Tag Archives: Innovation

Innovation and government regulation

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Yesterday during a short twitter discussion the topic of US governmental policies killing new business starts came up. With the 140 characters I wasn’t able to property address the issue that was raised. It is extremely clear that SOPA is an innovation killer, because it effectively requires everyone to have a copyright lawyer on staff at the start of any sort of web company. If you have pictures, video, commentary or whatever on your site you’ll possibly be the target of some copyright holder. This policy isn’t in place and appears, for the moment, to be killed. I expect this law to be resurrected in a year or so. Despite the face that the EU adopted a resolution against SOPA.

Let’s look beyond SOPA though, what other policies are in place that seem to prevent job growth? One of the biggest ones right now is tax levels for people making $250,000 or more. Politifact did an analysis of Congressman Boehner’s claim that taxing millionaires hurts small businesses and prevents hiring. They found this statement to be False. Of course this does depend on the definition of a small business, which Politifact expresses is difficult to define. One metric that I’m aware of is based off the annual sales, where sales over $500,000/year moves you out of the small business area. This may not be the best amount, but let’s say your company has sales of $3,000,000 a year and has enough profit to pay you $1,000,000 of that a year. This tells me that you aren’t reinvesting and trying to continue to grow your firm, probably aren’t paying your employees very well. Additionally, at this amount of sales it is likely that as an entrepreneur you’ve had to get capital investment in one of several ways, loans or from venture capital. A bank wouldn’t care if you were getting paid a million a year, but there’s no way a VC would allow you to pay yourself that if they weren’t getting a good size chunk of money too and you were still planning on reinvesting in the future enough to get a huge IPO. Now, if you’ve built this company from the ground up to this level on your own, then you aren’t paying yourself that kind of money. You would have to be re-investing that money back into the firm to get new equipment hiring the best people, etc.

Another way for companies to get started is through spin-off from another company, bootstrapping themselves to get going or spinning-out of a university. I have an article that will come out soon in the Urban times that addresses some policies that can help with the creation of Spin-outs and start-ups. In the US, we still have the best policies for this. The EU as a collective and European countries are modeling many of their intellectual property laws and funding methods off of US policies. A few examples are a very similar law to the Dole-Bayh law from the 80’s to allow universities to own IP and to give it to their employees if they wish. The creation of technology incubators – this was a truly American innovation, innovation prize contests and national seed funds. The continual reinvention of these policies in the US allows us to create more new companies than European counterparts from a variety of sources.

Are there other policies that hurt the creation of companies? Yes, sure. I’m sure there are some pollution regulations that negatively impact the survival rate of firms. However, from a purely economic perspective this regulation is forcing the company to internalize the cost of the negative externality. Which the company should innovate to reduce the amount of pollution they are creating or buy equipment that reduces their costs in other ways. Innovation to reduce pollution should reduce the cost of raw materials, because they are being used more efficiently and in lower quantities. Every company wants to be able to reduce the amount of raw materials they use. In the next few years we will see greener companies, not because they have a desire to be sustainable, but because it’s more profitable. The regulations the EPA puts into place requires companies to internalize negative externalities, which from both a evolutionary and neo-classical economic perspective is expected from the market and when the market fails then and only then the government needs to step in.

There will be regulations that are industry specific that may slow the amount of innovation and creation of firms, but some of that is surely death by a thousand paper cuts (too much paper work) and the inability to figure out a way to acquire enough funds to get the company going. Compared to European countries the US is the leader for ease of firm creation and the EU is still playing catch up in that regard.

China, Technology and creativity

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Sorry I’ve been away for so long. I’ve been hanging out with my Awesome wife! She gave a talk in Ireland, which I went to for most of a week. It was a good time. She then came here to Eindhoven for a week and had an interview. So that’s why I haven’t been updating. Sorry faithful readers.

