OBJECT MEASUREMENT SYSTEM FOR A VEHICLE

Organization Name

TOYOTA JIDOSHA KABUSHIKI KAISHA

Inventor(s)

Geoffrey David Gaither of Ann Arbor MI (US)

Allison Mcgowan of Ann Arbor MI (US)

Nathan Westover of New Hudson MI (US)

OBJECT MEASUREMENT SYSTEM FOR A VEHICLE - A simplified explanation of the abstract

This abstract first appeared for US patent application 17846414 titled 'OBJECT MEASUREMENT SYSTEM FOR A VEHICLE

Simplified Explanation

The abstract of this patent application describes a technology that enhances the situational competency and safe operation of a vehicle by automatically controlling the vehicle based on measurable attribute data analysis. This analysis includes comparing the relative height of a detected road infrastructure element with a predetermined threshold height value.

• The technology automatically controls a vehicle based on measurable attribute data analysis.
• The analysis includes comparing the height of a detected road infrastructure element with a predetermined threshold.
• The technology aims to enhance the situational competency and safe operation of the vehicle.

Potential Applications

This technology can have various potential applications, including:

• Autonomous vehicles: The technology can be used to enhance the autonomous capabilities of vehicles, allowing them to make informed decisions based on the analysis of road infrastructure elements.
• Driver assistance systems: The technology can be integrated into driver assistance systems to provide real-time feedback and assistance to drivers, improving their situational awareness and safety.
• Fleet management: Fleet operators can utilize this technology to monitor and control their vehicles, ensuring safer and more efficient operations.

Problems Solved

This technology addresses several problems in the field of vehicle operation and safety, such as:

• Lack of situational awareness: By analyzing measurable attribute data, the technology provides vehicles with a better understanding of their surroundings, improving their situational awareness.
• Potential hazards: The comparison of road infrastructure element height with a threshold helps identify potential hazards on the road, allowing the vehicle to take appropriate actions to avoid them.
• Human error: By automatically controlling the vehicle based on data analysis, the technology reduces the reliance on human drivers and mitigates the risk of human error.

Benefits

The technology offers several benefits for vehicle operation and safety, including:

• Enhanced safety: By automatically controlling the vehicle based on data analysis, the technology helps prevent accidents and reduces the risk of collisions.
• Improved efficiency: The technology allows vehicles to make informed decisions based on road infrastructure analysis, leading to more efficient and optimized operations.
• Reduced human workload: By automating certain control functions, the technology reduces the workload on human drivers, allowing them to focus on other important tasks.

Original Abstract Submitted

Vehicle systems, computer-implemented methods, and computer program products to enhance the situational competency and/or the safe operation of a vehicle by automatically controlling the vehicle in response to executing measurable attribute data analysis that includes a comparison of the relative height of a detected road infrastructure element with a predetermined threshold height value.