Qualcomm Assists Robotics Program Transition to User-Friendly, Java-Based Android Platform Powered by the Qualcomm Snapdragon 410 Processor
New Platform to be demonstrated at FIRST Championship April 2015, St. Louis, MO
MANCHESTER, N.H. — (BUSINESS WIRE) — March 11, 2015 — FIRST® (For Inspiration and Recognition of Science and Technology), an international not-for-profit K-12 organization founded by inventor Dean Kamen to inspire young people’s interest and participation in science and technology, today announced that one of its four K-12 robotics programs, FIRST® Tech Challenge (FTC®) targeted to middle and high-school students, has selected a game-changing technology platform beginning with the upcoming 2015/2016 season.
The new platform features robot and driver-station controls based on a Qualcomm® Snapdragon™ processor, which is new in the large robotics competition arena. The new system will be demonstrated at the FIRST Championship in St. Louis, April 22-25, 2015.
The platform, which consists of handheld devices, will be powered by Snapdragon 410 processors from Qualcomm Technologies, Inc. (QTI), a subsidiary of Qualcomm Incorporated, a FIRST Strategic Partner.
“In the foreseeable future, robotics will permeate our everyday lives,” said FIRST Founder, Dean Kamen. “Our FIRST students are ahead of the game as they are already adept users of three emerging technologies: sensors; 3D printing, and open-source software. Now that we are adding this mobile element to the already-robust FIRST technology equation – just watch what these kids will be capable of doing.”
The strategy to upgrade technology for the FIRST Tech Challenge program was in conjunction with FIRST Strategic Partner, Qualcomm.
“We are long-time supporters of FIRST programs and are excited to take this support to the next level. FTC teams will now be able to tap into the amazing capabilities of Snapdragon devices as the heart of their control system. We believe this has the potential to inspire students to become future generations of scientists, engineers, and inventors, in part by getting them to realize that the device they routinely hold in the palm of their hands can lead them to greater knowledge, new horizons, and eventually meaningful careers,” said Matt Grob, CTO, Qualcomm Technologies, Inc. “This is an evolutionary step for FIRST and another example of how Qualcomm is bringing its expertise in mobile to robotics.”
The move to this new Android™ platform demonstrates the FIRST organization’s commitment to utilize the most innovative and advanced technologies and to prepare students with real, relevant STEM (science, technology, engineering and math) skills they will need and use in the 21st century workplace.
"Similar to the way in which FIRST programs have provided thousands of 3D printers to FIRST teams, our organization is constantly looking for ways we can enable students to gain hands-on experience and master new technology tools," said Donald E. Bossi, president, FIRST. "By bringing the platform powered by Snapdragon processors, and Java programming to the FIRST Tech Challenge, we are exposing our students to the incredible power and potential of devices they hold in their hands and use every day.”
Moving to a communication and control system based on Android and Snapdragon will give FIRST Tech Challenge students powerful benefits during their build and competition seasons, including:
- High speed processing and advanced sensors already built into phones and tablets based on Snapdragon;
- Advanced communication architecture uniquely suited to mobile robotics;
- 1:1 Team to robot communication that’s easy and reliable, allowing teams to “practice like they play;”
- Greater access to a wider variety of participants worldwide;
- Technology evolution on pace with devices powered by Android and Snapdragon;
- Teams can use all their existing FTC hardware, sensors, and electronics – just by adding Android and devices powered by Snapdragon processors and interface modules;
- Less intimidating step into robotics for students and teachers who have not yet participated on a robotics team;
- Elimination of a central field control system which means easier set up and inspections for fewer volunteers at on site competitions; and
- Fast team competition check-in, easier event set up, more reliable on field communications.