AP CONTROLLED PEER-TO-PEER MULTI-LINK OPERATIONS SIGNALLING

Organization Name

Cisco Technology, Inc.

Inventor(s)

Pooya Monajemi of San Jose CA (US)

Robert E. Barton of Richmond (CA)

Juan Carlos Zuniga of Montreal (CA)

Malcolm M. Smith of Richardson TX (US)

Jerome Henry of Pittsboro NC (US)

AP CONTROLLED PEER-TO-PEER MULTI-LINK OPERATIONS SIGNALLING - A simplified explanation of the abstract

This abstract first appeared for US patent application 18193337 titled 'AP CONTROLLED PEER-TO-PEER MULTI-LINK OPERATIONS SIGNALLING

Simplified Explanation

The abstract describes a technique for improved peer-to-peer communication using a wireless access point to initiate communication between multiple peer-to-peer devices.

• The wireless access point sends a trigger frame to the peer-to-peer devices to hand over a transmission opportunity.
• The trigger frame is sent based on the AP's knowledge of the availability of the peer-to-peer devices for communication.
• The trigger frame indicates the link to be used for the peer-to-peer communication.
• The peer-to-peer devices acknowledge the trigger frame, tune to the assigned link, and use the remaining portion of the TXOP for communication.

Potential Applications

This technology could be applied in various scenarios where efficient peer-to-peer communication is required, such as in IoT devices, smart homes, and industrial automation systems.

Problems Solved

This technology solves the problem of optimizing peer-to-peer communication by efficiently managing transmission opportunities and link assignments, leading to improved overall communication performance.

Benefits

The benefits of this technology include increased reliability, reduced latency, and improved throughput in peer-to-peer communication scenarios.

Potential Commercial Applications

Potential commercial applications of this technology include IoT networks, smart home devices, industrial automation systems, and any other systems that require efficient peer-to-peer communication.

Possible Prior Art

One possible prior art for this technology could be existing techniques for managing peer-to-peer communication in wireless networks, such as dynamic link assignment algorithms or transmission opportunity scheduling methods.

Unanswered Questions

How does this technology impact power consumption in peer-to-peer devices?

This article does not address the potential impact of this technology on the power consumption of peer-to-peer devices. Implementing additional communication protocols and link assignments may have implications for power usage.

What security measures are in place to protect the peer-to-peer communication initiated by the wireless access point?

The abstract does not mention any specific security measures implemented to protect the peer-to-peer communication initiated by the wireless access point. It would be important to understand how the system ensures the confidentiality and integrity of the communication between peer-to-peer devices.

Original Abstract Submitted

Techniques for improved peer-to-peer communication are provided. A wireless access point (AP) may initiate peer-to-peer communication between multilink peer-to-peer devices by sending a trigger frame addressed to the peer-to-peer devices to hand over a transmission opportunity (TXOP). The trigger frame is sent based on the AP's knowledge of the availability of the peer-to-peer devices for peer-to-peer communication. The trigger frame indicates a link to be used for the peer-to-peer communication. In response to receiving the trigger frame one or more of the peer-to-peer devices acknowledge the trigger frame, tune to the assigned link, and use the remaining portion of the TXOP for peer-to-peer communication.