FREE-SPACE OPTICAL COMMUNICATION CONTROL SYSTEM, FREE-SPACE OPTICAL COMMUNICATION CONTROL APPARATUS, AND FREE-SPACE OPTICAL COMMUNICATION CONTROL METHOD

Organization Name

nec corporation

Inventor(s)

Koya Takata of Tokyo (JP)

Atsushi Kamoi of Tokyo (JP)

Hisashi Mizumoto of Tokyo (JP)

Masaki Aizono of Tokyo (JP)

FREE-SPACE OPTICAL COMMUNICATION CONTROL SYSTEM, FREE-SPACE OPTICAL COMMUNICATION CONTROL APPARATUS, AND FREE-SPACE OPTICAL COMMUNICATION CONTROL METHOD - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240097787 titled 'FREE-SPACE OPTICAL COMMUNICATION CONTROL SYSTEM, FREE-SPACE OPTICAL COMMUNICATION CONTROL APPARATUS, AND FREE-SPACE OPTICAL COMMUNICATION CONTROL METHOD

Simplified Explanation

The abstract describes a patent application for a free-space optical communication control system that estimates interruptions in communication and changes the communication path accordingly based on the movement route of a mobile object within the communication area.

• The system includes at least one processor.
• The processor carries out an interruption estimation process to estimate interruptions in free-space optical communication.
• The interruptions are estimated based on movement route information of a mobile object within the communication area.
• The system also includes a path change process to change the communication path based on the estimation result of interruptions.

Potential Applications

This technology could be applied in:

• Autonomous vehicles for maintaining uninterrupted communication during movement.
• Drones for ensuring continuous communication in changing environments.

Problems Solved

This technology solves the following problems:

• Ensuring uninterrupted communication in free-space optical networks.
• Adapting communication paths to movement routes of mobile objects.

Benefits

The benefits of this technology include:

• Improved reliability of free-space optical communication.
• Enhanced efficiency in maintaining communication links.

Potential Commercial Applications

This technology could find commercial applications in:

• Telecommunications industry for improving communication networks.
• Surveillance systems for real-time data transmission.

Possible Prior Art

One possible prior art could be the use of dynamic routing algorithms in traditional communication networks to optimize data transmission paths.

Unanswered Questions

How does the system handle multiple mobile objects within the communication area?

The system's ability to manage interruptions and change paths for multiple mobile objects simultaneously is not addressed in the abstract.

What is the impact of environmental factors on interruption estimation?

The abstract does not mention how environmental conditions such as weather or obstacles affect the accuracy of interruption estimation in the system.

Original Abstract Submitted

a free-space optical communication control system includes at least one processor. the at least one processor carries out: an interruption estimation process of estimating an interruption of free-space optical communication over a free-space optical communication network in accordance with movement route information that indicates a movement route of a mobile object movable within a communication area of the free-space optical communication network; and a path change process of changing a free-space optical communication path in accordance with an estimation result of the interruption estimation process.