SERVER APPARATUS

Organization Name

toyota jidosha kabushiki kaisha

Inventor(s)

Takahiro Aoki of Saitama-shi Saitama-ken (JP)

Yuta Takata of Toyota-shi Aichi-ken (JP)

Haruki Oguri of Toyota-shi Aichi-ken (JP)

Takashi Yamazaki of Nagoya-shi Aichi-ken (JP)

Tsuyoshi Okada of Nagoya-shi Aichi-ken (JP)

Hiroki Asao of Kobe-shi Hyogo-ken (JP)

SERVER APPARATUS - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240249627 titled 'SERVER APPARATUS

The abstract of the patent application describes a server apparatus that communicates with vehicles to acquire information on the required charge amount and position of a vehicle that needs to be charged. The server then provides instructions for a power supply vehicle to travel to the position where road surface power supply is available.

• The server apparatus includes a communication interface for interacting with vehicles.
• The controller is configured to acquire information on the required charge amount and position of a vehicle that needs charging.
• Instructions are provided for a power supply vehicle lacking the required charge amount to travel to a location with road surface power supply.
• This innovation aims to optimize the charging process for electric vehicles by directing power supply vehicles to the most efficient charging locations.
• By efficiently managing the charging process, this technology can help reduce downtime for electric vehicles and improve overall charging infrastructure.
• The system can potentially be integrated into existing electric vehicle charging networks to enhance their efficiency and effectiveness.

Potential Applications: - Electric vehicle charging infrastructure optimization - Fleet management for electric vehicle charging services - Smart city transportation systems

Problems Solved: - Efficient allocation of power supply vehicles for charging electric vehicles - Optimization of charging locations for electric vehicles - Reduction of downtime for electric vehicles due to charging delays

Benefits: - Improved efficiency in electric vehicle charging processes - Enhanced utilization of charging infrastructure - Reduced waiting times for electric vehicle charging

Commercial Applications: Title: Electric Vehicle Charging Optimization System This technology can be utilized by electric vehicle charging service providers to streamline their operations and improve customer satisfaction. It can also be integrated into smart city transportation systems to enhance the overall efficiency of electric vehicle usage.

Questions about Electric Vehicle Charging Optimization System: 1. How does this technology improve the overall efficiency of electric vehicle charging processes? - This technology optimizes the allocation of power supply vehicles and directs them to the most suitable charging locations, reducing downtime for electric vehicles and improving the overall charging infrastructure efficiency.

2. What are the potential applications of this innovation beyond electric vehicle charging services? - This technology can also be applied to fleet management systems for electric vehicles and integrated into smart city transportation networks to enhance the efficiency of electric vehicle usage.

Original Abstract Submitted

a server apparatus includes a communication interface, and a controller configured to communicate with vehicles using the communication interface, acquire information on a required charge amount and a position of a vehicle that needs to be charged, and provide instructions that a power supply vehicle that does not have the required charge amount is to travel a route where road surface power supply is available to the position.