At a party on Saturday, I got into a fairly active discussion with 4 PhDs and myself. They are all engineering PhDs, so they understand research and how technology works rather well. We got into a discussion on if China was going to actually really over take the US in scientific research. I said I think it’s likely, but there were many arguments against that likelihood. I didn’t really get to finish my argument on why it’s possible. So, I’m going to do that now.

Basically, some of the core arguments against China being able to overtake is us lack of creativity. China is a country of followers, not a country of creative leaders. Another argument was the lack of high quality education and research centers in China. I’ll address the second argument first and then discuss the first argument.

Americans know that we educated a lot of foreigners at our universities, 2008 was an all time high for the number of international students. In fact my roommate at one point explained to me that one of the groups at the University of Texas was comprised entirely of Chinese students. They conduct their meetings and research all in Chinese and, in fact, leave the US speaking worse English than when they arrived. But why are they leaving? The link above notes that there simply aren’t enough H1B Visas or green cards for them all to stay. Effectively we’re throwing out the people we educate. Over time enough good scientists and engineers will be sent back and will start teaching in China. China has big ambitions and has been creating universities as fast as it can. Using an evolutionary perspective, we can see that it’s likely they will continue to create variation and students will be selecting the best universities. One of them is likely to start producing more science and better science than another. This will lead to the best students and best researchers going to that school. One or two could become the Chinese version of MIT, Berkeley or Harvard. I think it’s clear that education won’t hold them back. Eventually, they will have several universities in the top 200 list according to the Times Higher Education ranking.

The second argument is a little tricker to argue against. The Chinese aren’t creative enough to create radical innovations. First, I’m sure that the Chinese I know would object to this blanket statement. However, let’s assume for the moment that’s it’s some what correct. There’s a culture that doesn’t reward creativity and rewards conformity. I can think of two countries that have similar types of culture that have been creative and are excellent centers of research and innovation, Japan and South Korea. Now are they as good as the US at innovation or research, No. However, they have had some great innovations and do great research.

When it comes to patent research there’s something called a Triadic patent. It’s a patent that is filed in the US, Europe and Japan. Europe and Japan have higher standards for patents than the US and are more difficult to acquire. Why does this matter? Well effectively Japan is the only country in Asia that would fit better with the European countries in terms of GDP per capita, protection of IP and research.

Both South Korea and Japan have a few companies that are on the leading edge of their respective fields. Samsung is in a huge number of different areas and is the world leader in many of them. Japan has Nikon, Sony, Toyota and a few other big companies that are on the cutting edge in research, design and innovation. So, I don’t accept the argument that the Chinese couldn’t be creative.

Another point I was trying to make, is that over time as a country becomes the center of manufacturing and incremental innovation on a product, it’s likely that they are going to be able to create the next radical innovation in that field. There are two things that support this. First, in a book by Andrew Liveris, the British CEO of Dow Chemical, there is anecdotal evidence to support bringing manufacturing back to the US along with the R&D that goes with it. The other argument is based on the research of Cesar Hidalgo of MIT that shows through network theory, that to become a leader in technology you have to build your way through a series of other technologies. It helps explain why it’s so hard for countries to pick up creating semiconductors. However, as a country develops the technological capability to work within a type of technology they are likely to create innovation and changes in that technology.

China has effectively been given the ability to manufacture just about everything through outsourcing. They have the technological capabilities to build and design new technologies. China also has the resources devoted to it. They created a five year plan where they are going to invest $1.5 trillion in 7 science sectors. Because of these factors I believe that China is a real threat to US and European leadership in research and technology. For any one to dismiss China because of cultural reasons or technological capabilities is making a mistake and is likely to be surprised in 20 -30 years when China becomes a leader in at least one field, likely more than one.

Innovation, Science and Money II

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In my last blog I discussed some of the budgetary cuts occurring in the US and how these cuts are going to impact the future of science. I want to spend some time explaining why this is the case. I mentioned something called Path Dependency, what do I mean by this? Well it’s a pretty simple concept, once you start down a policy path your choices are constrained by your previous choices and the results based on those choices.

