TOYOTA JIDOSHA KABUSHIKI KAISHA (20240343302). AUTONOMOUS DRIVING CONTROL DEVICE simplified abstract
Contents
AUTONOMOUS DRIVING CONTROL DEVICE
Organization Name
TOYOTA JIDOSHA KABUSHIKI KAISHA
Inventor(s)
Yoji Kunihiro of Susono-shi (JP)
Takahiro Kojo of Gotemba-shi (JP)
Yutaka Aoki of Mishima-shi (JP)
AUTONOMOUS DRIVING CONTROL DEVICE - A simplified explanation of the abstract
This abstract first appeared for US patent application 20240343302 titled 'AUTONOMOUS DRIVING CONTROL DEVICE
The abstract describes an autonomous driving control device that can determine if a driver has operated the steering unit while driving in a specific control mode. It includes units for calculating deviation speed and steering speed, as well as a control mode switching unit that adjusts the control amount output to the actuator based on the driver's steering input.
- Steering determination unit to detect driver input
- Operation speed calculation unit for deviation speed and steering speed
- Control mode switching unit to adjust control amount based on driver input
Potential Applications: - Autonomous vehicles - Advanced driver assistance systems - Automotive safety technology
Problems Solved: - Enhances autonomous driving capabilities - Improves driver interaction with autonomous systems - Increases overall safety on the road
Benefits: - Enhanced control and responsiveness in autonomous driving - Improved driver engagement and trust in autonomous systems - Enhanced safety features for vehicles
Commercial Applications: Title: Advanced Autonomous Driving Control Device for Enhanced Safety This technology can be utilized in the automotive industry for the development of advanced autonomous driving systems that prioritize safety and driver interaction. It can be integrated into various vehicles to enhance their autonomous capabilities and improve overall road safety.
Questions about Autonomous Driving Control Device: 1. How does this technology improve driver interaction with autonomous systems? This technology enhances driver interaction by detecting steering input and adjusting control accordingly, providing a more seamless driving experience.
2. What are the potential applications of this autonomous driving control device? The potential applications include autonomous vehicles, advanced driver assistance systems, and automotive safety technology.
Original Abstract Submitted
an autonomous driving control device includes a steering determination unit that determines whether a driver has operated a steering unit while driving with an actuator controlled in a first control mode, an operation speed calculation unit that calculates at least one of a deviation speed, which is the change rate of deviation between a target steering angle during autonomous driving and an actual steering angle, and a steering speed, which is the change rate of the actual steering angle, and a control mode switching unit that, when it is determined that the driver has operated the steering unit, changes an instruction value to be output to the actuator from a first target control amount in the first control mode to a second target control amount in the second control mode at a change rate corresponding to at least one of the deviation speed and the steering speed described above.