DRIVING DIAGNOSTIC DEVICE, DRIVING DIAGNOSTIC SYSTEM, MACHINE LEARNING DEVICE AND GENERATION METHOD OF LEARNED MODEL

Organization Name

TOYOTA JIDOSHA KABUSHIKI KAISHA

Inventor(s)

Masato Endo of Nagoya-shi (JP)

DRIVING DIAGNOSTIC DEVICE, DRIVING DIAGNOSTIC SYSTEM, MACHINE LEARNING DEVICE AND GENERATION METHOD OF LEARNED MODEL - A simplified explanation of the abstract

This abstract first appeared for US patent application 18298388 titled 'DRIVING DIAGNOSTIC DEVICE, DRIVING DIAGNOSTIC SYSTEM, MACHINE LEARNING DEVICE AND GENERATION METHOD OF LEARNED MODEL

Simplified Explanation

The driving diagnostic device described in this patent application is designed to evaluate a driver's driving operation based on traveling data acquired from a vehicle. It also includes a passenger presence-absence detection unit that detects whether there is a passenger in the vehicle. The device notifies the driver of the driving evaluation result, and the notification method can be changed based on whether there is a passenger present or not.

• The device acquires traveling data indicating the state of the vehicle's travel.
• It evaluates the driver's driving operation using the acquired traveling data.
• The device includes a passenger presence-absence detection unit to determine if there is a passenger in the vehicle.
• The notification unit informs the driver of the driving evaluation result.
• The notification method of the driving evaluation result can be adjusted based on whether a passenger is detected or not.

Potential Applications

• Driver training and improvement: The device can provide real-time feedback to drivers, helping them improve their driving skills and habits.
• Ride-sharing services: The device can be used to monitor and evaluate the driving behavior of ride-sharing drivers, ensuring a safe and comfortable experience for passengers.
• Fleet management: The device can be utilized by fleet operators to monitor and assess the driving performance of their drivers, promoting safer and more efficient operations.

Problems Solved

• Lack of real-time feedback: The device addresses the issue of drivers not receiving immediate feedback on their driving performance, allowing them to make necessary adjustments while on the road.
• Passenger presence consideration: By taking into account the presence or absence of a passenger, the device can tailor the notification method to ensure privacy and avoid unnecessary distractions.

Benefits

• Improved driving behavior: The device encourages drivers to adopt safer and more efficient driving habits by providing them with feedback and evaluation.
• Enhanced passenger experience: By considering the presence of passengers, the device can adjust the notification method to minimize distractions and maintain privacy.
• Increased road safety: By evaluating driving operations and providing feedback, the device contributes to promoting safer driving practices and reducing the risk of accidents.

Original Abstract Submitted

The driving diagnostic device of the present disclosure includes: an acquisition unit that acquires traveling data indicating a traveling state of a vehicle; a driving evaluation unit that evaluates a driving operation of the driver based on the traveling data acquired by the acquisition unit; a passenger presence-absence detection unit that detects presence or absence of a passenger in the vehicle; and a notification unit that notifies a driver of a driving evaluation result detected by the driving evaluation unit, wherein the notification unit changes a notification method of the driving evaluation result based on a detection result of the passenger presence-absence detection unit.