Server and Operation System

Organization Name

toyota jidosha kabushiki kaisha

Inventor(s)

Kenji Kondo of Setagaya-ku Tokyo-to (JP)

Server and Operation System - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240246561 titled 'Server and Operation System

The abstract describes a server that manages multiple movable bodies by generating operation plans for each body and instructing them to operate accordingly. The server can determine if contention will occur among the movable bodies at the same stand-by point and timing, and modify the operation plan of at least one body to avoid contention.

• Server manages multiple movable bodies
• Generates operation plans for each body
• Instructs bodies to operate according to the plans
• Determines if contention will occur among bodies at the same stand-by point and timing
• Modifies operation plan of at least one body to avoid contention

Potential Applications: - Logistics and warehouse management - Autonomous vehicles and drones - Robotics and manufacturing processes

Problems Solved: - Avoiding contention among movable bodies - Optimizing operation plans for efficiency - Preventing collisions and delays in movement

Benefits: - Increased efficiency in operation - Reduced risk of collisions and delays - Improved coordination among movable bodies

Commercial Applications: Title: "Optimized Operation Planning System for Movable Bodies" This technology can be used in industries such as logistics, transportation, and manufacturing to streamline operations, improve productivity, and reduce costs.

Prior Art: Further research can be conducted in the fields of robotics, automation, and artificial intelligence to explore similar systems for managing multiple movable bodies.

Frequently Updated Research: Stay updated on advancements in autonomous systems, artificial intelligence, and logistics management to enhance the capabilities of the server in managing movable bodies.

Questions about Optimized Operation Planning System for Movable Bodies: 1. How does the server determine if contention will occur among the movable bodies? The server analyzes the stand-by points and timing of the bodies to predict potential contention and modify operation plans accordingly.

2. What are the key benefits of using this technology in logistics and warehouse management? This technology can improve efficiency, reduce delays, and enhance coordination among movable bodies in logistics and warehouse operations.

Original Abstract Submitted

a server that manages a plurality of movable bodies generates an operation plan of each of the plurality of movable bodies and instructs each of the plurality of movable bodies to operate in accordance with the generated operation plan. the server is configured to perform determining, before it instructs each of the plurality of movable bodies to operate, whether or not contention will occur, the contention referring to a plurality of movable bodies standing by at a same stand-by point at the same timing if the server instructs each of the plurality of movable bodies to operate in accordance with the operation plan, and modifying the operation plan of at least one of a plurality of contending movable bodies to avoid the contention when it determines that the contention will occur.