COMMUNICATION DEVICE AND COMMUNICATION SIGNAL GENERATION METHOD

Organization Name

Panasonic Intellectual Property Management Co., Ltd.

Inventor(s)

Hisao Koga of Fukuoka (JP)

Makoto Yonekura of Fukuoka (JP)

Koji Ikeda of Fukuoka (JP)

COMMUNICATION DEVICE AND COMMUNICATION SIGNAL GENERATION METHOD - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240014855 titled 'COMMUNICATION DEVICE AND COMMUNICATION SIGNAL GENERATION METHOD

Simplified Explanation

The abstract describes a communication device and method that receive input data and process it to generate a communication frame. The device operates on different channels, each defined by a different mode and having different frequency bands and subcarrier intervals. The number of channels in each mode also varies.

• The communication device receives input data and processes it to generate a communication frame.
• The device operates on different channels, including at least one first channel defined by a first mode and at least one second channel defined by a second mode.
• The frequency band of the first channel, including subcarriers, is different from the frequency band of the second channel.
• The frequency interval of the subcarriers in the first channel is different from the frequency interval of the subcarriers in the second channel.
• The number of channels in the first mode is different from the number of channels in the second mode.

Potential applications of this technology:

• Wireless communication systems: The device can be used in wireless communication systems to process input data and generate communication frames on different channels, allowing for efficient and flexible communication.
• Multi-channel communication: The technology enables the use of multiple channels with different frequency bands and subcarrier intervals, which can improve the capacity and reliability of communication systems.

Problems solved by this technology:

• Channel interference: By operating on different channels with different frequency bands and subcarrier intervals, the technology helps mitigate channel interference, improving the quality and reliability of communication.
• Efficient spectrum utilization: The use of different channels with varying frequency bands and subcarrier intervals allows for efficient utilization of the available spectrum, maximizing the capacity of communication systems.

Benefits of this technology:

• Flexibility: The device can operate on different channels with different characteristics, providing flexibility in adapting to various communication scenarios and requirements.
• Improved communication quality: By mitigating channel interference and utilizing the spectrum efficiently, the technology can enhance the quality and reliability of communication.
• Increased capacity: The use of multiple channels with different frequency bands and subcarrier intervals can increase the capacity of communication systems, allowing for more simultaneous connections and higher data rates.

Original Abstract Submitted

a communication device and a communication signal generation method are provided that perform receiving input data; and processing the input data according to a determined channel to generate a communication frame. the determined channel corresponds to one of a plurality of channels including at least one first channel defined by a first mode and at least one second channel defined by a second mode. a frequency band of the first channel including subcarriers is different from a frequency band of the second channel including subcarriers. a frequency interval of the subcarriers in the first channel is different from a frequency interval of the subcarriers in the second channel. a number of the first channel(s) in the first mode is different from a number of the second channel(s) in the second mode.