NIPPON TELEGRAPH AND TELEPHONE CORPORATION (20240275491). WIRELESS COMMUNICATION METHOD AND WIRELESS COMMUNICATION SYSTEM simplified abstract
Contents
WIRELESS COMMUNICATION METHOD AND WIRELESS COMMUNICATION SYSTEM
Organization Name
NIPPON TELEGRAPH AND TELEPHONE CORPORATION
Inventor(s)
Kota Ito of Musashino-shi (JP)
Mizuki Suga of Musashino-shi (JP)
Takuto Arai of Musashino-shi (JP)
Yushi Shirato of Musashino-shi (JP)
Naoki Kita of Musashino-shi (JP)
WIRELESS COMMUNICATION METHOD AND WIRELESS COMMUNICATION SYSTEM - A simplified explanation of the abstract
This abstract first appeared for US patent application 20240275491 titled 'WIRELESS COMMUNICATION METHOD AND WIRELESS COMMUNICATION SYSTEM
The abstract describes a wireless communication method in a system with an exchange device and a base station device that performs beamforming under the control of the exchange device.
- The exchange device controls beamforming of the base station device by transmitting an optically modulated signal via an optical transmission line.
- The optically modulated signal is generated by modulating the intensity of an optical signal based on the transmission signal to be sent.
- The base station device processes the optically modulated signal to perform beamforming in a specific direction.
Potential Applications: - This technology can be applied in wireless communication systems to enhance signal transmission and reception. - It can improve the efficiency and reliability of communication networks in various settings.
Problems Solved: - Enhances beamforming capabilities in wireless communication systems. - Improves signal quality and coverage in challenging environments.
Benefits: - Increased signal strength and coverage. - Enhanced communication reliability and performance.
Commercial Applications: Title: Advanced Wireless Communication Beamforming Technology This technology can be utilized in telecommunications, IoT devices, and smart city infrastructure to optimize wireless communication networks for better connectivity and performance.
Questions about the technology: 1. How does this technology improve the efficiency of wireless communication systems? - This technology enhances signal transmission and reception by optimizing beamforming techniques. 2. What are the potential implications of implementing this technology in 5G networks? - Implementing this technology in 5G networks can improve signal quality, coverage, and overall network performance.
Original Abstract Submitted
a wireless communication method in a wireless communication system including an exchange device and a base station device configured to perform beamforming according to the control of the exchange device, in which: the exchange device performs beamforming control of the base station device by transmitting an optically modulated signal to the base station device via an optical transmission line, the optically modulated signal being generated by modulating an intensity of an optical signal on a basis of a transmission signal to be transmitted by controlling any combination of an optical wavelength, a frequency, and an optical polarization or controlling the frequency; and the base station device inputs an electrical signal based on the optically modulated signal to a beamforming circuit having an input port corresponding to the number of combinations of the optical wavelength, the frequency, and the optical polarization or the number of frequencies to perform beamforming in a direction corresponding to the input port to which the electrical signal has been input.
