Innovation doesn’t just happen out of thin air. It requires a conscious effort, and team-wide collaboration. At the same time, innovation will be critical for NASA if the organization hopes to remain competitive and successful in the coming years. Enter Steve Rader. Steve has spent the last 31 years at NASA, working in a variety of roles including flight control under the legendary Gene Kranz, software development, and communications architecture. A few years ago, Steve was named Deputy Director for the Center of Excellence for Collaborative Innovation. As Deputy Director, Steve is spearheading the use of open innovation, as well as diversity thinking. In doing so, Steve is helping the organization find more effective ways of approaching and solving problems. In this fascinating discussion, Steve and Brian discuss design, divergent thinking, and open innovation plus:
Designingforanalytics.com/theseminar Steve Rader’s LinkedIn: https://www.linkedin.com/in/steve-rader-92b7754/ NASA Solve: nasa.gov/solve Steve Rader’s Twitter: https://twitter.com/SteveRader NASA Solve Twitter: https://twitter.com/NASAsolve
Quotes from Today’s Episode“The big benefit you get from open innovation is that it brings diversity into the equation […]and forms this collaborative effort that is actually really, really effective.” – Steve “When you start talking about innovation, the first thing that almost everyone does is what I call the innovation eye-roll. Because management always likes to bring up that we’re innovative or we need innovation. And it just sounds so hand-wavy, like you say. And in a lot of organizations, it gets lots of lip service, but almost no funding, almost no support. In most organizations, including NASA, you’re trying to get something out the door that pays the bills. Ours isn’t to pay the bills, but it’s to make Congress happy. And, when you’re doing that, that is a really hard, rough space for innovation.” – Steve “We’ve run challenges where we’re trying to improve a solar flare algorithm, and we’ve got, like, a two-hour prediction that we’re trying to get to four hours, and the winner of that in the challenge ends up to be a cell phone engineer who had an undergraduate degree from, like, 30 years prior that he never used in heliophysics, but he was able to take that extracting signal from noise math that they use in cell phones, and apply it to heliophysics to get an eight-hour prediction capability.” – Steve “If you look at how long companies stay around, the average in 1958 was 60 y