COMMUNICATION DEVICE, COMMUNICATION SYSTEM, AND COMMUNICATION METHOD

Organization Name

NIPPON TELEGRAPH AND TELEPHONE CORPORATION

Inventor(s)

Yuhei Kawakami of Tokyo (JP)

Shinichi Yoshihara of Tokyo (JP)

Hideo Kawata of Tokyo (JP)

Takahiro Kubo of Tokyo (JP)

COMMUNICATION DEVICE, COMMUNICATION SYSTEM, AND COMMUNICATION METHOD - A simplified explanation of the abstract

This abstract first appeared for US patent application 18294497 titled 'COMMUNICATION DEVICE, COMMUNICATION SYSTEM, AND COMMUNICATION METHOD

The communication device described in the patent application includes a frame receiving part, a determining part, a plurality of queues, a list storage part, a gate opening/closing part, and a frame transmitting part.

• The frame receiving part receives a frame.
• The determining part identifies a user identifier and a priority traffic class.
• The plurality of queues hold frames for each user identifier and priority traffic class.
• The list storage part stores a gate control list indicating times of multiple time slots and open/closed states of gates.
• The gate opening/closing part controls the open/closed states of the gates.
• The frame transmitting part sends frames from a queue corresponding to a gate in an open state during a delay guarantee period.

Potential Applications: - This technology can be used in communication devices to prioritize traffic based on user identifiers and traffic classes. - It can be applied in network systems to manage and control the flow of data efficiently.

Problems Solved: - Efficient management of data traffic based on user identifiers and priority traffic classes. - Ensuring timely transmission of frames during designated delay guarantee periods.

Benefits: - Improved network performance and data transmission efficiency. - Enhanced user experience with prioritized traffic handling.

Commercial Applications: Title: "Advanced Traffic Prioritization Technology for Communication Devices" This technology can be utilized in telecommunications equipment, network routers, and data centers to optimize data traffic flow and enhance overall network performance.

Questions about the technology: 1. How does this technology improve data transmission efficiency in communication devices? 2. What are the key advantages of using gate control lists for managing data traffic in networks?

Frequently Updated Research: Stay updated on the latest advancements in network traffic management systems and communication device technologies to enhance the performance and efficiency of data transmission processes.

Original Abstract Submitted

A communication device () according to the present disclosure includes: a frame receiving part () which receives a frame; a determining part () which determines a user identifier and a priority traffic class; a plurality of queues () which each hold frames for each user identifier and priority traffic class; a list storage part () which stores a gate control list indicating times of a plurality of time slots and open/closed states which are either open states or closed states of a plurality of gates (), a gate opening/closing part () which controls open/closed states of the plurality of gates; and a frame transmitting part () which transmits frames held in a queue (-k) corresponding to a gate (-k) controlled to be in an open state, in which at least one time slot in the gate control list is a delay guarantee period.