CHANNEL ACCESS TECHNIQUES IN A MULTI-HOP FRAMEWORK FOR ULTRA-HIGH RELIABILITY

Organization Name

qualcomm incorporated

Inventor(s)

Abdel Karim Ajami of San Diego CA (US)

Abhishek Pramod Patil of San Diego CA (US)

Sai Yiu Duncan Ho of San Diego CA (US)

Yanjun Sun of San Diego CA (US)

George Cherian of San Diego CA (US)

Alfred Asterjadhi of San Diego CA (US)

Gaurang Naik of San Diego CA (US)

CHANNEL ACCESS TECHNIQUES IN A MULTI-HOP FRAMEWORK FOR ULTRA-HIGH RELIABILITY - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240340952 titled 'CHANNEL ACCESS TECHNIQUES IN A MULTI-HOP FRAMEWORK FOR ULTRA-HIGH RELIABILITY

The patent application discusses methods, components, devices, and systems for channel access techniques in a multi-hop framework for ultra-high reliability (UHR).

• Transmission Opportunity (TXOP) sharing mechanism allows wireless communication devices to relay data frames along multiple hops within the same TXOP.
• Coordinated medium access scheme facilitates relaying data frames between a root access point (AP) and a wireless station (STA) via multiple service periods.
• Various signaling mechanisms and frame formats enable wireless communication devices to exchange or negotiate information associated with a coordinated medium access scheme.
• Differentiated channel access across multiple time epochs may facilitate relay with or without TXOP sharing within associated service periods.

1. 1. 1. Potential Applications:

This technology can be applied in industrial automation, smart cities, IoT networks, and mission-critical communication systems.

1. 1. 1. Problems Solved:

The technology addresses the challenges of ensuring ultra-high reliability in multi-hop wireless communication networks.

1. 1. 1. Benefits:

- Enhanced reliability in data transmission - Improved network efficiency - Better coordination between access points and stations

1. 1. 1. Commercial Applications:

Title: "Advanced Channel Access Technology for Mission-Critical Communication Systems" This technology can be commercialized in industries such as healthcare, transportation, public safety, and defense for reliable and efficient communication.

1. 1. 1. Prior Art:

Researchers can explore existing patents related to multi-hop communication, channel access techniques, and medium access control in wireless networks.

1. 1. 1. Frequently Updated Research:

Stay updated on advancements in multi-hop communication protocols, channel access algorithms, and reliability mechanisms in wireless networks.

1. 1. 1. 1. Questions about Channel Access Techniques in a Multi-Hop Framework for UHR:

1. What are the key challenges in implementing a coordinated medium access scheme in multi-hop wireless networks?

  - Implementing a coordinated medium access scheme in multi-hop wireless networks requires synchronization among devices, efficient resource allocation, and interference management to ensure reliable data transmission.
  

2. How does TXOP sharing improve the efficiency of data relay in multi-hop communication systems?

  - TXOP sharing allows multiple devices to transmit data frames within the same transmission opportunity, reducing latency and improving overall network performance.

Original Abstract Submitted

this disclosure provides methods, components, devices and systems for channel access techniques in a multi-hop framework for ultra-high reliability (uhr). some aspects more specifically relate to a transmission opportunity (txop) sharing mechanism according to which wireless communication devices can relay data frames along multiple hops within a same txop, a coordinated medium access scheme associated with relaying data frames between a root access point (ap) and a wireless station (sta) via multiple service periods, and various signaling mechanisms and frame formats according to which wireless communication devices can exchange or negotiate information associated with a coordinated medium access scheme. in some implementations, a coordinated medium access scheme may be associated with multiple time epochs (each associated with a service period) and differentiated channel access across the multiple time epochs may facilitate the relay with or without txop sharing within the associated service periods.