MULTIPLE SEQUENCES OF NETWORK OPERATIONS FOR MULTIPLE TRANSMISSION AND RECEPTION POINTS

Organization Name

QUALCOMM Incorporated

Inventor(s)

Ahmed Attia Abotabl of San Diego CA (US)

Hung Dinh Ly of San Diego CA (US)

Yu Zhang of San Diego CA (US)

Marwen Zorgui of San Diego CA (US)

MULTIPLE SEQUENCES OF NETWORK OPERATIONS FOR MULTIPLE TRANSMISSION AND RECEPTION POINTS - A simplified explanation of the abstract

This abstract first appeared for US patent application 17881444 titled 'MULTIPLE SEQUENCES OF NETWORK OPERATIONS FOR MULTIPLE TRANSMISSION AND RECEPTION POINTS

Simplified Explanation

Methods, systems, and devices for wireless communications are described in this patent application. The techniques described focus on transmission and reception point (TRP)-specific network operation sequences. The main idea is to configure different TRPs with different network operation sequences, allowing some TRPs to operate in lower-power consumption modes while accommodating dynamic network traffic.

• The patent application proposes configuring different TRPs with different network operation sequences.
• This enables some TRPs to operate in lower-power consumption modes.
• Simultaneously, it allows the network to handle dynamic network traffic efficiently.
• Different network operation sequences can have different parameters or restrictions.
• Different TRPs can be associated with different control resource set (CORESET) indices or different virtual component carriers.
• The first TRP can indicate parameters to a UE (User Equipment) for communicating with a second TRP in a flexible mode at the second TRP.

Potential applications of this technology:

• Wireless communication networks
• Cellular networks
• Internet of Things (IoT) networks
• Smart cities
• Industrial automation
• Autonomous vehicles
• Remote monitoring and control systems

Problems solved by this technology:

• Power consumption optimization in wireless communication networks
• Efficient handling of dynamic network traffic
• Flexibility in communication modes between TRPs and UEs

Benefits of this technology:

• Reduced power consumption in certain TRPs
• Improved network efficiency and capacity
• Enhanced flexibility in communication modes
• Better resource allocation and management in wireless networks

Original Abstract Submitted

Methods, systems, and devices for wireless communications are described. The described techniques are directed to transmission and reception point (TRP)-specific network operation sequences. A first TRP may be configured with a first network operation sequence, and a second TRP may be configured with a second network operation sequence. The use of separate network operation sequences for different TRPs may enable some TRPs to operate in lower-power consumption modes, while simultaneously enabling a network to accommodate dynamic network traffic. Different network operation sequences may be configured with different parameters or restrictions. Different TRPs may be associated with different control resource set (CORESET) indices or different virtual component carriers. In some examples, a first TRP may indicate parameters to a UE for communicating with a second TRP in a flexible mode at the second TRP.