VEHICLE DATA GENERATION SERVER AND VEHICLE CONTROL DEVICE

Organization Name

TOYOTA JIDOSHA KABUSHIKI KAISHA

Inventor(s)

GENKI Kitahara of Tokyo (JP)

VEHICLE DATA GENERATION SERVER AND VEHICLE CONTROL DEVICE - A simplified explanation of the abstract

This abstract first appeared for US patent application 18597718 titled 'VEHICLE DATA GENERATION SERVER AND VEHICLE CONTROL DEVICE

Simplified Explanation: The patent application describes a system where a server collects data from multiple vehicles regarding their travel lanes, the colors of traffic signals they encounter, and their responses to these signals. The server then generates passable pattern data for each traffic signal based on this information.

Key Features and Innovation:

• Acquiring data sets from vehicles about travel lanes, traffic signal colors, and vehicle behavior.
• Generating passable pattern data for each traffic signal based on the collected data.
• Providing information on which lanes are passable under specific traffic signal conditions.

Potential Applications: This technology could be used in traffic management systems to optimize traffic flow and improve safety on the roads.

Problems Solved: The system addresses the need for real-time data on traffic signal responses and lane passability to enhance traffic control measures.

Benefits:

• Improved traffic flow efficiency.
• Enhanced safety for drivers and pedestrians.
• Real-time data for traffic signal optimization.

Commercial Applications: Title: "Smart Traffic Management System" This technology could be utilized by city authorities, transportation departments, and traffic control companies to enhance traffic management strategies and improve overall road safety.

Prior Art: Researchers interested in this technology may want to explore prior patents related to traffic signal optimization, vehicle data collection, and smart transportation systems.

Frequently Updated Research: Researchers in the field of transportation engineering and smart city development may have ongoing studies related to the optimization of traffic signal responses and lane passability.

Questions about Traffic Signal Response System: 1. How does this technology improve traffic flow efficiency? 2. What are the potential safety benefits of implementing this system?

Question 1: How does this technology improve traffic flow efficiency?

Answer 1: This technology improves traffic flow efficiency by providing real-time data on traffic signal responses and lane passability, allowing for optimized traffic control measures and smoother traffic flow.

Question 2: What are the potential safety benefits of implementing this system?

Answer 2: Implementing this system can enhance safety on the roads by providing accurate information on passable lanes under specific traffic signal conditions, reducing the risk of accidents and improving overall road safety.

Original Abstract Submitted

A vehicle data generation server acquires, from each of multiple vehicles, a data set indicating (i) a travel lane of the corresponding vehicle, (ii) a combination of activated colors of the traffic signal observed by the corresponding vehicle, and (iii) a behavior of the corresponding vehicle with respect to the combination of activated colors of the traffic signal, as a traffic signal response report. The vehicle data generation server generate, as traffic signal response policy data for each traffic signal, passable pattern data indicating, for each lane, a combination of activated colors under which passing is possible, based on the traffic signal response reports acquired from the multiple vehicles. The passable pattern data indicates, for the combination of activated colors, one or more passable lane numbers, but does not include data indicating a shape of each activated light element of the traffic signal.