18266766. SURVEILLANCE CONTROL DEVICE AND OPTICAL POWER SUPPLY SYSTEM simplified abstract (NIPPON TELEGRAPH AND TELEPHONE CORPORATION)
Contents
SURVEILLANCE CONTROL DEVICE AND OPTICAL POWER SUPPLY SYSTEM
Organization Name
NIPPON TELEGRAPH AND TELEPHONE CORPORATION
Inventor(s)
Tomohiro Kawano of Musashino-shi, Tokyo (JP)
Kunihiro Toge of Musashino-shi, Tokyo (JP)
Chisato Fukai of Musashino-shi, Tokyo (JP)
Kazunori Katayama of Musashino-shi, Tokyo (JP)
SURVEILLANCE CONTROL DEVICE AND OPTICAL POWER SUPPLY SYSTEM - A simplified explanation of the abstract
This abstract first appeared for US patent application 18266766 titled 'SURVEILLANCE CONTROL DEVICE AND OPTICAL POWER SUPPLY SYSTEM
Simplified Explanation
The disclosure describes a monitoring control device and an optical power supply system for remotely controlling multiple optical power supply type optical nodes economically.
- Control means for executing power supply and power supply time allocation for selecting a control target optical node based on the amount of stored energy of multiple optical nodes.
- Enables optical power supply and control of multiple optical switches in nodes and management of stored power with a single laser.
- Provides an economical optical line switching node system.
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- Potential Applications
- Telecommunications networks
- Data centers
- Fiber optic communication systems
- Problems Solved
- Remote control of multiple optical nodes
- Efficient power supply management
- Cost-effective optical line switching node system
- Benefits
- Remote monitoring and control
- Efficient energy allocation
- Cost savings in optical network infrastructure maintenance
Original Abstract Submitted
The disclosure provides a monitoring control device and an optical power supply system in which a system capable of remotely controlling many optical power supply type optical nodes can be economically constructed. A monitoring control device according to the present disclosure includes control means for executing power supply and power supply time allocation for selecting a control target optical node based on the amount of stored energy of a plurality of optical nodes. According to the present disclosure, in a system that includes a monitoring control device installed in a power supply environment and one or a plurality of remotely arranged optical line switching nodes, optical power supply and control of a plurality of optical switches included in the nodes and management of an amount of stored power can be simultaneously implemented with a single laser. Thus, it is possible to provide an economical optical line switching node system.