Groundbreaking record showcases power of novel assured neuro symbolic learning and reasoning methodology
The AI Racing Tech Team led by UC Berkeley’s Robot Open Autonomous Racing (ROAR) program achieved the fastest autonomous lap time ever recorded in the U.S. at 1 minute 27 seconds at the Putnam Park Road Course in Greencastle, Indiana on August 31. The team’s custom Dallara AV-21 Indy racing car, which is considered the most autonomous car ever built and valued at over a million dollars, broke the previous autonomous course record of 2 minutes 9 seconds.
The performance secured the team’s standing as the top-ranked U.S.-based AI Racing team in the International league of the Indy Autonomous Challenge (IAC), a DARPA-inspired competition designed to inspire the next generation of STEM talent and innovation.
The AI Racing Tech Team’s record-setting performance was a triumph of developing novel sim-to-real learning tools and machine learning technologies to optimize the safe performance of an autonomous driving system, adapting in real-time to individual road courses with variations in terrain, configurations, and track characteristics. To put this accomplishment into perspective, the theoretical computational lowest limit for the fully optimized Dallara AV-21 car at Putnam Park Road Course is 1 minute 12 seconds.
“The sim-to-real transfer really pushed us,” says S. Shankar Sastry, UC Berkeley professor, ROAR faculty director, and racing team advisor. “You design in-silico, train extensively in simulation, then see how the system behaves under the pressure of competition. Going 150 miles an hour really focuses the mind – and tests the resilience of the algorithms and neuro-symbolic design tools.”
The AI Racing Tech Team is made up of artificial intelligence and autonomy researchers and undergraduate and graduate students at four universities: Carnegie Mellon University, the University of Hawaii, and the University of California, San Diego, in addition to UC Berkeley. Last month’s record-setting performance builds on the team’s past racing successes, coming in second at the 2022 IAC in Dallas and third at the 2023 IAC at the Consumer Electronics Show (CES) in Las Vegas, in competition with eight other international IAC teams.
This record-setting exercise at Putnam Park serves as a training ground for two upcoming Challenge events: The Oval race at CES 2024 in Las Vegas, NV in January, and in June 2024 at the MIMO Road Course race in Monza, Italy at the famous Autodromo Nazionale Monza so familiar to Formula One fans.
This pioneering competition for extreme autonomous robotics signals a transformative era for industries grappling with the challenges of pushing automated systems to the limit and corner cases of design. The race environment mirrors the hardware challenges encountered in application domains such as aerospace, defense, and healthcare. These challenges also include expensive equipment, limited access, unknown conditions, and the need for safety and performance assurances.
“Extreme robotics needs provably correct performance guarantees, and the AI Racing Tech Team is among the first to deploy and experiment on these theories using Indy cars,” says Allen Yang, UC Berkeley FHL Vive Center Executive Director, ROAR Principal Investigator, and UC Berkeley racing team lead.
Follow the AI Racing Tech Team’s journey to prepare for the 2024 race season at airacingtech.com and social media.
The UC Berkeley Robot Open Autonomous Racing (ROAR) program
The UC Berkeley Robot Open Autonomous Racing program was launched in 2019 to advance solutions of Autonomous Systems, Intelligent Machines, and Human-in-the-Loop Control for extreme robotics applications. Its faculty and students have extensive experience in developing high-performance algorithms for 3D Perception, Model Predictive Control, Reinforcement Learning, Generative AI, and Simulation and Virtual Reality, and have received major funding from NSF, ONR, ARL, DARPA, and various industry sponsors.
The AI Racing Tech Team
The AI Racing Tech Team, the top-ranked U.S.-based team in the Indy Autonomous Challenge, pushes untested boundaries and drives research to ensure the highest caliber of safety for the future of commercial autonomy. Co-led by Team Principal Gary Passon of the University of Hawaii and UC Berkeley ROAR Director Allen Yang, the team is made up of faculty and students from UC Berkeley, the University of Hawaii, Carnegie Mellon University, and UC San Diego. The technical co-leads are Siddharth Saha, Haoru Xue, and C.K. Wolfe.