OPTICAL REPEATER DEVICE AND RELAY METHOD

Organization Name

kabushiki kaisha toshiba

Inventor(s)

Kyosuke Dobashi of Higashimurayama Tokyo (JP)

OPTICAL REPEATER DEVICE AND RELAY METHOD - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240322907 titled 'OPTICAL REPEATER DEVICE AND RELAY METHOD

Simplified Explanation: The patent application describes an optical repeater system that synchronizes uplink and downlink signals between connected base stations and remote wireless units to improve signal transmission efficiency.

• Signal processors detect signal switching between base stations.
• A multiplexer/demultiplexer unit connects the signal processors to remote wireless units.
• A timing comparator calculates adjustments for synchronizing downlink signals based on internal and external switching times of connected base stations.
• A monitoring controller adjusts timing for signal transmissions from remote units based on detected delay amounts.

Key Features and Innovation:

• Signal processors for detecting signal switching between base stations.
• Multiplexer/demultiplexer unit for connecting base stations to remote wireless units.
• Timing comparator for calculating adjustments for synchronizing downlink signals.
• Monitoring controller for adjusting timing based on detected delay amounts.

Potential Applications: The technology can be applied in telecommunications, wireless communication networks, and optical repeater systems to enhance signal transmission efficiency and synchronization.

Problems Solved: The technology addresses issues related to signal synchronization, delay management, and signal transmission efficiency in connected base stations and remote wireless units.

Benefits:

• Improved signal transmission efficiency.
• Enhanced synchronization between base stations and remote units.
• Reduced delays in signal transmission.

Commercial Applications: The technology can be utilized in telecommunications infrastructure, wireless network systems, and optical communication networks to optimize signal transmission and improve network performance.

Prior Art: Readers can explore prior patents related to optical repeater systems, signal synchronization technologies, and wireless communication systems to understand the background of this innovation.

Frequently Updated Research: Stay updated on advancements in optical repeater technology, signal processing algorithms, and wireless communication protocols to enhance the efficiency and performance of communication networks.

Questions about Optical Repeater Systems: 1. How does the technology of optical repeater systems impact signal transmission in wireless networks? 2. What are the key components of an optical repeater system and how do they contribute to signal synchronization and efficiency?

Original Abstract Submitted

an optical repeater has signal processors which detect switching between uplink and downlink signals of a first group of connected base stations. a multiplexer/demultiplexer unit is between the signal processors and a first plurality of remote wireless units. a timing comparator acquires signal switching times for the first group of base stations, calculates adjustments for synchronizing the switching transmission of a downlink signal to a remote unit based on both internal switching times and external switching times for a second group of base stations connected to another optical repeater. a monitoring controller acquires detected delay amounts for a first plurality of remote units, and calculates timing adjustments for synchronizing transmissions from the first group of remote units and another group of remote units connected to the other optical repeater based on the detected delay amounts and information from the other optical repeater.