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 18538272 titled 'Server and Operation System

Simplified Explanation: A server manages multiple movable bodies by generating operation plans for each and instructing them accordingly. It checks for potential contention among the movable bodies and adjusts the operation plans to avoid conflicts.

• The server manages multiple movable bodies by creating operation plans and guiding their actions.
• It assesses the possibility of contention among the movable bodies and makes necessary modifications to prevent conflicts.
• The technology aims to streamline the operation of multiple movable bodies to enhance efficiency and coordination.

Potential Applications: This technology could be applied in various industries such as logistics, robotics, and manufacturing where multiple movable bodies need to operate simultaneously. It can be used in autonomous vehicles, warehouse management systems, and smart factories to optimize movement and avoid collisions. The technology may also find applications in entertainment, such as coordinating drones for light shows or synchronized performances.

Problems Solved: Addresses the challenge of managing multiple movable bodies efficiently and avoiding conflicts. Enhances coordination and synchronization among movable bodies to improve overall operations. Minimizes the risk of collisions and delays by preemptively adjusting operation plans.

Benefits: Increased efficiency and productivity in operations involving multiple movable bodies. Enhanced safety by reducing the likelihood of collisions and accidents. Improved coordination and synchronization for seamless movement of movable bodies.

Commercial Applications: Title: "Optimized Coordination System for Movable Bodies in Various Industries" This technology can be commercialized as a software solution for companies in logistics, robotics, and manufacturing sectors. It offers a competitive advantage by improving operational efficiency and reducing the risk of disruptions. Potential market implications include increased automation in industries and improved safety standards for movable body operations.

Prior Art: Readers interested in exploring prior art related to this technology can start by researching patents in the fields of robotics, automation, and logistics. They can also look into academic publications on coordination systems for multiple agents or movable bodies.

Frequently Updated Research: Researchers are continually exploring advancements in coordination algorithms for multiple movable bodies to enhance efficiency and safety. Studies on real-time collision avoidance systems and predictive modeling for movable body interactions are areas of ongoing research.

Questions about the Technology: 1. How does this technology improve the coordination of multiple movable bodies in real-time operations? 2. What are the key factors to consider when determining potential contention among movable bodies and modifying operation plans to avoid conflicts?

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.