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Toyota and Stanford Have Developed Synchronized AI-Powered Supras
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Toyota and Stanford University researchers have developed autonomous race cars capable of performing synchronized drifting, a breakthrough in pushing the boundaries of self-driving technology.

Key demonstration of advanced autonomous driving: The two modified Toyota Supra sports cars showcased their AI-powered drifting skills in tandem at the Thunderhill Raceway Park in California:

  • The vehicles were equipped with computers, sensors, and algorithms that combine mathematical models of tires and track with machine learning to master the art of drifting.
  • The cars communicated with each other and calculated optimization problems up to 50 times per second to balance steering, throttle, and braking while drifting in close proximity.

Potential real-world applications: The techniques developed for this feat could eventually enhance future driver-assistance systems:

  • The algorithms tested could help intervene when a driver loses control, steering the vehicle out of trouble like a stunt driver.
  • Chris Gerdes, a Stanford professor involved in the project, believes these advancements can be scaled up to tackle challenges like automated driving in urban scenarios.

Importance of pushing autonomous driving to the extremes: Mastering high-speed autonomy in challenging conditions is crucial for the future of self-driving vehicles:

  • Ming Lin, a professor at the University of Maryland, emphasizes that one of the biggest challenges for autonomous vehicles is operating safely in adverse weather conditions or poor lighting.
  • The project demonstrates the significance of combining machine learning with physical models in real-world situations to improve autonomous driving capabilities.

Broader implications: While the tandem drifting demo is an impressive feat, it also highlights the ongoing challenges in applying AI to the unpredictable physical world:

  • Despite remarkable advances in AI, such as large language models powering programs like ChatGPT, mastering the messy and complex real world remains a distinct challenge.
  • As Avinash Balachandran, vice president of Toyota Research Institute’s Human Interactive Driving division, points out, while hallucinations in language models may not be catastrophic, errors in autonomous driving could have severe consequences.

The synchronized drifting demonstration by Toyota and Stanford researchers is a significant step forward in pushing the limits of autonomous driving technology. By developing algorithms that can handle extreme driving situations, this project lays the groundwork for future advancements in driver-assistance systems and urban automated driving. However, it also serves as a reminder of the substantial challenges that remain in applying AI to the complex and unpredictable real world, particularly when it comes to ensuring safety in autonomous vehicles.

Toyota Pulls Off a Fast and Furious Demo With Dual Drifting AI-Powered Race Cars

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