18447103. COMMUNICATION SYSTEM, CONTROLLER, AND COMMUNICATION METHOD simplified abstract (TOYOTA JIDOSHA KABUSHIKI KAISHA)

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COMMUNICATION SYSTEM, CONTROLLER, AND COMMUNICATION METHOD

Organization Name

TOYOTA JIDOSHA KABUSHIKI KAISHA

Inventor(s)

Kenichi Takizawa of Koganei-shi (JP)

COMMUNICATION SYSTEM, CONTROLLER, AND COMMUNICATION METHOD - A simplified explanation of the abstract

This abstract first appeared for US patent application 18447103 titled 'COMMUNICATION SYSTEM, CONTROLLER, AND COMMUNICATION METHOD

Simplified Explanation

The communication system described in the patent application involves optimizing communication path capacity between two communication stations by strategically using relay stations.

  • The system includes a first communication station, one or more relay stations, and a second communication station.
  • The controller determines the best relay station to use as an interposition to maximize communication path capacity under certain constraints.
  • The capacity is calculated based on radio wave propagation characteristics between the stations.

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      1. Potential Applications
  • Telecommunications networks
  • Internet of Things (IoT) devices
  • Autonomous vehicles communication systems
      1. Problems Solved
  • Maximizing communication path capacity
  • Efficient use of relay stations
  • Optimizing network performance
      1. Benefits
  • Improved communication reliability
  • Enhanced network efficiency
  • Better utilization of resources


Original Abstract Submitted

A communication system includes a first communication station, one or more relay stations to be communicable with the first communication station, a second communication station to be communicable with the first communication station via any of the relay stations or without via any of the relay stations and a controller. The controller determines the relay station serving as an interposition in communications between the first communication station and the second communication station to maximize the communication path capacity between the first communication station and the second communication station under a predetermined constraint condition, the communication path capacity being calculated based on radio wave propagation characteristics between the first communication station and each of the relay stations, the characteristics between each of the relay stations and the second communication station, and the characteristics between the first communication station and the second communication station.

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