This type of path dependency can be seen in scientific and technological changes. For example, if a piece of technology has three parts each one can be improved independently. If each one can be changed in one direction, from a 0 to a 1 each change could impact how likely a specific technology would be selected by consumers. Each change could lead to a local optimal, and could prevent the technology from becoming a global optimal. Additionally, these changes over time, with further research, could lead to radical different technologies. This happening from changing a single feature from on or off. Basically, it’s an evolutionary process.

Policy works the same way. There’s a paper written by Mustar et al (2008) that discusses the policy choices in France and the UK. The objective of the paper was to investigate the impact of policy choices on the creating of academic spin-offs. Some of the results lead to additional technology incubators in the UK and in France. However, the number of academic spin-offs in France actually decreased, however in the UK they increased significantly.

These differences came about because of previous policy choices. For example, France has laws related to civil servants and starting a new company. In France all professors are considered civil servants, so there is a history of professors not starting companies. There’s a lack of culture for entrepreneurship in France for increasing the number of academic spin-offs.

This is what I meant by path dependencies. Decreasing the amount of money going into meaningful academic research will have an impact in other ways. In the US there has been an increased push for increasing the number of companies being started. Scientific research can be turned into new companies through academic spin-offs. Decreasing the funding at two of the biggest funding agencies will decrease the number of academic spin-offs.

References:
Mustar et al 2008 http://www.springerlink.com/content/68282r1460889062/

Innovation, Science and Money

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The death of Steve Jobs has really shaken the technology community. It has really made people do a lot of thinking about innovation and the impact of technology based companies on the economy. The Economist notes that the American work force is on the decline and the high tech companies aren’t making up enough jobs. That now companies like Apple and Google employ less than a third of what companies like GM used to employ. These high tech companies don’t need as many employees. Additionally, it’s a different type of work force that are required in the US. Apple outsources manufacturing because they are really concerned with driving down the cost of manufacturing and maximize profits. This is good business.

In a long article by Peter Thiel, co-founder of Pay Pal and a venture capitalist, he discusses what he calls the end of the future. Where he claims that we’ve been in an innovation slow down since the 70’s. He also argues that scientists and technologists aren’t living up to the claims they are making. He argues that in a lot of ways we’ve been technologically stagnant. Politicians have been making the same promises on energy since the 70’s and that we’ve been slowing down are rate of increase of production for food barely keeping up with population growth. I think that he does make some good points, but he definitely goes a bit over the top with his statements. He’s looking at things only within the national and regional context and is ignoring the fact that there have been cultural changes that have driven a change in how companies innovate.

Historically, companies don’t find value in doing basic research. If you look at the history of research labs within industry, they hire researchers to do incremental and radical innovation. However, this research is carried out within a scientific paradigm which was created in basic research.

In fact we’ve seen a decrease in the amount of R&D being spent by companies. This has lead to some of the stagnation in innovation that Thiel mentions. To combat this and to reduce the risk borne by the company they have been doing more and more contract research with universities and have increase the amount of money they spend with universities.

Thiel also mentions that the government might be able to help but doesn’t see it ever going to happen when you have to justify the expense by cutting something else. Since he’s a libertarian he feels that the budget must be balanced. However, our politicians are cutting budgets to the largest scientific funding agencies in the US. My wife sent me an email with some of the funding cuts, National Science Foundation is getting cut by 2.3%, in fact it’s 14% below the budget requested by the administration. The National Institute for Standards and Technology’s budget is getting cut by 9.3%. Both of these agencies create a large number of jobs. It’s been shown that one research job creates several other jobs. Cutting these budgets will reduce the amount of research which can be conducted. This will impact the number of researchers, impact the quality of education at universities and slow down the ability for universities and firms to exploit new research.

It typically takes 10 years for research to be monetizable. Cutting funding now impacts employment now and future employment. In fact, these changes will have a long term lasting impact. These choices create a path dependency within our society. Without proper funding we’ll be passed by some one that feels research is paramount.