What breakthroughs are on the launch pad?

Fifty years ago today, a Saturn V rocket carrying the Apollo 11 mission modules, loaded with some of the most advanced technology the world had ever seen, rolled out to the launch pad at the Kennedy Space Center. Two months later, Neil Armstrong took “one small step for man and one giant leap for mankind.”

Apollo 11 was the greatest scientific achievement of the 20th century. That “moonshot” was also the culmination of almost a decade’s worth of research, planning and innovation by nearly an entire generation of U.S. engineers, scientists and technical staff. They developed thousands of new designs and technologies to overcome the daunting challenges associated with sending humans to the moon and back.

Many of the Apollo-era innovations ? such as cordless tools, scratch-resistant lenses and memory foam ? continue to benefit our lives today. One in particular, integrated circuits, helped unlock the power of computers, which have fueled the rapid pace of technological change we’ve seen in the decades since.

Innovation continues

Scientists and engineers didn’t stop innovating once Apollo 11 splashed down. If anything, the pace of innovation has only accelerated ? think about how fast we’ve progressed from the first home computers to laptops to smartphones ? aided by breakthroughs in the tools and materials available to innovators today. For example, additive manufacturing machinery gives engineers the ability to quickly build precise components in complex geometrical shapes, such as honeycomb structures. Advancements in nanotechnology and 3-D modeling are also helping innovators envision new materials and designs.

A half century after Apollo 11, a new generation of moonshot technologies are getting ready for the launch pad. Here are a couple of examples of technologies that aren’t just 10 percent better than existing capabilities ? they represent a 10x improvement and have the capacity to change our everyday lives:

Hypersonic flight: Imagine the ability to travel from New York to Paris in less than an hour, or to quickly transport emergency supplies to civilians around the world. Those are possible outcomes if we are able to unlock the advanced technologies behind maneuverable hypersonics, or the ability to fly faster than Mach 5. Although this moonshot research is currently being driven by national security interests, the potential commercial benefits could also be significant.

AI avatar: Imagine if everyone had their own personal assistant. One benefit of responsibly developed artificial intelligence and machine learning is its ability to process large amounts of data and make recommendations. The moonshot concept might be called an “AI avatar” – essentially a computerized assistant that learns a user’s intuition over time. It would fuse that knowledge with data from the environment and make recommendations accordingly. This type of AI avatar could help everyone be more effective, efficient and smarter with their time and money.

A new workforce of innovators

With the accelerating pace of change, newly available design and manufacturing tools and today’s tech moonshots, there has never been a more exciting time to be a scientist, engineer or innovator. Technology companies such as mine are hiring thousands of STEM professionals to work on their tech moonshot projects. Some positions are in traditional fields, such as electrical and software engineering. Others, reflecting the changing technological landscape, are in such fields as robotics, AI/machine learning and high-energy lasers.

Apollo 11 showed us what could be accomplished with hard work, ingenuity, determination and vision. The space program’s technological innovations not only allowed Neil Armstrong, Buzz Aldrin and Michael Collins to travel to the moon and back safely, but they also changed the world for the better. That should ultimately be the goal for any moonshot: using technology to make the world a better place.