ORCHESTRATION ADAPTER FOR OPTICAL POWER CONTROLS IN C+L BAND NETWORK

Organization Name

Intel Corporation

Inventor(s)

Nikhil Satyarthi of Yelahanka (IN)

Rajakumar Hegde of Karnataka (IN)

Aryabhata Deshpande of Bommanahalli (IN)

Ashok Kunjidhapatham of Devarachikkanahalli (IN)

Sanjeev Ramachandran of Karnataka (IN)

Dinesh Kumar Prakasam of Madurai (IN)

Baranidhar Ramanathan of Kasavanahalli (IN)

ORCHESTRATION ADAPTER FOR OPTICAL POWER CONTROLS IN C+L BAND NETWORK - A simplified explanation of the abstract

This abstract first appeared for US patent application 18146707 titled 'ORCHESTRATION ADAPTER FOR OPTICAL POWER CONTROLS IN C+L BAND NETWORK

Simplified Explanation

This patent application describes an orchestration adapter for an optical network that maps logical-view passbands to physical-view passbands, allowing for efficient network operations.

• The adapter stores a mapping between logical-view passbands and physical-view passbands.
• It receives logical-view operation requests from a network orchestrator and translates them into physical-view operation requests for network element control blocks.
• By executing operations on specific physical-view passbands corresponding to logical-view passbands, the adapter enables seamless network management.

Key Features and Innovation

• Mapping of logical-view passbands to physical-view passbands for efficient network operation.
• Translation of logical-view operation requests into physical-view operation requests.
• Execution of operations on specific physical-view passbands corresponding to logical-view passbands.

Potential Applications

This technology can be applied in optical network management systems to streamline network operations and improve overall efficiency.

Problems Solved

• Simplifies network management by mapping logical-view passbands to physical-view passbands.
• Enables seamless execution of operations on specific passbands.

Benefits

• Enhanced network management efficiency.
• Improved orchestration of network operations.
• Streamlined communication between orchestrators and network elements.

Commercial Applications

Optical network management software companies can integrate this technology into their platforms to offer more efficient and effective network management solutions, potentially increasing their market share.

Prior Art

Readers interested in prior art related to this technology can explore research papers and patents in the field of optical network management and orchestration.

Frequently Updated Research

Researchers in the field of optical network management and orchestration may be conducting studies on improving the efficiency of network operations through innovative mapping techniques.

Questions about Optical Network Orchestration

How does this technology improve network management efficiency?

This technology improves network management efficiency by mapping logical-view passbands to physical-view passbands, enabling seamless execution of operations on specific passbands.

What are the potential applications of this technology beyond optical networks?

The potential applications of this technology extend to other types of networks where efficient mapping of logical and physical views is essential for streamlined operations.

Original Abstract Submitted

An orchestration adapter of an optical network is herein described. The orchestration adapter comprises a processor and a non-transitory computer-readable medium storing processor-executable instructions that, when executed, cause the processor to: store a mapping of a correspondence between logical-view passbands and physical-view passbands, each of the physical-view passbands comprising one or more partition(s), each corresponding to a particular logical-view passband; receive a logical-view operation request from an orchestrator of a network element, the logical-view operation request identifying an operation and a first logical-view passband, the operation being executable by a control block of the network element; and send a physical-view operation request to the control block, the physical-view operation request comprising instructions to cause the control block to execute the operation, the instructions identifying the operation and a first physical-view passband, a first partition of the first physical-view passband corresponding to the first logical-view passband.