COMMUNICATION SYSTEM, BASE STATION, AND COMMUNICATION METHOD

Organization Name

TOYOTA JIDOSHA KABUSHIKI KAISHA

Inventor(s)

Lei Zhong of Chuo-ku Tokyo-to (JP)

Jing Ma of Yokohama-shi Kanagawa-ken (JP)

Xiao Shao of Kawasaki-shi Kanagawa-ken (JP)

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

This abstract first appeared for US patent application 18242593 titled 'COMMUNICATION SYSTEM, BASE STATION, AND COMMUNICATION METHOD

Simplified Explanation

The communication system described in the abstract involves a handover process between two base stations, where renewable energy use rates are taken into consideration for efficient data transmission to user terminals.

• The first base station sends a handover request to the second base station when a user terminal needs to be handed over.
• The second base station responds with a handover response, including its renewable energy use rate.
• The first base station then sends a handover command to the user terminal based on the renewable energy use rate received.

Potential Applications

This technology can be applied in:

• Mobile communication networks
• Renewable energy integration in communication systems

Problems Solved

This technology solves issues related to:

• Efficient handover processes in communication systems
• Integration of renewable energy sources in base stations

Benefits

The benefits of this technology include:

• Improved energy efficiency in communication systems
• Reduced carbon footprint in communication networks

Potential Commercial Applications

Potential commercial applications of this technology include:

• Telecommunication companies looking to optimize energy consumption
• Green technology companies focusing on renewable energy integration in communication systems

Possible Prior Art

There may be prior art related to:

• Energy-efficient handover processes in communication systems
• Integration of renewable energy sources in base stations

What are the specific renewable energy sources used in the second base station's renewable energy use rate calculation?

The abstract does not specify the specific renewable energy sources used in the calculation of the second base station's renewable energy use rate. It would be beneficial to know if this includes solar, wind, or other sources.

How does the handover command to the user terminal impact data transmission control?

The abstract mentions that the handover command to the user terminal includes the renewable energy use rate or a data transmission control command based on the renewable energy use rate. It would be interesting to understand how this impacts data transmission control and if it leads to more efficient data transfer.

Original Abstract Submitted

A communication system comprising a first base station that includes a first controller and a second base station that includes a second controller, wherein the first controller is configured to transmit a handover request to the second base station in a case where handover of a user terminal to the second base station is required, the second controller is configured to transmit a handover response to the first base station in response to reception of the handover request, the handover response including a renewable energy use rate of the second base station, and the first controller is configured to transmit a handover command to the user terminal in response to reception of the handover response, the handover command including the renewable energy use rate or a data transmission control command according to the renewable energy use rate.