new patents as unconventional if the inventors cited previous work in widely different areas.
For example, a patent from 2000 developed in
After analyzing the data, the researchers found that both urban and suburban areas played a prominent role in the innovation process, but in different ways, Berkes said.
Large innovative companies, such as
'These companies are very successful in taking advantage of formal channels of knowledge diffusion, such as meetings or conferences, where they can capitalize on the expertise of their scientists and have them work together on specialized projects for the company,' Berkes said.
'But it is more difficult for them to tap ideas from other scientific fields because this demands interactions with inventors they're not communicating with every day or running into in the cafeteria or in the hallway.'
That's where the urban cores excelled. In cities like
'If you want to create something truly new and disruptive, it helps if you have opportunities to casually bump into people from other scientific fields and exchange ideas and experiences and knowledge. That's what happens in cities,' he said.
'Density plays an important role in the type, rather than the amount, of innovation.'
These findings show the potential value of tech parks that gather technology startup companies in a variety of fields in one place, Berkes said. But they have to be set up properly.
'Our research suggests that informal interactions are important. Tech parks should be structured in a way that people from different startups can easily interact with each other on a regular basis and share ideas,' he said.
grabmeier.1@osu.edu
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