PHYSICAL DOWNLINK CONTROL CHANNEL (PDCCH) MONITORING FOR CROSS-CARRIER SCHEDULING

Organization Name

intel corporation

Inventor(s)

Yingyang Li of Beijing (CN)

Yi Wang of Beijing (CN)

Debdeep Chatterjee of San Jose CA (US)

Gang Xiong of Portland OR (US)

Seunghee Han of San Jose CA (US)

PHYSICAL DOWNLINK CONTROL CHANNEL (PDCCH) MONITORING FOR CROSS-CARRIER SCHEDULING - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240205908 titled 'PHYSICAL DOWNLINK CONTROL CHANNEL (PDCCH) MONITORING FOR CROSS-CARRIER SCHEDULING

Simplified Explanation: The patent application relates to monitoring the physical downlink control channel (PDCCH) in cross-carrier scheduling scenarios, considering the dormancy switching or activation states of secondary cells.

• Key Features and Innovation:

   - Scheduling transmissions on primary cells (PCell) or primary secondary cells (PSCell) based on secondary cell (SCell) states.
   - Optimization of resources by taking into account the activation or dormancy of SCells.
   - Enhancing efficiency in cross-carrier scheduling through PDCCH monitoring.

Potential Applications: This technology can be applied in wireless communication systems, particularly in LTE and 5G networks, to improve resource allocation and scheduling efficiency.

Problems Solved: - Addressing issues related to inefficient resource allocation in cross-carrier scheduling. - Optimizing transmission scheduling based on the activation status of secondary cells. - Enhancing overall network performance by considering SCell states in PCell and PSCell transmissions.

Benefits: - Improved resource utilization and network efficiency. - Enhanced quality of service for users through optimized scheduling. - Reduction in interference and latency in wireless communication systems.

Commercial Applications: The technology can be utilized by telecommunications companies, network operators, and equipment manufacturers to enhance the performance of LTE and 5G networks, leading to improved user experience and network reliability.

Prior Art: Prior research in the field of cross-carrier scheduling and resource allocation in wireless communication systems can provide valuable insights into the development of this technology.

Frequently Updated Research: Ongoing research in the optimization of resource allocation and scheduling algorithms in wireless networks may provide further advancements in this technology.

Questions about Physical Downlink Control Channel (PDCCH): 1. How does monitoring the PDCCH contribute to efficient resource allocation in wireless communication systems? 2. What are the potential challenges in implementing cross-carrier scheduling based on secondary cell states?

Original Abstract Submitted

various embodiments may relate to physical downlink control channel (pdcch) monitoring in association with cross-carrier scheduling. in particular, some embodiments are directed to scheduling a transmission on a primary cell (pcell) or primary secondary cell (pscell) considering secondary cell (scell) dormancy switching or scell activation states. other embodiments may be disclosed or claimed.