18134728. OPERATION SYSTEM, OPERATION METHOD, AND STORAGE MEDIUM simplified abstract (TOYOTA JIDOSHA KABUSHIKI KAISHA)

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OPERATION SYSTEM, OPERATION METHOD, AND STORAGE MEDIUM

Organization Name

TOYOTA JIDOSHA KABUSHIKI KAISHA

Inventor(s)

Takemitsu Mori of Toyota-shi (JP)

OPERATION SYSTEM, OPERATION METHOD, AND STORAGE MEDIUM - A simplified explanation of the abstract

This abstract first appeared for US patent application 18134728 titled 'OPERATION SYSTEM, OPERATION METHOD, AND STORAGE MEDIUM

Simplified Explanation

The abstract describes an operating system that controls a moving object from a group of moving objects. The system includes a display unit that shows the surroundings of the moving object and a switching unit that switches control between different moving objects based on operation information. The switching can occur when one moving object starts operating based on the operation information of another moving object or when the display unit shows an image adjusted according to the operation information of a specific moving object.

  • The operating system controls a selected moving object from a group of moving objects.
  • A display unit shows the surroundings of the moving object through display information.
  • A switching unit switches control between different moving objects based on operation information.
  • The switching can occur when one moving object starts operating based on the operation information of another moving object.
  • The switching can also occur when the display unit shows an image adjusted according to the operation information of a specific moving object.

Potential Applications

This technology has potential applications in various fields, including:

  • Autonomous vehicles: The operating system can control different autonomous vehicles based on their operation information, allowing for efficient management and coordination.
  • Robotics: Multiple robots can be controlled and switched based on their operation information, enabling collaborative tasks and improved efficiency.
  • Surveillance systems: The operating system can switch control between different surveillance cameras based on their operation information, providing comprehensive coverage and monitoring.

Problems Solved

The operating system addresses several problems, including:

  • Efficient control: By switching control between different moving objects, the system optimizes resource allocation and coordination, leading to improved efficiency.
  • Adaptability: The system can adapt to changes in operation information, allowing for seamless control transitions and flexibility in managing different moving objects.
  • Enhanced situational awareness: The display unit provides an image of the surroundings, enabling operators to have a better understanding of the environment and make informed decisions.

Benefits

The technology offers several benefits, such as:

  • Improved efficiency: The ability to switch control between moving objects based on operation information allows for better resource utilization and coordination, leading to increased efficiency.
  • Enhanced coordination: The operating system enables seamless coordination between different moving objects, promoting collaboration and synchronized actions.
  • Situational awareness: The display unit provides a visual representation of the surroundings, enhancing operators' situational awareness and facilitating better decision-making.


Original Abstract Submitted

The operation system controls a moving object selected from a plurality of moving objects. The operation system includes a display unit that displays display information including an image of the surroundings of the moving body, and a switching unit that switches the control target from the first moving body to the second moving body by using the operation information indicating the operation of the moving body. The switching unit switches the control target from the first moving body to the second moving body in at least one of a case where the second moving body starts the operation based on the operation information of the first moving body, a case where the first moving body starts the operation based on the operation information of the second moving body, and a case where the display unit displays an image adjusted in accordance with the operation information of the first moving body.