ALIGNED TARGET WAKE TIME OPERATION IN WIRELESS COMMUNICATION SYSTEMS

Organization Name

samsung electronics co., ltd.

Inventor(s)

Rubayet Shafin of Allen TX (US)

Vishnu Vardhan Ratnam of Plano TX (US)

Boon Loong Ng of Plano TX (US)

ALIGNED TARGET WAKE TIME OPERATION IN WIRELESS COMMUNICATION SYSTEMS - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240163791 titled 'ALIGNED TARGET WAKE TIME OPERATION IN WIRELESS COMMUNICATION SYSTEMS

Simplified Explanation

The patent application describes a wireless communication network that includes an access point (AP) multi-link device (MLD) and a non-AP MLD. The AP MLD schedules target wake times (TWT) and transmits a broadcast frame to announce a TWT schedule to a TWT scheduled station (STA) affiliated with the non-AP MLD. The broadcast frame indicates whether there is a schedule on another link aligned with the TWT schedule. The TWT scheduled STA can request to join the aligned schedule on the link if interested.

• The wireless communication network includes an AP MLD, a non-AP MLD, and TWT scheduling for efficient communication.
• The AP MLD broadcasts TWT schedules to the TWT scheduled STA on the non-AP MLD.
• The broadcast frame indicates alignment with schedules on other links.
• The TWT scheduled STA can request to join aligned schedules on the link.

Potential Applications

This technology could be applied in various wireless communication systems where efficient scheduling and coordination are essential, such as IoT networks, smart homes, industrial automation, and smart cities.

Problems Solved

1. Efficient scheduling and coordination in wireless communication networks. 2. Optimizing power consumption and network resources by aligning schedules.

Benefits

1. Improved network efficiency and performance. 2. Reduced power consumption for devices. 3. Enhanced overall network reliability and stability.

Potential Commercial Applications

"Wireless Communication Network with TWT Scheduling for Efficient Coordination and Power Optimization" could find applications in industries such as telecommunications, IoT device manufacturers, smart home technology companies, and network infrastructure providers.

Possible Prior Art

One possible prior art could be the use of TWT scheduling in wireless networks for power optimization and coordination. Research papers or patents related to TWT scheduling and network efficiency could be considered as prior art.

Unanswered Questions

How does the TWT scheduling impact the overall network latency and throughput?

The article does not delve into the specific effects of TWT scheduling on network latency and throughput, which could be crucial for understanding the performance implications of this technology.

Are there any limitations or constraints in implementing TWT scheduling in real-world scenarios?

The article does not address any potential challenges or limitations that may arise when implementing TWT scheduling in practical wireless communication networks. Understanding these constraints is essential for assessing the feasibility of deploying this technology.

Original Abstract Submitted

a wireless communication network includes an access point (ap) multi-link device (mld) and a non-ap mld. a target wake time (twt) scheduling ap affiliated with the ap mld transmits a broadcast frame announcing a broadcast twt schedule to a twt scheduled station (sta) affiliated with the non-ap mld. the broadcast frame indicates whether there is a schedule on other link that is aligned with the twt schedule. when the twt scheduled sta is interested in joining the aligned schedule, it transmits a request to join the aligned schedule on the link.